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WO2017075835A1 - 系统消息传输装置、方法和系统 - Google Patents

系统消息传输装置、方法和系统 Download PDF

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Publication number
WO2017075835A1
WO2017075835A1 PCT/CN2015/094062 CN2015094062W WO2017075835A1 WO 2017075835 A1 WO2017075835 A1 WO 2017075835A1 CN 2015094062 W CN2015094062 W CN 2015094062W WO 2017075835 A1 WO2017075835 A1 WO 2017075835A1
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WO
WIPO (PCT)
Prior art keywords
system message
indication information
message
terminal device
updated
Prior art date
Application number
PCT/CN2015/094062
Other languages
English (en)
French (fr)
Inventor
于映辉
单宝堃
李晨琬
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to KR1020187014526A priority Critical patent/KR20180072792A/ko
Priority to EP15907677.7A priority patent/EP3361797B1/en
Priority to CN201810213735.0A priority patent/CN108541062B/zh
Priority to KR1020207000708A priority patent/KR20200006629A/ko
Priority to JP2018522749A priority patent/JP6763020B2/ja
Priority to CN201910631435.9A priority patent/CN110475313B/zh
Priority to CN201580055932.9A priority patent/CN107113774B/zh
Priority to PCT/CN2015/094062 priority patent/WO2017075835A1/zh
Publication of WO2017075835A1 publication Critical patent/WO2017075835A1/zh
Priority to US15/971,272 priority patent/US10841899B2/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/08Access restriction or access information delivery, e.g. discovery data delivery
    • H04W48/12Access restriction or access information delivery, e.g. discovery data delivery using downlink control channel
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W68/00User notification, e.g. alerting and paging, for incoming communication, change of service or the like
    • H04W68/02Arrangements for increasing efficiency of notification or paging channel
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/08Access restriction or access information delivery, e.g. discovery data delivery
    • H04W48/10Access restriction or access information delivery, e.g. discovery data delivery using broadcasted information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/12Wireless traffic scheduling
    • H04W72/1215Wireless traffic scheduling for collaboration of different radio technologies
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/12Wireless traffic scheduling
    • H04W72/1263Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows
    • H04W72/1273Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows of downlink data flows
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/23Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04JMULTIPLEX COMMUNICATION
    • H04J2211/00Orthogonal indexing scheme relating to orthogonal multiplex systems
    • H04J2211/003Orthogonal indexing scheme relating to orthogonal multiplex systems within particular systems or standards
    • H04J2211/005Long term evolution [LTE]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/20Manipulation of established connections
    • H04W76/28Discontinuous transmission [DTX]; Discontinuous reception [DRX]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the present application relates to the field of wireless communication technologies, and in particular, to a system message transmission apparatus, method, and system.
  • the Internet of Things realizes the communication between things. Compared with the traditional communication between people, the Internet of Things puts higher requirements on the energy consumption of the terminal equipment, and needs to reduce the energy consumption of the terminal equipment as much as possible, thereby ensuring the long standby time of the equipment and reducing the labor cost of replacing the battery. .
  • a long discontinuous reception (DRX) cycle is configured for the terminal device in the idle state to save power and extend the standby time of the terminal device.
  • the Internet of Things can be implemented based on a cellular network, such as implementing Internet of Things communication based on a Long Term Evolution (LTE) system.
  • LTE Long Term Evolution
  • the terminal device system information (System Information) is usually notified by a paging message, that is, in a system message change period, a paging message is sent to notify the terminal device that the system message will be changed in the next system message change period, and the terminal device is in the The next system message change cycle reads the changed system message.
  • the system message change period in the LTE system is a period in which a paging message is sent, that is, an integer multiple of a paging period, so that when the system message is changed, the radio resource control is idle (Radio Resource Control IDLE, RRC_IDLE).
  • the terminal device of the state (hereinafter referred to as "idle state") can read that a system message is about to be changed in the system message change period, and the system message is read in the next system message change cycle to complete the system.
  • the update of the message in which the terminal device successfully completes the system message update in the system message change period, and does not need to read the subsequent system message sent in the cycle.
  • a paging cycle is equal to a DRX cycle.
  • the paging period may be longer than the system message change period due to the use of the long DRX cycle.
  • the terminal device in the idle state may not receive the paging message indicating the system message change. Therefore, system messages cannot be updated.
  • the terminal device may not be able to update the system message normally.
  • the present application provides a system message transmission apparatus, method, and system for solving the problem that the DRX period of the terminal device is greater than the system message change period, and the terminal device may not be able to update the system message normally.
  • the application provides a terminal device, including:
  • a receiving module configured to receive a first system message of a cell where the terminal device is located
  • a processing module configured to acquire first indication information in the first system message received by the receiving module, where the first indication information includes information used to update other system messages except the first system message And updating, according to the obtained first indication information, other system messages except the first system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the application provides a network device, including:
  • a processing module configured to determine a first system message, where the first system message includes first indication information, where the first indication information includes information for updating other system messages except the first system message;
  • a sending module configured to send the first system message determined by the processing module in a cell
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the application provides a method for updating a system message, including:
  • the first terminal device obtains first indication information from the first system message, where the first indication information includes information for updating other system messages except the first system message;
  • the first terminal device updates, according to the obtained first indication information, other system messages except the first system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the application provides a method for updating a system message, including:
  • the network device determines a first system message, where the first system message includes first indication information, where the first indication information includes information for updating other system messages except the first system message;
  • the network device sends the determined first system message in a cell
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the application provides a wireless communication system, including:
  • a network device configured to send the first system message in a cell, where the first system message includes first indication information, where the first indication information includes, for updating, other than the first system message System message information;
  • a terminal device configured to receive the first system message sent by the network device, obtain first indication information from the first system message, and according to the obtained first indication information, for a message other than the first system Other system messages are updated;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the first indication information is sent in the first system message, instead of being sent in the paging message, because the first system message is sent periodically, and the occupied physical resource location is fixed, the terminal device Other system messages besides the first system message may be updated according to the indication information to implement updating of all system messages.
  • the DRX period of the terminal device is prevented from being greater than the system message change period, and the terminal device may not receive the paging message for indicating the system message change, thereby failing to implement the system message. The problem with the update.
  • the system message other than the first system message includes: a second system message, at least two third system messages, the at least two The three system message includes at least one regular class third system message and at least one activation class Third system message;
  • the second system message includes scheduling information of the at least two third system messages
  • the activation-type third system message includes a system message that the terminal device in the cell needs to acquire when the specific function of the cell is activated; the third-system message of the regular class is in the at least two third system messages. In addition to activating the third system message other than the third system message.
  • the third system message is further subdivided into an activation type third system message and a regular class third system message. Therefore, when updating the system messages, a more flexible indication manner may be adopted, and the terminal device performs the system.
  • the method of message update is more flexible.
  • the first indication information includes: second indication information, where the second indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one regular class third system message. Updating, in a system message update period, any one or more of the second system message and the at least one regular class third system message, when the configuration version changes once,
  • the terminal device updates the second system message
  • the terminal device determines that the second system message does not need to be updated.
  • the terminal device can determine whether the system message needs to be read according to the second indication information, thereby reducing energy consumption and saving processing capability.
  • the second system message includes at least one third indication information
  • the third indication information corresponds to one a regular class third system message, configured to indicate, when the corresponding third class system message has been updated, relative to a last time the configuration version change, after updating the second system message, from the Obtaining the at least one third indication information in the second system message;
  • each of the at least one third indication information indicates that the corresponding third-system message is not updated with respect to the latest configuration version change, determining that the update is not required Any one of the at least one regular class third system message;
  • the receiving module controls the receiving module to read the third-system message of the regular class according to the scheduling information of the third-system message of the regular class in the updated second system message.
  • the terminal device may perform system message update only for the updated regular-type third system message, thereby reducing energy consumption and saving processing capability; On the one hand, the terminal device can also determine that it is not necessary to update the regular third system message when the all the third type system messages are not updated according to the third indication information, thereby reducing energy consumption and saving processing power.
  • a fourth possible implementation if the configuration version indicated by the second indication information and the configuration version recorded by the terminal device are different, Different of the configured versions, then
  • the receiving module is controlled to read the regular third system message according to the scheduling information of the regular third system message in the updated second system message.
  • the terminal device needs to update all the regular class third system messages.
  • the first indication information further includes: at least one fourth indication information,
  • the fourth indication information corresponds to one of the activation type third system messages, and is used to indicate whether the terminal device in the cell needs to update the corresponding activation type third system message.
  • the terminal device updates the corresponding activation type third system message
  • the terminal device determines that the corresponding activation type third system message does not need to be updated.
  • the terminal device determines that the activation class third system message needs to be updated, and the fourth indication information indicates that the corresponding activation class third system message does not need to be updated.
  • the terminal device determines that it is not necessary to update the activation class third system message, which is different from the foregoing update mechanism of the regular class third system message.
  • the application provides a terminal device, including:
  • a receiving module configured to receive a first system message of a cell where the terminal device is located; the system message of the cell includes: the first system message, a second system message, and at least one third system message; The message is periodically sent, and the occupied physical resource location is fixed; the second system message includes scheduling information of the at least one third system message; and the at least one third system message includes a system message related to the paging;
  • a processing module configured to obtain first indication information in the first system message received by the receiving module, where the first indication information is used to indicate whether the system message related to the paging has been updated;
  • the first indication information indicates that the paging-related system message is not updated, and then the receiving module is configured to receive a paging message according to the recorded paging-related system message, and according to the received by the receiving module.
  • the second indication information related to the system message update in the paging message Line system message updates.
  • the application provides a network device, including:
  • a processing module configured to determine a first system message, where the first system message includes first indication information, where the first indication information is used to indicate whether the system message related to the paging has been updated;
  • a sending module configured to send the first system message determined by the processing module in a cell
  • the processing module is further configured to: determine a paging message, where the paging message includes second indication information related to system message update;
  • the sending module is further configured to: send, in the cell, the paging message that is determined by the processing module;
  • the system message of the cell includes: the first system message, the second system message, and the at least one third system message; the first system message is periodically sent, and the occupied physical resource location is fixed;
  • the second system message includes scheduling information of the at least one third system message; the at least one third system message includes a system message related to the paging.
  • the application provides a method for updating a system message, including:
  • the first terminal device receives the first system message of the cell in the cell; the system message of the cell includes: the first system message, the second system message, and the at least one third system message; the first system message is sent periodically, And the occupied physical resource location is fixed; the second system message includes scheduling information of the at least one third system message; and the at least one third system message includes a system message related to the paging;
  • the first terminal device acquires first indication information in the first system message, where the first indication information is used to indicate whether the system message related to the paging has been updated;
  • the first indication information indicates that the paging related system message is not updated
  • the first terminal device performs system message update according to the second indication information related to the system message update in the received paging message.
  • the application provides a method for updating a system message, including:
  • the network device determines a first system message, where the first system message includes first indication information, where the first indication information is used to indicate whether the system message related to the paging has been updated;
  • the network device sends the determined first system message in a cell
  • the system message of the cell includes: the first system message, the second system message, and the at least one third system message; the first system message is periodically sent, and the occupied physical resource location is fixed;
  • the second system message includes scheduling information of the at least one third system message; the at least one third system message includes a system message related to the paging.
  • the application provides a wireless communication system, including:
  • a network device configured to send a first system message in a cell, where the first system message includes first indication information, where the first indication information is used to indicate whether the system message related to the paging has been updated; Transmitting a paging message in the cell, where the paging message includes second indication information related to system message update;
  • the terminal device is configured to receive the first system message that is sent by the network device in the cell, and obtain the first indication information in the first system message, if the first indication information indicates the If the related system message is not updated, the paging message is received according to the recorded system message related to the paging, and the system performs the system according to the second indication information related to the system message update in the received paging message.
  • the system message of the cell includes: the first system message, the second system message, and the at least one third system message; the first system message is periodically sent, and the occupied physical resource location is fixed; the second system The message includes scheduling information of the at least one third system message; the at least one third system message includes a system message related to the paging.
  • the network device indicates that the system message related to the paging has been updated in the first system message periodically sent, if not updated, the terminal device can still follow the Recording system messages related to paging to receive paging messages normally, Further, the indication information related to the system message update is obtained from the paging message, and the system message is updated according to the indication information obtained from the paging message. Thus, even if the DRX period is greater than the system message update period, since the system message related to the paging message is not updated, the terminal device can correctly receive the paging message according to the recorded system message related to the paging, thereby being successful. The indication information related to the system message update is obtained from the paging message, so that the system message can be successfully updated.
  • the second indication information includes: third indication information, fourth indication information, and at least one fifth indication information;
  • the third indication information is used to indicate a configuration version of a combination of the second system message and the at least one third system message currently used by the cell, in a system message update period, the second system Updating the message and any one or more of the at least one third system message, the configuration version changing once;
  • the fourth indication information is used to indicate whether the second system message has been updated with respect to a configuration change of the last time
  • the fifth indication information corresponds to one of the third system messages, and is used to indicate whether the corresponding third system message has been updated with respect to the latest configuration version change.
  • the network device may notify the terminal device of the change of the second system message and the third system message in a plurality of system message update periods by using the third indication information, and the terminal device may determine, by combining the third indication information and the fifth indication information, Whether it is necessary to update the third system message and how to update the third indication information;
  • the fourth indication information is used by the network device to notify the terminal device whether the second system message including the scheduling information of the third system message is updated, so that the terminal device can determine whether the second system needs to be updated by combining the third indication information and the fourth indication information.
  • the second possible implementation if the configuration version indicated by the third indication information is related to the terminal device If the recorded configuration versions are the same, it is determined that no system message update is required;
  • the configuration version indicated by the third indication information is the same as that recorded by the terminal device If the configuration version is different, but there is no other different configuration version between the two configuration versions, when the fourth indication information indicates that the second system message has been updated relative to the latest configuration version change, Updating the second system message; determining that the second system message does not need to be updated when the fourth indication information indicates that the second system message is not updated with respect to a last time the configuration version change.
  • Each of the at least one fifth indication information indicates that the third system message is not updated, and the terminal device determines that the third system message does not need to be updated. Any one of the at least one third system message;
  • the sixth indication information is used to indicate the second system message currently used by the cell, and the at least one third a configured version of the combination of system messages, during a system message update period, Updating the system message and any one or more of the at least one third system message, the configuration version is changed once; and the seventh indication information corresponds to one of the third system messages, Instructing whether the corresponding third system message has been updated with respect to a configuration change of the last time;
  • the configuration version indicated by the sixth indication information is different from the configuration version that has been recorded by the terminal device, and there are other different configuration versions in the middle of the two configuration versions, for the at least one Each system message in the third system message is updated.
  • the terminal device When the system message related to the paging changes, the terminal device first updates the second system message, and updates the third system message according to the sixth indication information and the seventh indication information in the second system message.
  • the application provides a terminal device, including:
  • a receiving module configured to receive a paging message of a cell where the terminal device is located, where the paging message includes system message update indication information;
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell where the terminal device is located needs to update the system information;
  • a processing module configured to perform system message update according to the system message update indication information received by the receiving module
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the application provides a network device, including:
  • a processing module configured to determine a paging message, where the paging message includes system message update indication information
  • a sending module configured to send, in a cell, the paging message that is determined by the processing module
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell needs to update the system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the application provides a method for updating a system message, including:
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell where the first terminal device is located needs Update the system message;
  • the first terminal device performs system message update according to the system message update indication information
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the application provides a method for updating a system message, including:
  • the network device determines a paging message, where the paging message includes system message update indication information
  • the network device sends the paging message in a cell
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell needs to update the system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the application provides a wireless communication system, including:
  • a network device configured to send the paging message in a cell, where the paging message includes system message update indication information, where the system message update indication information includes: a first system message, a second system message, and Each system message in the at least one third system message indicates whether the terminal device in the cell needs to update the system message;
  • a first terminal device configured to receive the paging message that is sent by the I in the cell, and perform system message update according to the system message update indication information;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the indication information is used to indicate whether the corresponding system message needs to be updated, by using the indication information for each system message in the paging message, and the terminal device may The specific situation of each indication information determines how to update the system message. For example, the indication information of the second system message indicates that the second system message does not need to be updated, and the terminal device only needs to update according to the recorded second system message when performing the at least one third system message update, and does not need to re-read the The second system message improves the efficiency of the terminal device updating the system message.
  • the application provides a terminal device, including:
  • a processing module configured to determine that the terminal device needs to receive at least one system message, and determine, for each system message in the at least one system message, a starting position, a sending period, and a repetition quantity of the network device sending the system message;
  • the receiving module is configured to receive, according to the system message that the system message is sent by the processing module, the starting position, the sending period, and the number of repetitions of the system message, for each system message in the at least one system message, to receive the system message;
  • the time interval between two transmissions of a system message includes one or more other system messages sent by the network device.
  • the application provides a network device, including:
  • a processing module configured to determine that the network device needs to send at least one system message, and Determining, in each of the determined at least one system message, a starting position, a sending period, and a repetition number of the sending of the system message;
  • a sending module configured to send, according to each of the at least one system message determined by the processing module, a system message according to determining a starting position, a sending period, and a repetition quantity of the sending of the system message;
  • the time interval between two transmissions of a system message includes one or more other system messages sent.
  • the application provides a method for receiving a system message, including:
  • the first terminal device determines that at least one system message needs to be received
  • the first terminal device determines a starting location, a sending period, and a repetition number of the network device sending the system message;
  • the first terminal device receives the system message according to the determined starting position, sending period, and number of repetitions of the system message sent by the network device;
  • the time interval between two transmissions of a system message includes one or more other system messages sent by the network device.
  • the application provides a method for sending a system message, including:
  • the network device determines that at least one system message needs to be sent
  • the network device determines a starting location, a sending period, and a number of repetitions of the sending of the system message;
  • the network device For each system message in the at least one system message, the network device sends the system message according to determining a starting position, a sending period, and a repetition quantity of the sending of the system message;
  • the time interval between two transmissions of a system message includes one or more other system messages sent.
  • the application provides a wireless communication system, including:
  • a network device configured to determine, for each system message in the at least one system message to be sent, a starting position, a sending period, and a repetition quantity of the sending of the system message, and determining the system according to the determining Sending the system message by starting position, sending period, and number of repetitions of the transmission of the unified message;
  • the terminal device is configured to determine, according to each system message in the at least one system message that is sent by the network device, the starting position, the sending period, and the number of repetitions of sending the system message by the network device, and according to the determined Receiving, by the network device, a start position, a sending period, and a repetition quantity of the system message, and receiving the system message;
  • the time interval between two transmissions of a system message includes one or more other system messages sent by the network device.
  • the network device since the network device also transmits other system messages during the two repeated transmissions of one system message, the well-covered terminal device does not have to wait for a system. After all the repetitions of the message are sent, the next system message can be received. When all the system messages that need to be updated are updated, the system message that is repeatedly sent later can be received without going to sleep. It is possible to improve the efficiency of covering better terminal update system messages and reduce the energy consumption of such terminal devices due to listening to unnecessary repeated system messages.
  • FIG. 1 is a schematic diagram of a process in which a terminal device updates a system message according to a paging message in an LTE system
  • FIG. 2 is a schematic diagram of a terminal device of a long DRX that cannot update a system message normally;
  • FIG. 3 is a schematic structural diagram of a wireless communication system according to Embodiment 1 of the present application.
  • FIG. 4 is a schematic structural diagram of a CIoT system applicable to a wireless communication system according to Embodiment 1 of the present application;
  • FIG. 5 is a flowchart of a first system message update scheme according to Embodiment 2 of the present application.
  • FIG. 6 is a flowchart of Option 3 of Embodiment 2 of the present application.
  • FIG. 7 is a flowchart of a second system message update scheme according to Embodiment 3 of the present application.
  • FIG. 8 is a flowchart of a third system message update scheme according to Embodiment 4 of the present application.
  • FIG. 9A is a flowchart of a system message transmission scheme provided in Embodiment 5 of the present application.
  • FIG. 9B is a schematic diagram of a system message transmission manner according to Embodiment 5 of the present application.
  • FIG. 9C is a schematic diagram of another system message transmission manner in Embodiment 5 of the present application.
  • FIG. 10 is a schematic structural diagram of a terminal device according to Embodiment 6 of the present application.
  • FIG. 11 is a schematic structural diagram of two terminal devices provided in Embodiment 7 of the present application.
  • FIG. 12 is a schematic structural diagram of a network device according to Embodiment 8 of the present application.
  • FIG. 13 is a schematic structural diagram of two network devices according to Embodiment 9 of the present application.
  • FIG. 14 is a flowchart of a method for updating a system message according to Embodiment 10 of the present application.
  • FIG. 16 is a schematic structural diagram of three terminal devices provided in Embodiment 12 of the present application.
  • FIG. 17 is a schematic structural diagram of four terminal devices according to Embodiment 13 of the present application.
  • FIG. 18 is a schematic structural diagram of three network devices according to Embodiment 14 of the present application.
  • FIG. 19 is a schematic structural diagram of four network devices according to Embodiment 15 of the present application.
  • FIG. 22 is a schematic structural diagram of five terminal devices provided in Embodiment 18 of the present application.
  • FIG. 23 is a schematic structural diagram of six terminal devices provided in Embodiment 19 of the present application.
  • FIG. 25 is a schematic structural diagram of six network devices according to Embodiment 21 of the present application.
  • FIG. 26 is a flowchart of five system message update methods according to Embodiment 22 of the present application.
  • FIG. 27 is a flowchart of a method for updating six system messages according to Embodiment 23 of the present application.
  • 29 is a schematic structural diagram of eight terminal devices provided by the twenty-fifth embodiment of the present application.
  • FIG. 30 is a schematic structural diagram of seven network devices provided by Embodiment 26 of the present application.
  • Figure 31 is a schematic structural diagram of eight network devices provided in Embodiment 27 of the present application.
  • FIG. 33 is a flowchart of eight system message transmission methods provided by Embodiment 29 of the present application.
  • the present application provides a solution for updating a system message, where the network device carries the indication information in the first system message that is sent, and after receiving the first system message, the terminal device removes the indication according to the indication information.
  • Other system messages other than the first system message are updated; wherein the first system message is sent periodically, and the occupied physical resource location is fixed.
  • the indication information is sent in the first system message, instead of being sent in the paging message, and the terminal device may update other system messages except the first system message according to the indication information, thereby implementing Update of all system messages.
  • the DRX period of the terminal device is prevented from being greater than the system message change period, and the terminal device may not receive the paging message for indicating the system message change, so the system message cannot be implemented. The problem with the update.
  • the present application provides another solution for updating a system message, where the system message that the network device is transmitting includes: a first system message, a second system message, and at least one third system message, where the first The system message is periodically sent, and the occupied physical resource location is fixed; the second system message includes scheduling information of the at least one third system message; the at least one third system message includes a system message related to the paging; wherein the network device is When the first system message is sent, the indication information is used to indicate whether the system message related to the paging in the third system message has been updated.
  • the terminal device receives the paging message according to the recorded system message related to the paging, and according to the received paging message, related to the system message update. Indicates information for system message updates.
  • the terminal device since the network device indicates, in the first system message periodically sent, whether the system message related to the paging has been updated, if there is no update, the terminal device can still follow the recorded system information related to the paging. Receiving the paging message normally, and then obtaining the system from the paging message The message updates the related indication information and updates the system message according to the indication information obtained from the paging message. Thus, even if the DRX period is greater than the system message update period, since the system message related to the paging message is not updated, the terminal device can correctly receive the paging message according to the recorded system message related to the paging, thereby being successful.
  • the indication information related to the system message update is obtained from the paging message, so that the system message can be successfully updated.
  • the present application provides another solution for updating a system message, where the solution is for a scenario in which a paging message can be normally received, for example, the system message update period is an integer multiple of a DRX cycle.
  • the system message update indication information carried in the paging message is respectively directed to the first system message, the second system message, and the at least one third system message, indicating whether the first terminal device needs Updating the system message; the terminal device performs system message update according to the system message update indication information; wherein the first system message is periodically sent, and the occupied physical resource location is fixed; and the second system message includes at least one third system message and Scheduling information.
  • the indication information is used to indicate whether the corresponding system message needs to be updated, and the terminal device may determine how to perform system message update according to the specific situation of each indication information.
  • the indication information of the second system message indicates that the second system message does not need to be updated, and the terminal device only needs to update according to the recorded second system message when performing the at least one third system message update, and does not need to re-read the The second system message improves the efficiency of the terminal device updating the system message.
  • the application provides a system message sending scheme, when a network device sends a system message, another one or more system messages are sent within a time interval between two transmissions of the entire system message.
  • each system message can only be sent in one SI window (SI-window), which can be sent multiple times in the system message window.
  • SI-window The SI window of one system message is adjacent to the SI window of another system message, but one Only one system message can be sent in the SI window.
  • the terminal device After receiving the system message in an SI window, the terminal device must wait until the next SI window to receive a system message.
  • the network device also sends other system messages during the two repeated transmissions of a system message, so that the terminal device does not need to wait for the system message after receiving a system message. When the window arrives, other system messages can be received, which improves the efficiency of system message update.
  • CTI Cellular Internet of Things
  • 5G fifth-generation mobile communications
  • the Internet of Things can be used as an integral part of 5G systems, and its market demand is growing rapidly. Forecasts show that by 2022, the number of connections in the Internet of Things based on 5G systems will reach 18 billion.
  • the system message transmission scheme proposed in the present application can be used in the IoT or in the CIoT to solve the problem in the Internet of Things.
  • the terminal device may not update the system message normally.
  • the problem but it does not mean that it can only be applied to IoT.
  • the terminal device may not be able to update the system message normally.
  • the solution proposed in the present application is used to solve the problem that the terminal device cannot be caused because the DRX period of the terminal device is greater than the system message change period.
  • the problem of normally updating system messages is not limited to the system or network being applied.
  • the system information is a message sent by a network device, such as a base station, to a terminal device in a cell in a wireless communication system.
  • the message includes cell-level information of the cell, and is valid for all terminal devices accessing the cell.
  • network devices transmit system information in a broadcast manner.
  • the system information can be further subdivided according to the content and importance of the system information.
  • the system information in the current LTE system is taken as an example to describe the composition of the system information.
  • the other systems are slightly different in division, the principles are basically the same, and are not described here.
  • system information can be divided into main information blocks (Master Information Block, MIB). And multiple system information blocks (SystemInformationBlock, SIB), where the SIB is divided into SIB1 and other SIBs.
  • MIB Master Information Block
  • SIB SystemInformationBlock
  • Each system information contains a collection of parameters related to a function.
  • MIB message for transmitting MIB
  • the MIB message is transmitted on a Physical Broadcast CHannel (PBCH), and the time-frequency resource is fixed. If the SIB1 is present, the frequency domain resource for transmitting the SIB1 message is scheduled by the physical downlink control channel (PDCCH) signaling, and the time domain resource for transmitting the SIB1 message is fixed.
  • PBCH Physical Broadcast CHannel
  • the SIB1 message and the SI message are transmitted on the Physical Downlink Shared CHannel (PDSCH), and the Resource Block (RB) occupied by the SIB1 message and the SI message. (Location in the frequency domain) and its transmission format, etc. are all dynamically scheduled, indicated by PDCCH signaling.
  • the UE determines whether there is an SI message in the subframe by blindly checking on the PDCCH of one subframe (the position of the SIB1 in the time domain is fixed).
  • the evolved Node B can flexibly change the bandwidth occupied by the SIB1 message and the SI message, the RB set used, the transmission format, and the like according to specific conditions.
  • Each SI message contains one or more SIBs other than SIB1, which have the same scheduling requirements (eg, the same transmission period).
  • the SIB1 message specifies which SIBs are included in the SI message, and the period, scheduling information, and the like of the SI message.
  • the first system message periodically transmitted on a physical broadcast channel (for example, PBCH in the LTE system), and the occupied physical resource location is fixed (for example, for the LTE system, the occupied time domain resource location and the frequency domain resource location are fixed. ).
  • a physical broadcast channel for example, PBCH in the LTE system
  • the occupied physical resource location is fixed (for example, for the LTE system, the occupied time domain resource location and the frequency domain resource location are fixed. ).
  • the transmission period of the first system message is smaller than the system message update period.
  • the first system message may be an MIB message, and the transmission period is 40 ms.
  • the second system message is sent on the service channel (for example, the PDSCH in the LTE system), and the occupied physical resource location is not fixed (or only the time domain location is fixed, and the frequency domain location is indicated by scheduling signaling), the first
  • the second system message includes scheduling information of at least one third system message.
  • the second system message may be periodically sent. If the period is sent, the sending period of the second system message is usually smaller than the system message update period and greater than the sending period of the first system information.
  • the second system message may be an SIB1 message for transmitting the SIB1, and the SIB1 message is sent periodically, and the sending period is 80 ms.
  • At least one third system message sent on a traffic channel (for example, PDSCH in an LTE system), and the occupied physical resource location is not fixed.
  • a traffic channel for example, PDSCH in an LTE system
  • the third system message is an SI message.
  • the system message includes at least two third system messages, the at least two system messages including at least one regular class third system message and at least one activation class third system message.
  • the activation type third system message is a system message that is required to be acquired by the terminal device in the cell when the cell specific function is activated, and the third class system message of the regular class is the at least two system messages, except for the activation class third system message. Other system messages.
  • the SI message for transmitting the SIB 10, the SIB 11, the SIB 12, and the SIB 14 may be the third system message of the activation type, and the other system messages in the SI message are the third system messages of the regular class.
  • a general class third system message may transmit at least one system information, and when one or more system information changes, the regular class third system message that transmits the system information is considered to be updated; an activation class The third system message may also transmit at least one system information, and when one or more of the system information changes, it is considered that the activation type third system message transmitting the system information needs to be updated.
  • the relationship between the third system message and the system information can be referred to as a one-to-many relationship.
  • a regular class third system message may transmit at least one system information, and when one or more of the system information changes, the regular class third system message transmitting the system information is considered to be updated;
  • the activation class third system message only transmits one system information when When a system information changes, it is considered that the activation type third system message transmitting the system information needs to be updated.
  • the correspondence between the third-system message of the conventional class and the system information may be referred to as a one-to-many relationship, and the correspondence between the third system message of the activation class and the system information may be referred to as a one-to-one relationship.
  • a general class third system message transmits only one system information, and when the one system information changes, it is considered that the general class third system message transmitting the system information needs to be updated;
  • the system message may transmit at least one system information, and when one or more of the system information changes, it is considered that the activation type third system message transmitting the system information needs to be updated.
  • the correspondence between the third-system message of the conventional class and the system information may be referred to as a one-to-one relationship
  • the correspondence between the third system message of the activation class and the system information may be referred to as a one-to-many relationship.
  • a general class third system message transmits only one system information, and when the one system information changes, it is considered that the general class third system message transmitting the system information needs to be updated;
  • the system message transmits only one system information.
  • the activation type third system message transmitting the system information needs to be updated.
  • the correspondence between the third system message and the system information may be referred to as a one-to-one relationship.
  • the terminal system is notified of the upcoming system message change by paging and ValueTag, wherein the paging mode is dominant.
  • the base station When the cell is about to modify certain system information, the base station first sets the systemInfoModification field in all paging messages in the current system message change period to indicate that the system message is about to change (but does not send the updated content), and then The cell will send the updated system information in the next system message change cycle.
  • the terminal can predict that the system message is about to change, and then re-receive all system messages at the beginning of the next system message change period.
  • the terminal in the idle state in order to save the terminal power consumption, it is in a sleep state for most of the time. However, it will wake up once every other time (DRX cycle), receive the paging message sent by the system cycle, and then enter the sleep state. Among them, the DRX cycle is equal to the paging cycle.
  • SI-RNTI System Information-Radio Network Temporary Identity
  • the system message change period is an integer multiple of the paging period, that is, the terminal has several chances to receive the paging message in a system message change period, and therefore, the current LTE system passes The paging message indicates that the system message change is reliable.
  • the paging cycle may be greater than the system message change period due to the use of the long DRX cycle, and the system information when the terminal wakes up to receive the paging message (In particular, the system information about paging may have changed. At this time, it is not guaranteed for the terminal to successfully receive the system message.
  • the SIB does not change at the same time in each change cycle, and only some changes may occur.
  • the separate systemInfoModification indication can only indicate whether the change is not indicated, and the change cannot be indicated. Therefore, the LTE system requires the terminal to re-receive all System news, relatively expensive.
  • SI-window SI-window
  • each SI message is transmitted in only one SI window. among them:
  • An SI message is associated with an SI window.
  • the SI message can only be sent in the SI window and can be sent multiple times (how many times, on which subframes, etc., depending on the implementation of the base station), but not Send other SI messages;
  • time domain scheduling process of SI messages is as follows:
  • the terminal confirms the start position of the SI window corresponding to each SI message and the length of the SI window.
  • the length of the SI window is specified by the si-WindowLength field of SIB1, which is in ms.
  • SIB1's schedulingInfoList specifies a list of SI messages, each SI message in the list The order in is denoted by n (starting at 1).
  • si-Periodicity in units of system frames, that is, in units of 10 ms.
  • FLOOR(x/10) determines the initial system frame of the SI window in the period (one system frame is 10ms, so there is x/10).
  • % represents the remainder operation
  • FLOOR represents the largest integer less than or equal to the expression, and / represents the division.
  • the base station determines how many times the same SI is scheduled in the SI window.
  • the implementations of different vendors may be different, but some subframes cannot be used to schedule SI messages. These subframes include:
  • subframe 5 in the system frame of SFN%2 0, the subframe is used for transmission of SIB1;
  • system and “network” are used interchangeably herein in the context of the present invention.
  • the term “and/or” in this context is merely an association describing the associated object, indicating that there may be three relationships, for example, A and / or B, which may indicate that A exists separately, and both A and B exist, respectively. B these three situations.
  • the character "/" in this article generally indicates that the contextual object is an "or" relationship.
  • Example main content Drawing Embodiment 1 Wireless communication system Figure 3, Figure 4 Embodiment 2 The first system message update plan Figure 5, Figure 6 Embodiment 3 Second system message update scheme Figure 7 Embodiment 4
  • the third system message update plan Figure 8 Embodiment 5 System message transmission scheme Figure 9A to Figure 9C Embodiment 6 First terminal device Figure 10
  • Example 7 Second terminal device Figure 11 Example eight First network device Figure 12
  • Example nine Second network device Figure 13 Example ten First system message update method Figure 14 Embodiment 11 Second system message update method Figure 15
  • Example twelve Third terminal device Figure 16 Example thirteen Fourth terminal equipment Figure 17 Embodiment 14 Third network device Figure 18
  • the third system message update method Figure 20 Example seventeen
  • the fourth system message update method Figure 21 Example 18 Fifth terminal device Figure 22
  • Example 19 Sixth terminal device Figure 23
  • Sixth terminal device Figure 23 Example twenty Fifth network device Figure 24 Embodiment 21
  • Sixth network device Figure 25 Example twenty two Fifth system message update method Figure 26
  • Example twenty five Eighth terminal device Figure 29 Example twenty six Seventh network device Figure 30
  • Example twenty seven Eighth network device Figure 31 Example twenty eight Seventh system message transmission method Figure 32
  • FIG. 3 illustrates a wireless communication system provided by the present application, the architecture of which is applicable to various embodiments of the present application.
  • the wireless communication system includes: a network device 301 and at least one terminal device 302.
  • the network device 301 transmits a system message in one cell, and at least one terminal device 302 receives a system message sent by the network device 301.
  • the communication system of the wireless communication system provided in Embodiment 1 includes but is not limited to: Global System of Mobile communication (GSM), Code Division Multiple Access (CDMA) IS-95, and code division multiple access.
  • GSM Global System of Mobile communication
  • CDMA Code Division Multiple Access
  • 2000 Time Division-Synchronous Code Division Multiple Access
  • WCDMA Wideband Code Division Multiple Access
  • LTE-advanced Personal Handy-phone System
  • WiFi Wireless Fidelity
  • 802.11 series of protocols Worldwide Interoperability for Microwave Access (WiMAX)
  • WiMAX Worldwide Interoperability for Microwave Access
  • WiMAX Worldwide Interoperability for Microwave Access
  • future evolutions A wireless communication system.
  • the terminal device 302 may be a wireless terminal, and the wireless terminal may be a device that provides voice and/or data connectivity to the user, a handheld device with wireless connectivity, or is connected to the wireless device. Other processing devices for the modem.
  • the wireless terminal can communicate with one or more core networks via a radio access network (eg, RAN, Radio Access Network), which can be a mobile terminal, such as a mobile phone (or "cellular" phone) and with a mobile terminal
  • RAN Radio Access Network
  • the computers for example, can be portable, pocket-sized, handheld, computer-integrated or in-vehicle mobile devices that exchange language and/or data with the wireless access network.
  • a wireless terminal may also be called a Subscriber Unit, a Subscriber Station, a Mobile Station, a Mobile, a Remote Station, an Access Point, and a Remote Terminal.
  • Remote Terminal Access Terminal, User Terminal, User Agent, User Device, or User Equipment.
  • the network device 301 may include a base station, or a radio resource management device for controlling the base station, or include a base station and a radio resource management device for controlling the base station; wherein the base station may be a macro station or a small station, such as a small cell.
  • the base station may also be a home base station, such as a Home NodeB (HNB), a Home eNodeB (HeNB), etc., and the base station may also include a relay node. Wait.
  • HNB Home NodeB
  • HeNB Home eNodeB
  • the network device 301 in the wireless communication system may be an evolved Node B (eNodeB), and the terminal device 302 may be a UE;
  • the TD-SCDMA system or the WCDMA system the network device 301 in the wireless communication system provided by the embodiment of the present invention may include: a Node B (NodeB) and/or a Radio Network Controller (RNC), and the terminal device 302 may be
  • the network device 301 provided by the embodiment of the present invention may include a Base Transceiver Station (BTS) and/or a Base Station Controller (BSC); and the terminal device 302 is a mobile station ( Mobile station, MS);
  • BTS Base Transceiver Station
  • BSC Base Station Controller
  • the terminal device 302 is a mobile station ( Mobile station, MS);
  • the network device 301 may include: an access point (AP) and/or an access controller (AC), and the terminal device 302 may be a station (STAtion, STA) .
  • AP access point
  • AC access controller
  • a specific example of the wireless communication system provided in Embodiment 1 may be a CIoT system, which is widely used in various fields, including intelligent transportation, building control systems, home intelligent control systems, video monitoring systems, industrial monitoring, and the like.
  • the refrigerator, the electric meter, the automobile, and the like can be used as the terminal device 302 in the CIoT system, and communicate with other terminal devices through a base station, a transmission network, and the like, for example, communication between the electric meter and the automobile.
  • the system message update process provided in Embodiment 2 includes the following steps:
  • the network device 301 sends a first system message in the cell, where the first system message carries the first indication information, where the first indication information is related to the system message update.
  • the terminal device 302 After receiving the first system message, the terminal device 302 acquires first indication information in the first system message, and updates other system messages except the first system message according to the first indication information.
  • the first system message is periodically sent, and the occupied physical resource location is fixed, the terminal device 302 can be in an idle state, and the sending period, the sending time, and the physical resource location of the first system message are known in advance, and the terminal device 302 can During each DRX cycle, the first system message is read when waking up. Alternatively, the terminal device 302 can read the first system message before reading the paging message after waking up.
  • the sending period of the first system message may be determined according to the product implementation, for example: 40ms.
  • the terminal device 302 determines that a system message update is required, and performs a system message; if the first indication information indicates There is no need to update other system messages except the first system message, and the terminal device 302 determines that no system message update is needed, so by reading the first indication information in the first system message, it is not necessary to read other system messages to determine whether To read other system messages besides the first system message, the purpose of saving power and saving processing power is achieved.
  • the first indication information can indicate whether all system messages need to be more through a ValueTag New, for example, the value of the ValueTag ranges from 0 to 31.
  • the value of the ValueTag is incremented by one each time the system message is updated.
  • each time the system message is updated it means that in a system message update period, as long as there is a change in other system messages other than the first system message, the system message is updated once, and no matter how many system messages occur. Change, the ValueTag value is only incremented by 1. In this way, when the ValueTag value of the first indication information changes, the terminal device 302 determines that the system message needs to be updated, and if the ValueTag value has not changed, it is determined that the system message does not need to be updated.
  • the first indication information includes: (1+M) ValueTags, one of the (1+M) ValueTags is used to indicate whether the second system message needs to be updated, and the M ValueTags respectively correspond to the M regular class third systems. Messages, each of which is used to indicate whether the corresponding regular class third system message needs to be updated.
  • the setting of (1+M) ValueTags may be the same as the setting of ValueTag in Option 1, and M is a positive integer.
  • the first indication information may further include N activation indication information, where the N activation indication information is used to indicate whether each system message in the N activation type third system messages needs to be updated, when the value is “1” Indicates that an update is required. When the value is "0", it indicates that no update is required, and N is a positive integer.
  • the first indication information includes: second indication information;
  • the second indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one regular class third system message, in a system message update period, the second system message and the at least one conventional class third system Any one or more system messages in the message are updated, and the version changes once;
  • step S502 after obtaining the first indication information, if the configuration version indicated by the second indication information is different from the configuration version recorded by the terminal device 302, the terminal device 302 updates the second system message;
  • the configuration version indicated by the indication information is the same as the configuration version recorded by the terminal device 302, and the terminal device 302 determines that the second system message does not need to be updated.
  • the second indication information may also be implemented by using a ValueTag.
  • the M third indication information included in the second system message respectively corresponds to the M regular class third system messages.
  • the third indication information is used to indicate whether the corresponding regular class third system message has been updated with respect to the last configuration version change; after the terminal device 302 updates the second system message, obtain at least one third indication from the second system message. information.
  • the configuration version indicated by the second indication information is distinguished, and there are various situations as follows:
  • the configuration version indicated by the second indication information is different from the configuration version recorded by the terminal device 302, but there are no other different configuration versions in between the two configuration versions.
  • the terminal device 302 determines that the at least one regularity does not need to be updated. Any one of the system messages in the third system message;
  • the terminal device 302 reads the regular third system message according to the scheduling information of the regular third system message in the updated second system message.
  • the terminal device 302 reads the regular third system message according to the scheduling information of the regular third system message in the updated second system message for each of the regular third system messages.
  • the terminal device 302 updates each of the regular class third system messages, because: the configuration version indicated by the second indication information and the configuration version recorded by the terminal device 302 have other different configuration versions, and the The two indication information is used to indicate a configuration version of the combination of the second system message currently used by the cell and the at least one regular class third system message, which indicates that the terminal device 302 may have missed at least one system message update procedure. For example, if a regular third system message does not change from the previous configuration version, but there is a change from the previous configuration version, then The value of the corresponding third indication information is still “0”, and it is inaccurate to determine whether it is necessary to update the regular system third system message according to the third system message. Therefore, in order to ensure the validity of the saved system message, in case 2, each of the regular class third system messages needs to be updated.
  • the first indication information may further include: N fourth indication information, where the N fourth indication information respectively correspond to N activation type third system messages, used to indicate in the cell. Whether the terminal device needs to update the corresponding activation type third system message;
  • the terminal device 302 updates the corresponding activation type third system message; if the fourth indication information indicates the terminal device in the cell Instead of updating the corresponding activation class third system message, the terminal device 302 determines that it is not necessary to update the corresponding activation class third system message.
  • the key is that the network device 301 passes the periodically transmitted physical resources.
  • the fixed first system message indicates whether the terminal device 302 needs to update the system message, thereby avoiding whether the paging message is used to indicate whether the terminal device 302 needs to update the system message, so that even if the terminal device 302 cannot read the paging message in time, Enables timely updates of system messages.
  • the first system message is an MIB message
  • the second system message is an SIB1 message
  • at least one third system message is an SI message
  • at least one third system message is used to transmit other SIBs other than SIB1.
  • the method includes: SI_NORM, that is, the foregoing third-system message of the conventional class is that the third-system message of the activation class is SI_ACT, for example, the SIB14 in the LTE system is mainly used to implement the Extended Access Barring (EAB) function.
  • EAB Extended Access Barring
  • the resource location and number of repetitions of the MIB and SIB1 are fixed.
  • SIBs other than SIB1 are included in the SI message.
  • An SI message can contain one SIB or multiple SIBs. If multiple SIBs are included, they must be the same type of SIBs of the same type.
  • the SI message consisting of a regular class SIB is called a regular class SI message, and is composed of an active class SIB. The SI message becomes an active class SI message.
  • the second indication information is ValueTag in the MIB; the SIB1 and the regular SI message are changed once (regardless of several changes in one change period), and the value of the ValueTag is incremented by one.
  • the SIB1 contains the scheduling information of the SI message, the period, and which SIBs are included therein.
  • the M pieces of third indication information are M SI_NORM_INDs in SIB1.
  • a value of 0 indicates that the corresponding regular class third system message is not updated, and a value of 1 indicates that the corresponding regular class third system message has been updated.
  • the M SI_NORM_IND may be implemented by a bitmap, where the bitmap includes at least M bits, and each bit corresponds to a regular class third system message.
  • the N fourth indication information is N SI_ACT_INDs in the MIB.
  • a value of 0 indicates that the corresponding activation type third system message does not need to be updated, and a value of 1 indicates that the corresponding activation type third system message needs to be updated.
  • the N SI_ACT_INDs may also be implemented by a bitmap, where the bitmap includes at least N bits, and each bit corresponds to an activation class third system message.
  • the terminal device 302 maintains a ValueTagMS whose value is the value of the ValueTag read and recorded from the MIB when the last system information is updated.
  • the reason why the value of the ValueTag is used to indicate whether the system message needs to be updated is that when the terminal device 302 is asleep, the system message may change multiple times, using only one bit of information, and if the system message is changed an even number of times, the system cannot be indicated. The message has changed.
  • the ValueTag is adapted to indicate changes in the second system message and the regular class third system message or a combination thereof.
  • the terminal device 302 reads the activation type third system message, and has changed several times regardless of whether the change occurs.
  • the process includes the following steps:
  • the terminal device 302 in the idle state receives the MIB after waking up from the dormant state, wherein, optionally, the DRX cycle of the terminal device 302 is greater than the system information change period;
  • terminal device 302 determines whether all the values of SI_ACT_IND are 0; if all are 0, step S603 is performed, if there is a partial SI_ACT_IND value of 1, step S604 is performed;
  • the terminal device 302 determines that it is not necessary to read any one of SI_ACT;
  • step S604 The terminal device 302 determines whether the ValueTag value in the MIB changes (that is, whether the ValueTag in the read MIB is equal to the ValueTagMS value recorded by itself), if yes, step S606 is performed, and if not, step S605 is performed;
  • the terminal device 302 reads the SI_ACT with the SI_ACT_IND value of 1 according to the scheduled scheduling information in the original SIB1.
  • S606 The terminal device 302 reads the SIB1.
  • the terminal device 302 reads the SI_ACT with the SI_ACT_IND value of 1 according to the scheduling information in the SIB1 read in step S606.
  • step S608 The terminal device 302 determines the change of the ValueTag value in the MIB; if there is no change, step S609 is performed, if there is a change, step S610 is performed;
  • the terminal device 302 determines that it is not necessary to read the SIB1 and any one of the SI_NORMs;
  • the terminal device 302 reads the SIB1, and reads all the SI_NORMs according to the scheduling information of the SI_NORM in the SIB1.
  • terminal device 302 determines whether the value of all SI_NORM_IND in SIB1 is 0, if all are 0, then step S614 is performed, otherwise step S615 is performed;
  • S614 The terminal device 302 determines that it is not necessary to read any one of the SI_NORMs;
  • the terminal device 302 reads the SI_NORM with the SI_NORM_IND value of 1 according to the scheduling information of the SI_NORM with the SI_NORM_IND value of 1 in the read SIB1.
  • the terminal device 302 can immediately read the system message when it is determined that a certain system message needs to be updated, or read the system message in the next system message update period.
  • a system message update scheme is provided, where the terminal device is configured according to The first indication information in the first system message performs system message update, so that the idle state terminal device using the long DRX cycle can acquire the system message change in time and accurately.
  • the network device carries the second indication information, the fourth indication information, and the third system information carries the third indication information in the first system message, so that the terminal only reads the necessary System messages reduce the energy consumption of the terminal equipment.
  • the third system message is divided into a regular class third system message and an activation class third system message, and the second indication information only indicates the change of the second system message and the regular class third system message, for activation
  • the third type system message uses a separate fourth indication to indicate a message change.
  • the terminal device only reads the necessary system messages as much as possible, thereby reducing the power consumption of the terminal.
  • the second embodiment can solve the problem that the terminal device of the long DRX cycle cannot read the paging message in time, and the system message update fails.
  • the second embodiment can also be applied to the terminal device of the normal DRX cycle.
  • Another mechanism for updating the system message using an optional solution in the mechanism, for example, the network device sends the second indication information, the third indication information, and the fourth indication information, so as to prevent the terminal device from reading all system messages. Instead, only the system messages that need to be updated are read, which reduces the power consumption of the terminal device.
  • partial indication information in the third embodiment is the same as the name in the second embodiment, but they may represent different meanings, and the specific meanings are subject to the description in the embodiment.
  • the system message update process provided in Embodiment 3 includes the following steps:
  • the network device 301 sends the first system message in the cell.
  • the terminal device 302 acquires first indication information in the first system message, where the first indication information is used to indicate whether the system message related to the paging has been updated, if the first indication information indicates that the system message related to the paging is not updated. , step S703 and step S704 are performed;
  • the terminal device 302 receives the paging message sent by the network device 301 according to the recorded system message related to the paging.
  • S704 The terminal device 302 performs system message update according to the second indication information related to the system message update in the received paging message.
  • the first system message, the second system message, and the third system message may refer to the description of the foregoing basic concept part.
  • the system message update scheme provided in the third embodiment can also solve the problem that the long DRX terminal device cannot read the paging message in time, thereby causing the system message update failure.
  • the terminal device 302 reads the first indication information by using the first system message that is periodically sent, and the occupied resource is fixed, and determines whether the system message related to the paging is changed according to the first indication information, so that when the terminal device 302 is When it is determined that the system message related to the paging has not been changed, the paging message may be successfully received, and the system message update is further performed according to the second indication information in the paging message.
  • the second indication information includes: third indication information, fourth indication information, and at least one fifth indication information;
  • the third indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • the fourth indication information is used to indicate whether the second system message has been updated with respect to the latest configuration version change
  • a fifth indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • the configuration version indicated by the third indication information is the same as the configuration version recorded by the terminal device 302, it is determined that the system message update is not required;
  • the terminal device 302 updates the second system message
  • the terminal device 302 determines that the second system message does not need to be updated.
  • the configuration version indicated by the third indication information is different from the configuration recorded by the terminal device 302
  • the version is different, but there are no other different configuration versions in the middle of the two configuration versions:
  • the terminal device 302 determines that it is not necessary to update any of the at least one third system message. a system message
  • the configuration version indicated by the third indication information is different from the configuration version recorded by the terminal device 302, and there is no other different configuration version between the two configuration versions, then:
  • the terminal device 302 updates the second system message
  • the terminal device 302 updates each third system message according to the scheduling information of the at least one third system message in the updated second system message.
  • the terminal device 302 updates the second system message
  • a sixth indication information configured to indicate a configured version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • a seventh indication information corresponds to a third system message, configured to indicate whether the corresponding third system message has been updated with respect to the latest configuration version change;
  • the terminal device 302 performs system message update according to the sixth indication information and the at least one seventh indication information.
  • the terminal device 302 indicates the at least one seventh indication information. Updating the third system message for each updated third system message;
  • the terminal device 302 is configured for each system message in the at least one third system message. Update.
  • the first system message is an MIB message
  • the second system message is an SIB1 message
  • the at least one third system message is an SI message
  • the at least one third system message is used to transmit other SIBs other than SIB1.
  • the resource locations of MIB and SIB1 are fixed and the number of repetitions is fixed.
  • SIBs other than SIB1 are included in the SI message.
  • An SI message can contain one SIB or multiple SIBs. If multiple SIBs are included, they must be the same type of SIBs of the same type.
  • the first indication information is ValueTagPaging in the MIB, and the value of the ValueTagPaging is incremented by one every time the system message related to the paging is changed.
  • the second indication information includes third indication information, fourth indication information, and at least one fifth indication information in the paging message, where:
  • the third indication information is a ValueTag, and is used to indicate a configuration version of a combination of the SIB1 message and the at least one SI message currently used by the cell, in one system message update period, any one or more of the SIB1 message and the at least one SI message.
  • the message is updated and the configuration version changes once.
  • the fourth indication information is 1-bit SIB1 change indication information, used to indicate whether SIB1 has been updated with respect to the last change of the configuration version.
  • the at least one fifth indication information is K SI_IND, and a value of 0 indicates that the corresponding SI message is not updated, and a value of 1 indicates that the corresponding SI message has been updated.
  • the K SI_INDs can be implemented by a bitmap, and the bitmap includes at least K bits, and each bit corresponds to one SI message.
  • the SIB1 includes sixth indication information and at least one seventh indication information, where:
  • the sixth indication information is a ValueTag in the SIB1, and has the same meaning as the ValueTag in the paging message;
  • the at least one seventh indication information is K SI_INDs in SIB1, and the meaning is the same as K SI_INDs in the paging message.
  • the terminal device 302 maintains a ValueTagMS and a ValueTagPagingMS, which
  • the value of ValueTagPagingMS is the value of ValueTagPaging read and recorded from the MIB when the last system message is updated.
  • the value of ValueTagMS is read and recorded from the paging message or the second system message when the last system message is updated.
  • the value of ValueTag is read and recorded from the paging message or the second system message when the last system message is updated. The value of ValueTag.
  • the reason why the value of the ValueTag is used to indicate whether the system message needs to be updated is that when the terminal device 302 is asleep, the system message may change multiple times, using only one bit of information, and if the system message is changed an even number of times, the system cannot be indicated. The message has changed.
  • the terminal device 302 in the idle state is taken as an example to describe the process of updating the system message:
  • the MIB is read
  • the terminal device 302 receives the paging message, and below, distinguishes the different values of the ValueTag read from the paging message to illustrate:
  • the terminal device 302 reads the SIB1, and distinguishes between the following two sub-cases according to the value of the ValueTag read in the SIB1:
  • a system message update scheme is provided, in which a terminal device in an idle state is in a paging related system message. Under the premise of not changing, the system message change information can also be obtained through the paging message.
  • the mechanism for the terminal device to read the system message is optimized, and the plurality of indication information is carried in the SIB1 message by carrying the multiple indication information in the paging message, so that the terminal is as read-only as possible. Take the necessary system messages to reduce terminal power consumption.
  • the third embodiment can solve the problem that the terminal device of the long DRX cycle cannot update the system message normally, the terminal device of the short DRX cycle also provides a new system message update solution, which can improve The success rate of system message updates.
  • the system message update process provided in Embodiment 4 includes the following steps:
  • the network device 301 sends a paging message in the cell.
  • the terminal device 302 receives the paging message sent by the network device 301, and acquires system message update indication information from the paging message.
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device 302 needs to update the system message;
  • S803 The terminal device 302 performs system message update according to the obtained system message update indication information.
  • the first system message, the second system message, and the third system message may refer to the description of the foregoing basic concept part.
  • Both the second embodiment and the third embodiment can solve the problem of system message update of the terminal device 302 of the long DRX cycle.
  • the fourth embodiment for the terminal device 302 of the short DRX cycle (the DRX cycle is not greater than the system message update period, and further, the system message update period may be an integer multiple of the DRX cycle), a new system message update scheme is proposed.
  • the system message update indication information in the paging message is set separately for each system message, that is, for each system message in the first system message, the second system message, and the at least one third system message, respectively, The change of each system message can be accurately indicated, so that the terminal device 302 only needs to update the system message for the change when the system message is updated, which reduces the device energy consumption.
  • the system message update indication information of each system message may be implemented by a bitmap, and each bit corresponds to a system message. When one bit is 0, it indicates that the corresponding system message has not changed. When the bit is 1, the corresponding The system message changed.
  • the at least one third system message may include an activation class third system message and a regular class third system message, optionally, for the first system message, the second system message, and the regular class third system message, when corresponding
  • the terminal device 302 can read the corresponding system message in the next system message update period; and for the activation type third system message, when the corresponding system message update indication information is 1, the terminal Device 302 can immediately read the activation class third system message.
  • the system message transmission process provided in Embodiment 5 includes the following steps:
  • the network device 301 determines, for each system message to be sent, a starting position, a sending period, and a repetition quantity of the sending of the system message.
  • the terminal device 302 determines a sending start position, a sending period, and a repetition quantity of each system message to be received.
  • the network device 301 sends the system message according to the determined start position, the sending period, and the number of repetitions of the system message to be sent, and the terminal device 302. Receiving a system message according to the determined starting position, sending period, and number of repetitions of each system message;
  • one time interval between two transmissions of a system message includes one or more other system messages.
  • the solution provided in the fifth embodiment is applicable to any of the foregoing embodiments.
  • the network device 301 sends other system messages during two repeated transmissions, so that the terminal device 302 does not need to wait for the system message window to arrive after receiving a system message. Other system messages can be received, which improves the efficiency of system message updates.
  • the network device 301 repeatedly sends the same system message in an SI window
  • the network device 301 sends other system messages within a time interval between two transmissions of a system message.
  • An application scenario of Option 1 is that, in order to implement the coverage enhancement requirement in the CIoT, the network device 301 needs to repeatedly transmit the same SI message in one SI window.
  • the start frame number T 0 of the SI message schedule and the start subframe number t 0 , N are positive integers.
  • the SI windows are arranged in order without overlapping in the middle without gaps.
  • r is the number of bits that can be transmitted in one subframe of the fixed frequency domain resource and the modulation and coding mode.
  • the starting subframe number is the first subframe number
  • the terminal can receive SIn.
  • the offset i is the number of offset subframes, because some subframes in the system are used in a fixed manner, such as a subframe for transmitting the MIB and the SIB1, and the like, which needs to be culled.
  • This specification is for the terminal device 302 and the network device 301. Said to be fixed, according to the system design can calculate the specific number of offset sub-frames.
  • Option 1 the scheduling of SI messages is completely sequential in time. For a well-covered terminal device, it may take only a few times or even one repetition to get an SI. However, in order to receive a certain system message, it must wait for all previous system message repetitions to be transmitted. It is not suitable for power saving of terminal equipment (especially the well-covered terminal equipment). Therefore, Option 2 gives a system message transmission scheme using overlapping SI windows. As shown in Figure 9C.
  • the terminal device 302 can be in the frame number:
  • the (n 0 +n+i*N-1+offset n,i ) mod10 sub-frame receives the SIn in the data frame.
  • Offset n, i is the number of offset subframes of the ith repetition of SIn.
  • Option 2 for a well-covered terminal, only a few subframes may be needed to complete the reception of system messages.
  • the scheduling scheme of Option 2 can not only achieve resource location and sufficient repeated transmission for coverage enhancement, but also facilitates the power saving performance of a better-level terminal.
  • FIG. 10 is a schematic structural diagram of a first terminal device according to Embodiment 6 of the present application. As shown, the device includes:
  • the receiving module 1001 is configured to receive a first system message of a cell where the terminal device is located;
  • the processing module 1002 is configured to obtain first indication information in the first system message received by the receiving module 1001, where the first indication information includes information used to update other system messages except the first system message, and according to the obtained An indication message for updating other system messages other than the first system message;
  • the first system message is sent periodically, and the occupied physical resource location is fixed.
  • the system message updated by the processing module 1002 except the first system message includes: a second system message, at least two third system messages, and the at least two third system messages include at least one regular class third system a message and at least one activation class third system message;
  • a second system message including scheduling information of at least two third system messages
  • Activating a third-system message including a system message that the terminal device in the cell needs to acquire when the specific function of the cell is activated; the third-system message of the regular class is other than the third-system message of the activation class in the at least two third system messages. Other third system messages.
  • the processing module 1002 is specifically configured to: the first indication information includes: second indication information, where the second indication information is used to indicate a combination of the second system message currently used by the cell and the at least one conventional third system message. a configuration version, in one system message update period, any one or more system messages in the second system message and the at least one regular class third system message are updated, and the configuration version changes once,
  • the configuration version indicated by the second indication information is the same as the configuration version recorded by the terminal device, it is determined that the second system message does not need to be updated.
  • processing module 1002 is specifically configured to:
  • At least one third indication information where the third indication information corresponds to a regular third system message, indicating whether the corresponding regular third system message has been compared with the latest configuration version change.
  • the time of updating after updating the second system message, acquiring at least one third indication information from the second system message;
  • each third indication information of the at least one third indication information indicates that the corresponding regular third system message is not updated with respect to the latest configuration version change, determining that there is no need to update the at least one regular class third system message Any system message;
  • the message controls the receiving module 1001 to read the regular third system message.
  • processing module 1002 is specifically configured to:
  • the control receiving module 1001 reads the regular class third system message.
  • processing module 1002 is specifically configured to:
  • the first indication information further includes: at least one fourth indication information, where the fourth indication information corresponds to an activation type third system message, and is used to indicate whether the terminal equipment in the cell needs to update the corresponding activation type third system message.
  • the fourth indication information indicates that the terminal device in the cell needs to update the corresponding activation type third system message, update the corresponding activation type third system message;
  • the fourth indication information indicates that the terminal device in the cell does not need to update the corresponding activation type third system message, it is determined that the corresponding activation type third system message does not need to be updated.
  • the receiving module 1001 is configured to perform a receiving operation of the terminal device 302, and the processing module 1002 is configured to perform a processing operation of the terminal device 302.
  • the receiving module 1001 can be implemented by a receiver, and the processing module 1002 can be implemented by a processor.
  • the terminal device can be used to perform the method provided in Embodiment 10.
  • FIG. 11 is a schematic structural diagram of a second terminal device according to Embodiment 7 of the present application. As shown, the device includes:
  • a receiver 1101 configured to receive a first system message of a cell where the terminal device is located;
  • the processor 1102 is configured to obtain first indication information in the first system message received by the receiver 1101, where the first indication information includes information used to update other system messages except the first system message, and according to the obtained An indication message for updating other system messages other than the first system message;
  • the first system message is sent periodically, and the occupied physical resource location is fixed.
  • the various optional implementations of the receiver 1101 can refer to the receiving module 1001.
  • Various optional implementations of the processor 1102 can refer to the processing module 1002.
  • the terminal device can be used to perform the method provided in Embodiment 10.
  • FIG. 12 is a schematic structural diagram of a first network device according to Embodiment 8 of the present application. As shown, the device includes:
  • the processing module 1201 is configured to determine a first system message, where the first system message includes first indication information, where the first indication information includes information for updating other system messages except the first system message;
  • the sending module 1202 is configured to send, by the processing module 1201, the first system message in the cell;
  • the first system message is sent periodically, and the occupied physical resource location is fixed.
  • the sending module 1202 is further configured to:
  • system messages other than the first system message include: a second system message, at least two third system messages, the at least two third system messages including at least one regular class third system message and at least one activation class third system Message
  • a second system message including scheduling information of at least two third system messages
  • Activating a third-system message including a system message that the terminal device in the cell needs to acquire when the specific function of the cell is activated; the third-system message of the regular class is other than the third-system message of the activation class in the at least two third system messages. Other third system messages.
  • the first indication information sent by the sending module 1202 includes: second indication information
  • the second indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one regular class third system message, in a system message update period, the second system message and the at least one conventional class third system Any one or more system messages in the message are updated and the configuration version changes once.
  • the second system message sent by the sending module 1202 includes at least one third indication information
  • a third indication message corresponds to a regular class third system message for indicating whether the corresponding regular class third system message has been updated with respect to the last configuration version change.
  • the first indication information sent by the sending module 1202 further includes: at least one fourth indication information;
  • a fourth indication information corresponds to an activation type third system message, and is used to indicate whether the terminal equipment in the cell needs to update the corresponding activation type third system message.
  • the processing module 1201 is configured to perform a processing operation of the network device 301
  • the sending module 1202 is configured to perform a sending operation of the network device 301.
  • the processing module 1201 can be implemented by a processor, and the transmitting module 1202 can be implemented by a transmitter.
  • the network device can be used to perform the method provided in Embodiment 11.
  • FIG. 13 is a schematic structural diagram of a second network device according to Embodiment 9 of the present application. As shown, the device includes:
  • the processor 1301 is configured to determine a first system message, where the first system message includes first indication information, where the first indication information includes information for updating other system messages except the first system message;
  • a transmitter 1302 configured to send, by the processor 1301, a first system message in a cell
  • the first system message is sent periodically, and the occupied physical resource location is fixed.
  • processor 1301 may refer to the processing module 1201.
  • transmitter 1302 may refer to the sending module 1202.
  • the network device can be used to perform the method provided in Embodiment 11.
  • FIG. 14 is a flowchart of a method for updating a first system message according to Embodiment 10 of the present application. As shown, the process includes the following steps:
  • the first terminal device receives the first system message of the cell where the cell is located.
  • the first terminal device obtains first indication information from the first system message, where the first indication information includes information used to update other system messages except the first system message.
  • the first terminal device updates, according to the obtained first indication information, other system messages except the first system message.
  • the first system message is sent periodically, and the occupied physical resource location is fixed.
  • the system message other than the first system message includes: a second system message, at least two third system messages, the at least two third system messages including at least one regular class third system message and at least one activation Class third system message;
  • a second system message including scheduling information of at least two third system messages
  • the third system message including the terminal device in the cell when the specific function of the cell is activated
  • the regular class third system message is a third system message other than the activation class third system message in the at least two third system messages.
  • the first indication information includes: second indication information;
  • the second indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one regular class third system message, in a system message update period, the second system message and the at least one conventional class third system Any one or more system messages in the message are updated, and the configuration version changes once;
  • the first terminal device updates, according to the obtained first indication information, other system messages except the first system message, including:
  • the first terminal device updates the second system message
  • the first terminal device determines that the second system message does not need to be updated.
  • the second system message includes at least one third indication information, where the third indication information corresponds to a regular third system message, and is used to indicate a corresponding conventional third system with respect to the latest configuration version change. Whether the message has been updated;
  • the method further includes: the first terminal device acquiring the at least one third indication information from the second system message;
  • the first terminal device updates, according to the obtained first indication information, other system messages except the first system message, and further includes:
  • the first terminal device performs the following operations:
  • each third indication information of the at least one third indication information indicates that the corresponding regular third system message is not updated with respect to the latest configuration version change, determining that there is no need to update the at least one regular class third system message Any system message;
  • the indication is relative to The latest configuration version change, the corresponding regular class third system message has been updated, and for each updated regular class third system message, according to the updated second system message, the scheduling information of the regular class third system message , reading the regular class third system message.
  • the first terminal device updates, according to the obtained first indication information, other system messages except the first system message, and further includes:
  • the first terminal device follows the updated second system message for each regular class third system message.
  • the scheduling information of the regular class third system message reads the regular class third system message.
  • the first indication information further includes: at least one fourth indication information, where the fourth indication information corresponds to an activation type third system message, and is used to indicate whether the terminal equipment in the cell needs to update the corresponding activation class. system information;
  • the first terminal device updates, according to the obtained first indication information, other system messages except the first system message, and further includes:
  • the fourth indication information indicates that the terminal device in the cell needs to update the corresponding activation type third system message
  • the first terminal device updates the corresponding activation type third system message
  • the first terminal device determines that the corresponding activation class third system message does not need to be updated.
  • FIG. 15 is a flowchart of a second method for updating a system message according to Embodiment 11 of the present application. As shown, the process includes the following steps:
  • the network device determines a first system message, where the first system message includes first indication information, where the first indication information includes information for updating other system messages except the first system message.
  • S1502 The network device sends the determined first system message in the cell.
  • the first system message is sent periodically, and the occupied physical resource location is fixed.
  • it also includes:
  • the network device sends other system messages in the cell than the first system message
  • system messages other than the first system message include: a second system message, at least two third system messages, the at least two third system messages including at least one regular class third system message and at least one activation class third system Message
  • a second system message including scheduling information of at least two third system messages
  • Activating a third-system message including a system message that the terminal device in the cell needs to acquire when the specific function of the cell is activated; the third-system message of the regular class is other than the third-system message of the activation class in the at least two third system messages. Other third system messages.
  • the first indication information includes: second indication information;
  • the second indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one regular class third system message, in a system message update period, the second system message and the at least one conventional class third system Any one or more system messages in the message are updated and the configuration version changes once.
  • the second system message includes at least one third indication information
  • a third indication message corresponds to a regular class third system message for indicating whether the corresponding regular class third system message has been updated with respect to the last configuration version change.
  • the first indication information further includes: at least one fourth indication information
  • a fourth indication information corresponds to an activation type third system message, and is used to indicate whether the terminal equipment in the cell needs to update the corresponding activation type third system message.
  • FIG. 16 is a schematic structural diagram of a third terminal device according to Embodiment 12 of the present application. As shown, the device includes:
  • the receiving module 1601 is configured to receive a first system message of a cell where the terminal device is located; the system message of the cell includes: a first system message, a second system message, and at least one third system message; the first system message is periodically sent and occupied The physical resource location is fixed; the second system message includes scheduling information of the at least one third system message; and the at least one third system message includes paging related system information;
  • the processing module 1602 is configured to obtain first indication information in the first system message received by the receiving module 1601, where the first indication information is used to indicate whether a system message related to the paging has been updated; and if the first indication information indicates If the related system message is not updated, the control receiving module 1601 receives the paging message according to the recorded system message related to the paging, and according to the second indication information related to the system message update in the paging message received by the receiving module 1601. Perform system message updates.
  • the second indication information received by the receiving module 1601 includes: third indication information, fourth indication information, and at least one fifth indication information;
  • the third indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • the fourth indication information is used to indicate whether the second system message has been updated with respect to the latest configuration version change
  • a fifth indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • processing module 1602 is specifically configured to:
  • the fourth indication information indicates a change with respect to the latest configuration version, and the second system
  • the second system message is updated; when the fourth indication information indicates that the second system message is not updated with respect to the last configuration version change, it is determined that the second system message does not need to be updated.
  • processing module 1602 is specifically configured to:
  • processing module 1602 is specifically configured to:
  • Each third system message is updated according to scheduling information of at least one third system message in the updated second system message.
  • processing module 1602 is further configured to:
  • the sixth indication information and the at least one seventh indication information in the second system message where the sixth indication information is used to indicate a configuration version of the combination of the second system message currently used by the cell and the at least one third system message, in one During the system message update period, any one or more system messages of the second system message and the at least one third system message are updated, and the configuration version is changed once; and a seventh indication information corresponds to a third system message for indicating relative Whether the corresponding third system message has been updated in the last configuration version change;
  • processing module 1602 is specifically configured to:
  • each updated third system indicated for the at least one seventh indication information Message updating the third system message
  • the configuration version indicated by the sixth indication information is different from the configured version recorded by the terminal device, and There are other different configuration versions in between the two configuration versions, and each system message in the at least one third system message is updated.
  • the receiving module 1601 is configured to perform a receiving operation of the terminal device 302
  • the processing module 1602 is configured to perform a processing operation of the terminal device 302.
  • the receiving module 1601 can be implemented by a receiver, and the processing module 1602 can be implemented by a processor.
  • the terminal device can be used to perform the method provided in Embodiment 16.
  • FIG. 17 is a schematic structural diagram of a fourth terminal device according to Embodiment 13 of the present application. As shown, the device includes:
  • the receiver 1701 is configured to receive a first system message of a cell where the terminal device is located; the system message of the cell includes: a first system message, a second system message, and at least one third system message; the first system message is periodically sent and occupied The physical resource location is fixed; the second system message includes scheduling information of the at least one third system message; and the at least one third system message includes a system message related to the paging;
  • the processor 1702 is configured to obtain first indication information in the first system message received by the receiver 1701, where the first indication information is used to indicate whether a system message related to the paging has been updated; and if the first indication information indicates If the related system message is not updated, the control receiver 1701 receives the paging message according to the recorded system message related to the paging, and according to the second indication information related to the system message update in the paging message received by the receiver 1701. Perform system message updates.
  • receiver 1701 may refer to the receiving module 1601.
  • processor 1702 may refer to the processing module 1602.
  • the terminal device can be used to perform the method provided in Embodiment 16.
  • FIG. 18 is a schematic structural diagram of a third network device according to Embodiment 14 of the present application. As shown, the device includes:
  • the processing module 1801 is configured to determine a first system message, where the first system message includes a first indication Information, the first indication information is used to indicate whether the system message related to the paging has been updated;
  • the sending module 1802 is configured to send the first system message determined by the processing module 1801 in the cell;
  • the processing module 1801 is further configured to: determine a paging message, where the paging message includes second indication information related to system message update;
  • the sending module 1802 is further configured to: send, in the cell, a paging message that is determined by the processing module 1801;
  • the system message of the cell includes: a first system message, a second system message, and at least one third system message; the first system message is periodically sent, and the occupied physical resource location is fixed; the second system message includes at least one third Scheduling information of the system message; at least one third system message includes a system message related to the paging.
  • the second indication information in the paging message sent by the sending module 1802 includes: third indication information, fourth indication information, and at least one fifth indication information;
  • the third indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • the fourth indication information is used to indicate whether the second system message has been updated with respect to the latest configuration version change
  • a fifth indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • the second system message sent by the sending module 1802 includes: sixth indication information and at least one seventh indication information;
  • a sixth indication information configured to indicate a configured version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • a seventh indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • the processing module 1801 is configured to perform processing operations of the network device 301
  • the sending module 1802 is configured to perform a sending operation of the network device 301.
  • the processing module 1801 can be implemented by a processor, and the transmitting module 1802 can be implemented by a transmitter.
  • the network device can be used to perform the method provided in embodiment seventeen.
  • FIG. 19 is a schematic structural diagram of a fourth network device according to Embodiment 15 of the present application. As shown, the device includes:
  • the processor 1901 is configured to determine a first system message, where the first system message includes first indication information, where the first indication information is used to indicate whether a system message related to the paging has been updated;
  • a transmitter 1902 configured to send, by the processor 1901, a first system message in a cell
  • the processor 1901 is further configured to: determine a paging message, where the paging message includes second indication information related to a system message update;
  • the transmitter 1902 is further configured to: send, in the cell, a paging message determined by the processor 1901;
  • the system message of the cell includes: a first system message, a second system message, and at least one third system message; the first system message is periodically sent, and the occupied physical resource location is fixed; the second system message includes at least one third Scheduling information of the system message; at least one third system message includes a system message related to the paging.
  • processor 1901 may refer to the processing module 1801.
  • transmitter 1902 may refer to the transmitting module 1802.
  • the network device can be used to perform the method provided in embodiment seventeen.
  • FIG. 20 is a flowchart of a third system message update method according to Embodiment 16 of the present application. As shown, the process includes the following steps:
  • the first terminal device receives the first system message of the cell in the cell; the system message of the cell includes: a first system message, a second system message, and at least one third system message; the first system message is periodically sent, and the occupied physical The resource location is fixed; the second system message includes at least one third Scheduling information of the system message; at least one third system message includes a system message related to the paging;
  • the first terminal device acquires first indication information in the first system message, where the first indication information is used to indicate whether the system message related to the paging has been updated.
  • the first terminal device receives the paging message according to the recorded system message related to the paging;
  • the first terminal device performs system message update according to the second indication information related to the system message update in the received paging message.
  • the second indication information includes: third indication information, fourth indication information, and at least one fifth indication information;
  • the third indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • the fourth indication information is used to indicate whether the second system message has been updated with respect to the latest configuration version change
  • a fifth indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • the first terminal device performs system message update according to the first indication information related to the system message update in the received paging message, including:
  • the first terminal device updates the second system message when the fourth indication information indicates that the second system message has been updated with respect to the latest configuration version change
  • the first terminal device determines that the second system message does not need to be updated.
  • the first terminal device performs system message update according to the first indication information related to the system message update in the received paging message, and further includes:
  • the first terminal device determines that the at least one third system message does not need to be updated. Any system message;
  • the first terminal device performs system message update according to the first indication information related to the system message update in the received paging message, including:
  • the first terminal device updates the second system message
  • the first terminal device updates each third system message according to the scheduling information of the at least one third system message in the updated second system message.
  • it also includes:
  • the first terminal device updates the second system message
  • a sixth indication information configured to indicate a configured version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • a seventh indication information corresponds to a third system message, configured to indicate whether the corresponding third system message has been updated with respect to the latest configuration version change;
  • the first terminal device performs system message update according to the sixth indication information and the at least one seventh indication information.
  • the first terminal device performs system message update according to the sixth indication information and the at least one seventh indication information, including:
  • the first terminal device indicates each of the at least one seventh indication information.
  • the updated third system message updates the third system message
  • the first terminal device is configured for each of the at least one third system message. System messages are updated.
  • FIG. 21 is a flowchart of a fourth system message update method according to Embodiment 17 of the present application. As shown, the process includes the following steps:
  • the network device determines a first system message, where the first system message includes first indication information, where the first indication information is used to indicate whether a system message related to the paging has been updated.
  • S2102 The network device sends the determined first system message in the cell.
  • S2103 The network device determines a paging message, where the paging message includes second indication information related to system message update.
  • S2104 The network device sends the determined paging message in the cell.
  • the system message of the cell includes: a first system message, a second system message, and at least one third system message; the first system message is periodically sent, and the occupied physical resource location is fixed; the second system message includes at least one third Scheduling information of the system message; at least one third system message includes a system message related to the paging.
  • step S2101 and step S2102 and the two steps of step S2103 and step S2104, the order between them is not agreed, the first two steps can be executed first, and then the last two steps are executed. In the steps, you can also perform the last two steps before performing the first two steps.
  • the second indication information includes: third indication information, fourth indication information, and at least one fifth indication information;
  • the third indication information is used to indicate a configuration version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • the fourth indication information is used to indicate whether the second system message has been updated with respect to the latest configuration version change
  • a fifth indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • the second system message includes: sixth indication information and at least one seventh indication information;
  • a sixth indication information configured to indicate a configured version of a combination of the second system message currently used by the cell and the at least one third system message, in a system message update period, in the second system message, and in the at least one third system message Any one or more system message updates, the configuration version changes once;
  • a seventh indication information corresponds to a third system message for indicating whether the corresponding third system message has been updated with respect to the last configuration version change.
  • FIG. 22 is a schematic structural diagram of a fifth terminal device according to Embodiment 18 of the present application. As shown, the device includes:
  • the receiving module 2201 is configured to receive a paging message of a cell where the terminal device is located, where the paging message includes system message update indication information.
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell where the terminal device is located needs to update the system message;
  • the processing module 2202 is configured to perform system message update according to the system message update indication information received by the receiving module 2201.
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the terminal device refers to the operation of the terminal device 302 in the fourth embodiment, where the receiving module 2201 is configured to perform a receiving operation of the terminal device 302, and the processing module 2202 is configured to perform a processing operation of the terminal device 302.
  • the receiving module 2201 can be implemented by a receiver, and the processing module 2202 can be implemented by a processor.
  • the terminal device can be used to perform the method provided in Embodiment 22.
  • FIG. 23 is a schematic structural diagram of a sixth terminal device according to Embodiment 19 of the present application. As shown, the device includes:
  • the receiver 2301 is configured to receive a paging message of a cell where the terminal device is located, where the paging message includes system message update indication information.
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell where the terminal device is located needs to update the system message;
  • the processor 2302 is configured to perform system message update according to the system message update indication information received by the receiver 2301.
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • receiver 2301 may refer to the receiving module 2201.
  • processor 2302 may refer to the processing module 2202.
  • the terminal device can be used to perform the method provided in Embodiment 22.
  • FIG. 24 is a schematic structural diagram of a fifth network device according to Embodiment 20 of the present application. As shown, the device includes:
  • the processing module 2401 is configured to determine a paging message, where the paging message includes system message update indication information;
  • the sending module 2402 is configured to send, in the cell, a paging message that is determined by the processing module 2401;
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell needs to update the system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • the processing module 2401 is configured to perform processing operations of the network device 301
  • the sending module 2402 is configured to perform a sending operation of the network device 301.
  • the network device can be used to perform the method provided by embodiment XXIII.
  • FIG. 25 is a schematic structural diagram of a sixth network device according to Embodiment 21 of the present application. As shown, the device includes:
  • the processor 2501 is configured to determine a paging message, where the paging message includes system message update indication information;
  • a transmitter 2502 configured to send, in a cell, a paging message determined by the processor 2501;
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell needs to update the system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • processor 2501 may refer to the processing module 2401.
  • transmitter 2502 may refer to the sending module 2402.
  • the network device can be used to perform the method provided by embodiment XXIII.
  • FIG. 26 is a flowchart of a fifth system message update method according to Embodiment 22 of the present application. As shown, the process includes the following steps:
  • the first terminal device receives a paging message of the cell in the cell, where the paging message includes system message update indication information.
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell where the first terminal device is located needs to update the system message ;
  • S2602 The first terminal device performs system message update according to the system message update indication information.
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • FIG. 27 is a flowchart of a sixth system message update method according to Embodiment 23 of the present application. As shown, the process includes the following steps:
  • the network device determines a paging message, where the paging message includes system message update indication information.
  • S2702 The network device sends a paging message in the cell.
  • the system message update indication information includes: indicating, for each of the first system message, the second system message, and the at least one third system message, whether the terminal device in the cell needs to update the system message;
  • the first system message is periodically sent, and the occupied physical resource location is fixed.
  • the second system message includes scheduling information of the at least one third system message.
  • FIG. 28 is a schematic structural diagram of a seventh terminal device according to Embodiment 24 of the present application. As shown, the device includes:
  • the processing module 2801 is configured to determine that the terminal device needs to receive the at least one system message, and for each system message in the at least one system message, determine that the network device sends the system message Start position, send period, and number of repetitions;
  • the receiving module 2802 is configured to receive, according to each system message of the at least one system message, the starting location, the sending period, and the number of repetitions of the system message sent by the network device determined by the processing module 2801, and receive the system message;
  • the time interval between two transmissions of a system message includes one or more other system messages sent by the network device.
  • the processing module 2801 is configured to perform a processing operation of the terminal device 302
  • the receiving module 2802 is configured to perform a receiving operation of the terminal device 302.
  • the processing module 2801 can be implemented by a processor, and the receiving module 2802 can be implemented by a receiver.
  • the terminal device can be used to perform the method provided in Embodiment 28.
  • FIG. 29 is a schematic structural diagram of an eighth terminal device according to Embodiment 25 of the present application. As shown, the device includes:
  • the processor 2901 is configured to determine that the terminal device needs to receive the at least one system message, and determine, for each system message in the at least one system message, a starting position, a sending period, and a repetition quantity of the network device sending the system message;
  • the receiver 2902 is configured to receive, according to each system message in the at least one system message, a system message that is sent by the network device that is determined by the processor 2901, the start position, the sending period, and the number of repetitions of the system message.
  • the time interval between two transmissions of a system message includes one or more other system messages sent by the network device.
  • processor 2901 may refer to the processing module 2801.
  • receiver 2902 may refer to the receiving module 2802.
  • the terminal device can be used to perform the method provided in Embodiment 28.
  • FIG. 30 is a schematic structural diagram of a seventh network device according to Embodiment 26 of the present application. As shown, the device includes:
  • the processing module 3001 is configured to determine that the network device needs to send at least one system message, and determine, for each system message in the determined at least one system message, a starting position, a sending period, and a repetition quantity of the sending of the system message;
  • the sending module 3002 is configured to send, according to the starting position, the sending period, and the number of repetitions of the sending of the system message, the system message, for each system message in the at least one system message determined by the processing module 3001;
  • the time interval between two transmissions of a system message includes one or more other system messages sent.
  • the processing module 3001 is configured to perform processing operations of the network device 301
  • the sending module 3002 is configured to perform a sending operation of the network device 301.
  • the processing module 3001 can be implemented by a processor, and the transmitting module 3002 can be implemented by a transmitter.
  • the network device can be used to perform the method provided in embodiment twenty-nine.
  • FIG. 31 is a schematic structural diagram of an eighth network device according to Embodiment 27 of the present application. As shown, the device includes:
  • the transmitter 3102 is configured to send, according to each of the at least one system message determined by the processor 3101, the system message according to determining a start position, a sending period, and a repetition quantity of the sending of the system message;
  • the time interval between two transmissions of a system message includes one or more other system messages sent.
  • processor 3001 may refer to the processing module 3001.
  • transmitter 3002 may refer to the sending module 3002.
  • the network device can be used to perform the method provided in embodiment twenty-nine.
  • FIG. 32 is a flowchart of a seventh system message transmission method according to Embodiment 28 of the present application. As shown, the process includes the following steps:
  • S3201 The first terminal device determines that at least one system message needs to be received.
  • the first terminal device determines a starting position, a sending period, and a repetition quantity of the network device sending the system message.
  • S3203 For each system message in the at least one system message, the first terminal device receives the system message according to the starting position, the sending period, and the number of repetitions of the system message sent by the determined network device.
  • the time interval between two transmissions of a system message includes one or more other system messages sent by the network device.
  • FIG. 33 is a flowchart of an eighth system message transmission method according to Embodiment 29 of the present application. As shown, the process includes the following steps:
  • the network device determines that at least one system message needs to be sent
  • the network device For each system message in the at least one system message, the network device determines a starting position, a sending period, and a repetition quantity of the sending of the system message;
  • the network device For each system message in the at least one system message, the network device sends the system message according to determining a starting position, a sending period, and a repetition quantity of the sending of the system message.
  • the time interval between two transmissions of a system message includes one or more other system messages sent.
  • the present application provides a solution for updating a system message, in which the network device carries the indication information in the first system message that is sent, and after receiving the first system message, the terminal device according to the indication Information updates other system messages other than the first system message; The first system message is sent periodically, and the occupied physical resource location is fixed.
  • the indication information is sent in the first system message, instead of being sent in the paging message, and the terminal device may update other system messages except the first system message according to the indication information, thereby implementing Update of all system messages.
  • the DRX period of the terminal device is prevented from being greater than the system message change period, and the terminal device may not receive the paging message for indicating the system message change, so the system message cannot be implemented. The problem with the update.
  • the present application provides another solution for updating a system message, where the system message that the network device is transmitting includes: a first system message, a second system message, and at least one third system message, where the first The system message is periodically sent, and the occupied physical resource location is fixed; the second system message includes scheduling information of the at least one third system message; the at least one third system message includes a system message related to the paging; wherein the network device is When the first system message is sent, the indication information is used to indicate whether the system message related to the paging in the third system message has been updated.
  • the terminal device receives the paging message according to the recorded system message related to the paging, and according to the received paging message, related to the system message update. Indicates information for system message updates.
  • the terminal device since the network device indicates, in the first system message periodically sent, whether the system message related to the paging has been updated, if there is no update, the terminal device can still follow the recorded system information related to the paging.
  • the paging message is normally received, and then the indication information related to the system message update is obtained from the paging message, and the system message is updated according to the indication information obtained from the paging message.
  • the terminal device can correctly receive the paging message according to the recorded system message related to the paging, thereby being successful.
  • the indication information related to the system message update is obtained from the paging message, so that the system message can be successfully updated.
  • the present application provides another solution for updating a system message, where the solution is for a scenario in which a paging message can be normally received, for example, the system message update period is an integer multiple of a DRX cycle.
  • the system message update indication carried in the paging message
  • the information indicates, for the first system message, the second system message, the at least one third system message, whether the first terminal device needs to update the system message, and the terminal device performs system message update according to the system message update indication information; wherein, the first system The message is sent periodically, and the occupied physical resource location is fixed; the second system message includes at least one third system message and scheduling information.
  • the indication information is used to indicate whether the corresponding system message needs to be updated, and the terminal device may determine how to perform system message update according to the specific situation of each indication information.
  • the indication information of the second system message indicates that the second system message does not need to be updated, and the terminal device only needs to update according to the recorded second system message when performing the at least one third system message update, and does not need to re-read the The second system message improves the efficiency of the terminal device updating the system message.
  • the application provides a system message sending scheme, when a network device sends a system message, another one or more system messages are sent within a time interval between two transmissions of the entire system message.
  • each system message can only be sent in one SI window (SI-window), which can be sent multiple times in the system message window.
  • SI-window The SI window of one system message is adjacent to the SI window of another system message, but one Only one system message can be sent in the SI window.
  • the terminal device After receiving the system message in an SI window, the terminal device must wait until the next SI window to receive a system message.
  • the network device sends other system messages during the two repeated transmissions of a system message, so that the terminal device does not need to wait for the system message window to arrive after receiving a system message. Receiving other system messages improves the efficiency of system message updates.
  • embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or a combination of software and hardware. Moreover, the invention can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) including computer usable program code.
  • computer-usable storage media including but not limited to disk storage, CD-ROM, optical storage, etc.
  • the present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (system), and computer program products according to embodiments of the invention. It should be understood that the flow chart can be implemented by computer program instructions And/or a combination of the processes and/or blocks in the block diagrams, and the flowcharts and/or blocks in the flowcharts. These computer program instructions can be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing device to produce a machine for the execution of instructions for execution by a processor of a computer or other programmable data processing device. Means for implementing the functions specified in one or more of the flow or in a block or blocks of the flow chart.
  • the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device.
  • the apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
  • These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device.
  • the instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.

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Abstract

本申请涉及无线通信技术领域,尤其涉及一种系统消息传输装置、方法和系统,用以解决长不连续接收DRX的终端设备更新系统消息的问题。本申请提供一种终端设备,包括:接收模块,用于接收第一系统消息;处理模块,用于获取所述第一系统消息中的第一指示信息,并根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;所述第一系统消息周期性发送,且占用的物理资源位置固定。第一指示信息是在第一系统消息中发送的,而不是在寻呼消息中发送,由于第一系统消息是周期性发送,且占用的物理资源位置固定,因此终端设备可根据该指示信息对除了第一系统消息之外的其他系统消息进行更新,从而实现对所有系统消息的更新。

Description

系统消息传输装置、方法和系统 技术领域
本申请涉及无线通信技术领域,尤其涉及一种系统消息传输装置、方法和系统。
背景技术
物联网(Internet of things,IOT)实现了物与物之间的通信。与传统的人与人之间通信相比,物联网对终端设备的能耗提出了更高的要求,需要尽量降低终端设备能耗,从而保证设备超长的待机时间,降低更换电池的人力成本。
考虑到物联网通信具有业务低速率、周期长的特点,对于处于空闲态的终端设备配置较长的非连续接收(discontinuous reception,DRX)周期,以达节电、延长终端设备待机时间的目的。
物联网可基于蜂窝网络实现,比如:基于长期演进(Long Term Evolution,LTE)系统实现物联网通信。LTE系统中通常通过寻呼消息通知终端设备系统消息(System Information)变更,即在一个系统消息变更周期内,发送寻呼消息通知终端设备:在下一个系统消息变更周期系统消息会变更,终端设备在该下一个系统消息变更周期读取变更后的系统消息。
通常,如图1所示,LTE系统中系统消息变更周期为寻呼消息发送的周期,即寻呼周期的整数倍,这样当系统消息变更时,处于无线资源控制空闲(Radio Resource Control IDLE,RRC_IDLE)状态(以下简称“空闲态”)的终端设备在系统消息变更周期内只要读取到一个寻呼消息,即可获知系统消息即将变更,通过在下一个系统消息变更周期读取系统消息,完成系统消息的更新,其中,终端设备在系统消息变更周期中成功完成系统消息更新后,就不必再读取该周期中后续发送的系统消息。
通常,LTE系统中,寻呼周期与DRX周期相等。当基于LTE系统实现物 联网通信时,由于长DRX周期的使用,可能导致寻呼周期大于系统消息变更周期,如图2所示,此时处于空闲态的终端设备可能无法收到用于指示系统消息变更的寻呼消息,因此无法实现系统消息的更新。
因此,在诸如物联网通信等无线通信过程中,当终端设备的DRX周期大于系统消息变更周期时,可能导致终端设备无法正常更新系统消息。
发明内容
有鉴于此,本申请提供一种系统消息传输装置、方法和系统,用于解决终端设备的DRX周期大于系统消息变更周期,导致终端设备可能无法正常更新系统消息的问题。
第一方面,本申请提供一种终端设备,包括:
接收模块,用于接收所述终端设备所在小区的第一系统消息;
处理模块,用于获取所述接收模块接收的所述第一系统消息中的第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;并根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
第二方面,本申请提供一种网络设备,包括:
处理模块,用于确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
发送模块,用于将所述处理模块确定的所述第一系统消息在小区内发送;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
第三方面,本申请提供一种更新系统消息的方法,包括:
第一终端设备接收所在小区的第一系统消息;
所述第一终端设备从所述第一系统消息中获取第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
所述第一终端设备根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
第四方面,本申请提供一种更新系统消息的方法,包括:
网络设备确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
所述网络设备将确定的所述第一系统消息在小区内发送;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
第五方面,本申请提供一种无线通信系统,包括:
网络设备,用于在小区内发送所述第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
终端设备,用于接收所述网络设备发送的所述第一系统消息,从所述第一系统消息中获取第一指示信息,根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
上述任一方面中,第一指示信息是在第一系统消息中发送的,而不是在寻呼消息中发送,由于第一系统消息是周期性发送,且占用的物理资源位置固定,因此终端设备可根据该指示信息对除了第一系统消息之外的其他系统消息进行更新,从而实现对所有系统消息的更新。与目前通过寻呼消息获知系统消息变更的方案相比,避免了终端设备的DRX周期大于系统消息变更周期,终端设备可能无法收到用于指示系统消息变更的寻呼消息,进而无法实现系统消息的更新的问题。
结合上述任一方面,在第一种可能的实现方式中,除了所述第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,所述至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类 第三系统消息;
所述第二系统消息,包括所述至少两个第三系统消息的调度信息;
所述激活类第三系统消息,包括所述小区的特定功能激活时所述小区内的终端设备需要获取的系统消息;所述常规类第三系统消息为所述至少两个第三系统消息中除了激活类第三系统消息之外的其他所述第三系统消息。
其中,将第三系统消息进行进一步细分,分为激活类第三系统消息和常规类第三系统消息,因此,当更新这些系统消息时,可采用更为灵活的指示方式,终端设备进行系统消息更新的方法更灵活。
结合上述任一方面的第一种可能的实现方式,在第二种可能的实现方式中,
所述第一指示信息包括:第二指示信息,所述第二指示信息用于指示所述小区当前使用的所述第二系统消息和所述至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个常规类第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次时,
若所述第二指示信息指示的所述配置版本与终端设备已记录的所述配置版本不同,则终端设备更新所述第二系统消息;
若所述第二指示信息指示的所述配置版本与终端设备已记录的所述配置版本相同,则终端设备确定无需更新所述第二系统消息。
其中,终端设备可根据第二指示信息即可判断是否需要读取系统消息,能够降低能耗,节省处理能力。
结合上述任一方面的第二种可能的实现方式,在第三种可能的实现方式中,所述第二系统消息中包括至少一个第三指示信息,一个所述第三指示信息对应于一个所述常规类第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息是否已更新时,在更新所述第二系统消息之后,从所述第二系统消息中获取所述至少一个第三指示信息;
若所述第二指示信息指示的所述配置版本与所述终端设备已记录的所述 配置版本不同,但两个所述配置版本中间不存在其他不同的所述配置版本,则执行如下操作:
若所述至少一个第三指示信息中每一个所述第三指示信息均指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息并未更新,则确定无需更新所述至少一个常规类第三系统消息中的任何一个系统消息;
若所述至少一个第三指示信息中存在一个或多个所述第三指示信息,指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息已更新,则针对每一个已更新的所述常规类第三系统消息,按照更新后的所述第二系统消息中该常规类第三系统消息的调度信息,控制所述接收模块读取该常规类第三系统消息。
其中,针对每一个常规类第三系统消息进行,指示该消息是否更新,一方面,终端设备可仅针对更新了的常规类第三系统消息进行系统消息更新,降低能耗,节省处理能力;另一方面,终端设备也可根据各个第三指示信息在确定所有常规类第三系统消息未更新时,确定无需更新常规类第三系统消息,也能够降低能耗,节省处理能力。
结合上述任一方面的第三种可能的实现方式,在第四种可能的实现方式中,若所述第二指示信息指示的所述配置版本与终端设备已记录的所述配置版本中间存在其他不同的所述配置版本,则
针对每一个所述常规类第三系统消息,按照更新后的所述第二系统消息中该常规类第三系统消息的调度信息,控制所述接收模块读取该常规类第三系统消息。
其中,若所述第二指示信息指示的所述配置版本与终端设备已记录的所述配置版本中间存在其他不同的所述配置版本,则仅根据第三指示信息无法正确判断对应的常规类第三系统消息是否已更新,此时,终端设备需要更新所有的常规类第三系统消息。
结合上述任一方面的第一种至第四种可能的实现方式中的任一种,在第五种可能的实现方式中,所述第一指示信息还包括:至少一个第四指示信息, 一个所述第四指示信息对应于一个所述激活类第三系统消息,用于指示所述小区内的终端设备是否需要更新对应的所述激活类第三系统消息时,
若所述第四指示信息指示所述小区内的终端设备需要更新对应的所述激活类第三系统消息,则终端设备更新对应的所述激活类第三系统消息;
若所述第四指示信息指示所述小区内的终端设备无需更新对应的所述激活类第三系统消息,则终端设备确定无需更新对应的所述激活类第三系统消息。
其中,针对每一个激活类第三系统消息,指示该系统消息是否需要更新,并且由于激活类第三系统消息是所述小区的特定功能激活时所述小区内的终端设备需要获取的系统消息,因此,在指示激活类第三系统消息是否需要更新时,是通知终端设备所述小区的特定功能已激活,不同于常规类第三系统消息,终端设备无需再结合其他指示信息判断是否需要进行系统消息更新,当第四指示信息指示对应的激活类第三系统消息需要更新时,则终端设备确定需要更新该激活类第三系统消息,当第四指示信息指示对应的激活类第三系统消息无需更新时,则终端设备确定无需更新该激活类第三系统消息,与前述的常规类第三系统消息的更新机制不同。
第六方面,本申请提供一种终端设备,包括:
接收模块,用于接收所述终端设备所在小区的第一系统消息;所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息;
处理模块,用于获取所述接收模块接收的所述第一系统消息中的第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;以及若所述第一指示信息指示所述与寻呼有关的系统消息未更新,则控制所述接收模块按照已记录的所述与寻呼有关的系统消息接收寻呼消息,并根据所述接收模块接收的所述寻呼消息中与系统消息更新有关的第二指示信息进 行系统消息更新。
第七方面,本申请提供一种网络设备,包括:
处理模块,用于确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;
发送模块,用于将所述处理模块确定的所述第一系统消息在小区内发送;
所述处理模块还用于:确定寻呼消息,所述寻呼消息中包括与系统消息更新有关的第二指示信息;
所述发送模块还用于:在所述小区内发送所述处理模块确定的所述寻呼消息;
其中,所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息。
第八方面,本申请提供一种更新系统消息的方法,包括:
第一终端设备接收所在小区的第一系统消息;所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息;
所述第一终端设备获取所述第一系统消息中的第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;
若所述第一指示信息指示所述与寻呼有关的系统消息未更新,则
所述第一终端设备按照已记录的所述与寻呼有关的系统消息,接收寻呼消息;
所述第一终端设备根据接收的所述寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
第九方面,本申请提供一种更新系统消息的方法,包括:
网络设备确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;
所述网络设备将确定的所述第一系统消息在小区内发送;
所述网络设备确定寻呼消息,所述寻呼消息中包括与系统消息更新有关的第二指示信息;
所述网络设备在所述小区内发送确定的所述寻呼消息;
其中,所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息。
第十方面,本申请提供一种无线通信系统,包括:
网络设备,用于在小区内发送第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;以及在所述小区内发送寻呼消息,所述寻呼消息中包括与系统消息更新有关的第二指示信息;
终端设备,用于接收所述网络设备在所述小区内发送的第一系统消息,获取所述第一系统消息中的所述第一指示信息,若所述第一指示信息指示所述与寻呼有关的系统消息未更新,则按照已记录的所述与寻呼有关的系统消息,接收寻呼消息,并根据接收的所述寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新;
所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息。
上述第六方面至第十方面的任一方面中,由于网络设备在周期性发送的第一系统消息中指示与寻呼有关的系统消息是否已更新,如果没有更新,则终端设备仍可以按照已记录的与寻呼有关的系统消息来正常接收寻呼消息, 进而从寻呼消息中获得与系统消息更新有关的指示信息,并按照从寻呼消息中获得的该指示信息更新系统消息。这样,即使DRX周期大于系统消息更新周期,由于已知与寻呼消息有关的系统消息未更新,则终端设备仍能按照已记录的与寻呼有关的系统消息正确接收寻呼消息,从而能够成功地从寻呼消息中获得与系统消息更新有关的指示信息,进而能够成功更新系统消息。
结合上述第六方面至第十方面的任一方面,所述第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
所述第三指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
所述第四指示信息,用于指示相对于最近一次所述配置版本变化,所述第二系统消息是否已更新;
一个所述第五指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
其中,通过第三指示信息,网络设备可通知终端设备第二系统消息和第三系统消息在多个系统消息更新周期内的变化情况,终端设备可结合第三指示信息和第五指示信息,判断是否需要更新第三系统消息,以及采用何种方式更新第三指示信息;
通过第四指示信息,网络设备可通知终端设备包括第三系统消息的调度信息的第二系统消息是否更新,这样终端设备可结合第三指示信息和第四指示信息,确定是否需要更新第二系统消息,以及是根据已记录的第二系统消息还是根据更新后的第二系统消息,进行第三系统消息的更新。
结合上述第六方面至第十方面的任一方面的第一种可能的实现方式,在第二种可能的实现方式中,若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本相同,则确定无需进行系统消息更新;
若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述 配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则在所述第四指示信息指示相对于最近一次所述配置版本变化,所述第二系统消息已更新时,更新所述第二系统消息;在所述第四指示信息指示相对于最近一次所述配置版本变化,所述第二系统消息未更新时,确定无需更新所述第二系统消息。
结合上述第六方面至第十方面的任一方面的第二种可能的实现方式,在第三种可能的实现方式中,
若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则:
在所述至少一个第五指示信息中每一个所述第三指示信息均指示相对于最近一次所述配置版本变化,对应的所述第三系统消息并未更新时,终端设备确定无需更新所述至少一个第三系统消息中的任何一个系统消息;
在所述至少一个第五指示信息中存在一个或多个所述第五指示信息,指示相对于最近一次所述配置版本变化,对应的所述第三系统消息已更新时,终端设备针对每一个已更新的所述第三系统消息进行更新。
结合上述第六方面至第十方面的任一方面的第一种可能的实现方式,在第四种可能的实现方式中,
若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,且两个所述配置版本中间没有其他不同的所述配置版本,则:
终端设备更新所述第二系统消息;以及按照更新后的所述第二系统消息中的所述至少一个第三系统消息的调度信息,更新每一个所述第三系统消息。
结合上述第六方面至第十方面的任一方面,在第五种可能的实现方式中,若所述第一指示信息指示所述与寻呼有关的系统消息已更新,则更新所述第二系统消息;
获取所述第二系统消息中的第六指示信息和至少一个第七指示信息;所述第六指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述 第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;一个所述第七指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新;
根据所述第六指示信息和所述至少一个第七指示信息进行系统消息更新。
结合上述第六方面至第十方面的任一方面的第五种可能的实现方式,在第六种可能的实现方式中,
若所述第六指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则针对所述至少一个第七指示信息指示的每一个已更新的所述第三系统消息,对该第三系统消息进行更新;
若所述第六指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,且两个所述配置版本中间存在其他不同的所述配置版本,则针对所述至少一个第三系统消息中的每个系统消息进行更新。
其中,当与寻呼有关的系统消息发生变更时,终端设备首先更新第二系统消息,并根据第二系统消息中的第六指示信息和第七指示信息,对第三系统消息进行更新。
第十一方面,本申请提供一种终端设备,包括:
接收模块,用于接收所述终端设备所在小区的寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述终端设备所在小区内的终端设备是否需要更新该系统消息;
处理模块,用于根据所述接收模块接收的所述系统消息更新指示信息进行系统消息更新;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;
所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
第十二方面,本申请提供一种网络设备,包括:
处理模块,用于确定寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
发送模块,用于在小区内发送所述处理模块确定的所述寻呼消息;
所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述小区内的终端设备是否需要更新该系统消息;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
第十三方面,本申请提供一种更新系统消息的方法,包括:
第一终端设备接收所在小区的寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述第一终端设备所在小区内的终端设备是否需要更新该系统消息;
所述第一终端设备根据所述系统消息更新指示信息进行系统消息更新;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;
所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
第十四方面,本申请提供一种更新系统消息的方法,包括:
网络设备确定寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
所述网络设备在小区内发送所述寻呼消息;
所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述小区内的终端设备是否需要更新该系统消息;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
第十五方面,本申请提供一种无线通信系统,包括:
网络设备,用于在小区内发送所述寻呼消息,所述寻呼消息中包括系统消息更新指示信息;所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述小区内的终端设备是否需要更新该系统消息;
第一终端设备,用于接收所述我在所述小区内发送的所述寻呼消息,并根据所述系统消息更新指示信息进行系统消息更新;
其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
在上述第十一方面至第十五方面的任一方面中,通过在寻呼消息携带针对每一个系统消息的指示信息,该指示信息用于指示对应的系统消息是否需要更新,终端设备可根据各个指示信息的具体情况,确定如何进行系统消息更新。比如:第二系统消息的指示信息指示第二系统消息无需更新,则终端设备在进行至少一个第三系统消息更新时,仅需根据已记录的第二系统消息进行更新,无需再重新读取第二系统消息,提高了终端设备更新系统消息的效率。
第十六方面,本申请提供一种终端设备,包括:
处理模块,用于确定所述终端设备需要接收至少一个系统消息,并对于所述至少一个系统消息中的每一个系统消息,确定网络设备发送该系统消息的起始位置、发送周期和重复次数;
接收模块,用于对于所述至少一个系统消息中的每一个系统消息,按照所述处理模块确定的所述网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括所述网络设备发送的其他一个或多个系统消息。
第十七方面,本申请提供一种网络设备,包括:
处理模块,用于确定所述网络设备需要发送至少一个系统消息,并且对 于确定的所述至少一个系统消息中的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数;
发送模块,用于针对所述处理模块确定的所述至少一个系统消息中的每一个系统消息,按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
第十八方面,本申请提供一种系统消息的接收方法,包括:
第一终端设备确定需要接收至少一个系统消息;
对于所述至少一个系统消息中的每一个系统消息,所述第一终端设备确定网络设备发送该系统消息的起始位置、发送周期和重复次数;
对于所述至少一个系统消息中的每一个系统消息,所述第一终端设备按照确定的所述网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括所述网络设备发送的其他一个或多个系统消息。
第十九方面,本申请提供一种系统消息的发送方法,包括:
网络设备确定需要发送至少一个系统消息;
对于所述至少一个系统消息中的每一个系统消息,所述网络设备确定该系统消息的发送的起始位置、发送周期和重复次数;
对于所述至少一个系统消息中的每一个系统消息,所述网络设备按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
第二十方面,本申请提供一种无线通信系统,包括:
网络设备,用于针对要发送的至少一个系统消息中的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数,并按照确定该系 统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
终端设备,用于针对要接收的所述网络设备发送的至少一个系统消息中的每一个系统消息,确定所述网络设备发送该系统消息的起始位置、发送周期和重复次数,并按照确定的所述网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括所述网络设备发送的其他一个或多个系统消息。
在上述第十六方面至第二十方面中的任一方面中,由于在一个系统消息的两次重复发送过程中,网络设备还发送其他系统消息,这样覆盖较好的终端设备不用等待一个系统消息的所有重复都发完,就可以接收下一个系统消息,当所有需要更新的系统消息更新完毕,可以不用再接收后面重复发送的系统消息,进入休眠。可以提高覆盖较好终端更新系统消息的效率,减少此类终端设备因为收听不必要的重复的系统消息产生的能耗。
附图说明
图1为LTE系统中终端设备根据寻呼消息更新系统消息的过程示意图;
图2为长DRX的终端设备无法正常更新系统消息的示意图;
图3为本申请实施例一提供的无线通信系统的结构示意图;
图4为本申请实施例一提供的无线通信系统可应用的CIoT系统的结构示意图;
图5为本申请实施例二提供的第一种系统消息更新方案的流程图;
图6为本申请实施例二的可选方案三的一个流程图;
图7为本申请实施例三提供的第二种系统消息更新方案的流程图;
图8为本申请实施例四提供的第三种系统消息更新方案的流程图;
图9A为本申请实施例五提供的系统消息传输方案的流程图;
图9B为本申请实施例五中一种系统消息传输方式的示意图;
图9C为本申请实施例五中另一种系统消息传输方式示意图;
图10为本申请实施例六提供的一种终端设备的结构示意图;
图11为本申请实施例七提供的二种终端设备的结构示意图;
图12为本申请实施例八提供的一种网络设备的结构示意图;
图13为本申请实施例九提供的二种网络设备的结构示意图;
图14为本申请实施例十提供的一种系统消息更新方法的流程图;
图15为本申请实施例十一提供的二种系统消息更新方法的流程图;
图16为本申请实施例十二提供的三种终端设备的结构示意图;
图17为本申请实施例十三提供的四种终端设备的结构示意图;
图18为本申请实施例十四提供的三种网络设备的结构示意图;
图19为本申请实施例十五提供的四种网络设备的结构示意图;
图20为本申请实施例十六提供的三种系统消息更新方法的流程图;
图21为本申请实施例十七提供的四种系统消息更新方法的流程图;
图22为本申请实施例十八提供的五种终端设备的结构示意图;
图23为本申请实施例十九提供的六种终端设备的结构示意图;
图24为本申请实施例二十提供的五种网络设备的结构示意图;
图25为本申请实施例二十一提供的六种网络设备的结构示意图;
图26为本申请实施例二十二提供的五种系统消息更新方法的流程图;
图27为本申请实施例二十三提供的六种系统消息更新方法的流程图;
图28为本申请实施例二十四提供的七种终端设备的结构示意图;
图29为本申请实施例二十五提供的八种终端设备的结构示意图;
图30为本申请实施例二十六提供的七种网络设备的结构示意图;
图31为本申请实施例二十七提供的八种网络设备的结构示意图;
图32为本申请实施例二十八提供的七种系统消息传输方法的流程图;
图33为本申请实施例二十九提供的八种系统消息传输方法的流程图。
具体实施方式
为了更好地理解本申请的上述目的、方案和优势,下文提供了详细描述。 该详细描述通过使用框图、流程图等附图和/或示例,阐明了装置和/或方法的各种实施方式。在这些框图、流程图和/或示例中,包含一个或多个功能和/或操作。本领域技术人员将理解到:这些框图、流程图或示例内的各个功能和/或操作,能够通过各种各样的硬件、软件、固件单独或共同实施,或者通过硬件、软件和固件的任意组合实施。
一方面,本申请提供一种更新系统消息的方案,该方案中,网络设备在发送的第一系统消息中携带指示信息,终端设备在收到该第一系统消息后,根据该指示信息对除了第一系统消息之外的其他系统消息进行更新;其中,第一系统消息周期性发送,且占用的物理资源位置固定。
该方案中,指示信息是在第一系统消息中发送的,而不是在寻呼消息中发送,终端设备可根据该指示信息对除了第一系统消息之外的其他系统消息进行更新,从而实现对所有系统消息的更新。与目前通过寻呼消息获知系统消息变更的方案相比,避免了终端设备的DRX周期大于系统消息变更周期,终端设备可能无法收到用于指示系统消息变更的寻呼消息,因此无法实现系统消息的更新的问题。
另一方面,本申请提供另一种更新系统消息的方案,该方案中,网络设备在发送的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息,其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息;其中,网络设备在发送第一系统消息时,携带指示信息,该指示信息用于指示第三系统消息中与寻呼有关的系统消息是否已更新。若指示信息指示与寻呼有关的系统消息未更新,则终端设备按照已记录的所述与寻呼有关的系统消息,接收寻呼消息,并根据接收的寻呼消息中与系统消息更新有关的指示信息进行系统消息更新。
该方案中,由于网络设备在周期性发送的第一系统消息中指示与寻呼有关的系统消息是否已更新,如果没有更新,则终端设备仍可以按照已记录的与寻呼有关的系统消息来正常接收寻呼消息,进而从寻呼消息中获得与系统 消息更新有关的指示信息,并按照从寻呼消息中获得的该指示信息更新系统消息。这样,即使DRX周期大于系统消息更新周期,由于已知与寻呼消息有关的系统消息未更新,则终端设备仍能按照已记录的与寻呼有关的系统消息正确接收寻呼消息,从而能够成功地从寻呼消息中获得与系统消息更新有关的指示信息,进而能够成功更新系统消息。
再一方面,本申请提供再一种更新系统消息的方案,该方案针对能够正常接收寻呼消息的场景,比如:系统消息更新周期为DRX周期的整数倍。该方案中,网络设备在发送寻呼消息时,寻呼消息中携带的系统消息更新指示信息分别针对第一系统消息、第二系统消息、至少一个第三系统消息,指示第一终端设备是否需要更新该系统消息;终端设备根据系统消息更新指示信息进行系统消息更新;其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息,包括至少一个第三系统消息和的调度信息。
该方案中,通过在寻呼消息携带针对每一个系统消息的指示信息,该指示信息用于指示对应的系统消息是否需要更新,终端设备可根据各个指示信息的具体情况,确定如何进行系统消息更新。比如:第二系统消息的指示信息指示第二系统消息无需更新,则终端设备在进行至少一个第三系统消息更新时,仅需根据已记录的第二系统消息进行更新,无需再重新读取第二系统消息,提高了终端设备更新系统消息的效率。
又一方面,本申请提供一种系统消息的发送方案,网络设备在发送一个系统消息时,在整个系统消息的两次发送之间的时间间隔内,发送其他一个或多个系统消息。
目前,每一个系统消息只能在一个SI窗口(SI-window)中发送,在该系统消息窗中可以发送多次,一个系统消息的SI窗口和另一个系统消息的SI窗口相邻,但一个SI窗中仅能发送一个系统消息,终端设备在一个SI窗口中收到系统消息后,必须要等到下一个SI窗口收下一个系统消息。而本申请提供的该方案中,由于在一个系统消息的两次重复发送过程中,网络设备还发送其他系统消息,这样终端设备在收完一个系统消息后,无需等待系统消息 窗的到来,可以收其他系统消息,提高了系统消息更新的效率。
下面,为了便于理解,介绍本申请涉及的基本概念。
1、CIoT
蜂窝物联网(Cellular Internet of Things,CIoT),是指基于蜂窝网络实现的物联网。
为了应对未来爆炸性的移动数据流量增长、海量的设备连接、不断涌现的各类新业务和应用场景,产生了第五代移动通信(5th Generation,5G)系统。物联网可作为5G系统的组成部分,其市场需求增长迅猛,预测显示,到2022年基于5G系统实现的物联网中,连接数将会达到180亿。
目前,第三代合作伙伴计划(3rd Generation Partnership Project,3GPP)正在研究基于蜂窝网络的物联网,设计新的空口(也称为“空中接口”或“无线接口”)技术来承载物联网的业务。
本申请中提出的系统消息传输方案可用于IoT中,也可用于CIoT中,用以解决物联网中,当终端设备的DRX周期大于系统消息变更周期时,可能导致终端设备无法正常更新系统消息的问题,但并不意味着只能应用于IoT中。实际上,只要终端设备的DRX周期大于系统消息变更周期,均可能导致终端设备无法正常更新系统消息,本申请提出的方案用于解决由于终端设备的DRX周期大于系统消息变更周期导致的终端设备无法正常更新系统消息的问题,对所应用的系统或网络并不做限定。
2、系统信息
系统信息是无线通信系统中,网络设备,比如基站,向一个小区内的终端设备发送的消息,消息中包括该小区的小区级别的信息,对于接入该小区的所有终端设备有效。通常,网络设备采用广播方式发送系统信息。
按照系统信息的内容和重要程度等,可将系统信息进一步细分。下面,以目前LTE系统中的系统消息为例,对系统信息的组成加以说明,其他系统虽然划分方式略有不同,但原理基本相同,这里不再赘述。
LTE系统中,系统信息可分为主信息块(MasterInformationBlock,MIB) 和多个系统信息块(SystemInformationBlock,SIB),其中SIB由分为SIB1和其他SIB。每个系统信息包含了与某个功能相关的一系列参数集合。
LTE系统中,有3种类型的RRC消息用于传输系统信息,分别为:
1)MIB消息,用于传输MIB;
2)SIB1消息,用于传输SIB1;
3)一个或多个SI消息,用于传输除了SIB1之外的其他SIB。
其中,MIB消息在物理广播信道(Physical Broadcast CHannel,PBCH)上传输,时频资源固定。若存在SIB1,则由物理下行控制信道(Physical Downlink Control CHannel,PDCCH)信令来调度用于传输SIB1消息的频域资源,用于传输SIB1消息的时域资源固定。
与MIB消息所在的时频位置固定不同,SIB1消息和SI消息均在物理下行共享信道(Physical Downlink Shared CHannel,PDSCH)上传输,且SIB1消息和SI消息所占的资源块(Resource Block,RB)(频域上的位置)及其传输格式等均是动态调度的,由PDCCH信令来指示。UE通过在一个子帧的PDCCH上盲检来确定该子帧是否存在SI消息(SIB1在时域上的位置固定)。
演进节点B(evloved NodeB,eNB)可以根据具体情况灵活地改变SIB1消息和SI消息所占的带宽、使用的RB集合以及传输格式等。每个SI消息包含了一个或多个除SIB1外的SIB,这些SIB具有相同的调度需求,(比如:相同的传输周期)。
SIB1消息中指定了SI消息中包含了哪些SIB,以及该SI消息的周期、调度信息等。
本申请中,将系统消息进行如下划分:
1)、第一系统消息:在物理广播信道(比如:LTE系统中的PBCH)上周期发送,占用的物理资源位置固定(比如:对于LTE系统,占用的时域资源位置和频域资源位置固定)。通常第一系统消息的发送周期小于系统消息更新周期。
对于LTE系统,该第一系统消息可为MIB消息,发送周期为40ms。
2)、第二系统消息:在业务信道(比如:LTE系统中的PDSCH)上发送,占用的物理资源位置不固定(或者仅时域位置固定,频域位置通过调度信令指示),该第二系统消息中包括至少一个第三系统消息的调度信息。第二系统消息可周期发送,若周期发送,通常第二系统消息的发送周期小于系统消息更新周期,且大于第一系统信息的发送周期。
对于LTE系统,该第二系统消息可为SIB1消息,用于传输SIB1,SIB1消息周期发送,发送周期为80ms。
3)、至少一个第三系统消息:在业务信道(比如:LTE系统中的PDSCH)上发送,占用的物理资源位置不固定。
比如:对于LTE系统,第三系统消息为SI消息。
在实施例一中,系统消息中包括至少两个第三系统消息,该至少两个系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息。
其中,激活类第三系统消息为小区特定功能激活时小区内的终端设备需要获取的系统消息,常规类第三系统消息为上述至少两个系统消息中,除了激活类第三系统消息之外的其他系统消息。
以LTE系统为例,所有SI消息中,用于传输SIB 10、SIB11、SIB12、SIB14的SI消息可为激活类第三系统消息,SI消息中的其他系统消息为常规类第三系统消息。
可选地,一个常规类第三系统消息可传输至少一个系统信息,当其中的一个或多个系统信息发生变更时,则认为传输该系统信息的常规类第三系统消息需要更新;一个激活类第三系统消息也可传输至少一个系统信息,当其中的一个或多个系统信息发生变更时,则认为传输该系统信息的激活类第三系统消息需要更新。此时,可将第三系统消息和系统信息之间的关系称为一对多的关系。
或者,可选地,一个常规类第三系统消息可传输至少一个系统信息,当其中的一个或多个系统信息发生变更时,则认为传输该系统信息的常规类第三系统消息需要更新;一个激活类第三系统消息只传输一个系统信息,当该 一个系统信息发生变更时,则认为传输该系统信息的激活类第三系统消息需要更新。此时,可将常规类第三系统消息和系统信息之间的对应关系称为一对多的关系,可将激活类第三系统消息和系统信息之间的对应关系称为一对一的关系。
再或者,可选地,一个常规类第三系统消息仅传输一个系统信息,当该一个系统信息发生变更时,则认为传输该系统信息的常规类第三系统消息需要更新;一个激活类第三系统消息可传输至少一个系统信息,当其中的一个或多个系统信息发生变更时,则认为传输该系统信息的激活类第三系统消息需要更新。此时,可将常规类第三系统消息和系统信息之间的对应关系称为一对一的关系,可将激活类第三系统消息和系统信息之间的对应关系称为一对多的关系。
再或者,可选地,一个常规类第三系统消息仅传输一个系统信息,当该一个系统信息发生变更时,则认为传输该系统信息的常规类第三系统消息需要更新;一个激活类第三系统消息仅传输一个系统信息,当该一个系统信息发生变更时,则认为传输该系统信息的激活类第三系统消息需要更新。此时,可将第三系统消息和系统信息之间的对应关系称为一对一的关系。
目前LTE系统中,当终端设备通过读取寻呼消息获知需要进行系统信息更新时,需要读取所有的系统消息。而本申请中,针对不同的系统消息,指示该系统消息是否需要更新,则终端设备无需读取不需要更新的系统消息,降低了能耗,节省了处理能力。特别当系统消息与系统信息是一对一的关系时,可以细化到每一个系统信息,只要当一个系统信息发生变更时,终端设备才需要读取对应的系统消息,与系统消息与系统信息一对多的关系相比,划分更细致,能够进一步降低终端设备的能耗和处理能力,但这要求网络设备在指示系统信息变更时,需要更多的信息比特,相对提高了控制信息的开销。
对于第一系统消息和第二系统消息,由于系统消息中仅包括一个系统信息,所以可认为是系统消息与系统信息之间是一对一的对应关系。
所以,本申请中,为了便于理解,在系统消息与系统信息是一对一的对应关系时,认为系统信息变更,则对应的系统消息需要更新;在系统消息与系统信息是一对多的对应关系时,认为任何一个或多个系统信息变更,则对应的系统消息需要更新。后面的描述中,不再明确区分系统信息的更新和系统消息的更新。
3、目前LTE系统中通知系统消息变更的方案
目前,LTE系统中,通过寻呼和ValueTag两种方式通知终端设备即将到来的系统消息变更,其中,以寻呼方式为主。当小区即将修改某些系统信息时,基站会先对当前系统消息变更周期内的所有寻呼消息中的systemInfoModification字段置1,指示系统消息即将发生变化(但并不发送更新后的内容),然后在紧接着的下一个系统消息变更周期,小区才会发送更新后的系统信息。终端通过接收寻呼消息并检测字段systemInfoModification,可以预知系统消息即将改变,进而在下一系统消息变更周期开始时重新接收所有系统消息。
对于处于空闲态的终端来说,为节约终端能耗,在绝大多数时间处于休眠状态。但是会每隔一段时间(DRX周期)醒来一次,接收系统周期发送的寻呼消息,然后再进入休眠状态。其中,DRX周期就等于寻呼周期。在LTE系统中,系统消息变更周期为寻呼周期的整数倍,也就是说,当系统信息改变之前,终端有多次机会接收寻呼消息,并读取其中的systemInfoModification字段,以获取系统信息是否改变的信息。若systemInfoModification=1,该终端将在下一系统消息变更周期开始处,按以下顺序读取系统信息:
1)、读取MIB。
2)、监听物理下行控制信道(Physical Downlink Control CHannel,PDCCH),根据由系统消息-无线网络临时标识(System Information-Radio Network Temporary Identity,SI-RNTI)加扰的PDCCH信息,获取SIB1的频域调度信息,并根据固定的时域调度信息,确定SIB1的时频位置,读取SIB1;
3)、通过SIB1中包括的各SI的周期、调度信息以及SI与其他各SIB的 映射关系等信息,确定各系统消息的资源位置;
4)、读取所有SI消息。
对于处于空闲态的终端来说,系统消息变更周期是寻呼周期的整数倍,也就是说,在一次系统消息变更周期内,终端会有数次机会接收寻呼消息,因此,目前LTE系统中通过寻呼消息指示系统消息变更是可靠的。
但是,如前所述,若使用长DRX周期,比如在CIoT中,由于长DRX周期的使用,寻呼周期可能会大于系统消息变更周期,当终端醒来准备接收寻呼消息时,系统信息(特别是关于寻呼的系统信息)可能已经发生变更,此时对于终端来说,并不能保证能够成功接收系统消息。
因此,在诸如CIoT的长DRX系统中,目前的以寻呼方式为主的通知系统消息变更的方式并不可靠。
除此之外,SIB并不是在每次变更周期都会同时变化,可能仅有部分变化发生,单独的systemInfoModification指示,只能指示是否变化,不能指示哪些变化,因此目前LTE系统中要求终端重收所有系统消息,比较费电。
4、SI窗口(SI-window)和SI消息的调度
目前LTE系统中,每个SI消息只在一个SI窗口中传输。其中:
1)一个SI消息跟一个SI窗口相关联,该SI窗口内只能发这个SI消息且可以重复发送多次(发多少次,在哪些子帧上发送等,取决于基站的实现),但不能发送其它SI消息;
2)SI窗口之间是紧挨着的(如果相邻的话),既不重叠,也不会有空隙;
3)所有SI消息的SI窗口长度都相同;
4)不同SI消息的周期是相互独立的。
目前LTE系统中,MIB和SIB1的时域调度是固定的,SI消息的时域调度过程如下:
1)终端确认每个SI消息对应的SI窗口的起始位置以及SI窗口的长度。
SI窗口的长度由SIB1的si-WindowLength字段指定,其以ms为单位。
SIB1的schedulingInfoList指定了SI消息的列表,每个SI消息在该列表 中的顺序以n表示(从1开始)。
此时每个SI消息有一个x=(n-1)*w,其中w为si-WindowLength。可以看出,x是以ms为单位的。
则SI窗口的起始帧满足SFN%T=FLOOR(x/10),其中T为对应的SI消息的周期,由si-Periodicity指定(以系统帧为单位,即以10ms为单位)。通过SFN%T的运算,保证了不同SI的窗是紧挨着的,FLOOR(x/10)确定SI窗口在周期内的起始系统帧(一个系统帧为10ms,所以有x/10)。其中,%表示取余运算,FLOOR表示返回小于或者等于表达式的最大整数,/表示除法。
SI窗口的起始子帧为#a,其中a=x%10。
从上述公式可以看出,x决定了SI窗口在该SI周期内的起始帧和起始子帧;SFN%T保证了SI窗口在SI周期内只出现一次;而x=(n-1)*w保证了SI窗口之间紧挨(如果相邻的话),不重叠,没有空隙。
SI窗口确定了以后,基站会决定在该SI窗口内调度多少次同一SI,不同厂商的实现可能不同,但某些子帧不能用于调度SI消息,这些子帧包括:
1)SFN%2=0的系统帧内的子帧5,该子帧用于SIB1的传输;
2)任一多播/组播单频网络(Multimedia Broadcast multicast service Single Frequency Network,MBSFN)子帧;
3)时分双工(Time Division Duplexing,TDD)LTE系统中的上行子帧。
5、其他说明
本发明实施例中术语“系统”和“网络”在本文中常被可互换使用。本文中术语“和/或”,仅仅是一种描述关联对象的关联关系,表示可以存在三种关系,例如,A和/或B,可以表示:单独存在A,同时存在A和B,单独存在B这三种情况。另外,本文中字符“/”,一般表示前后关联对象是一种“或”的关系。
以上,介绍了本申请涉及的基本概念,为了便于理解,下面的表1中列出了本申请各实施例的主要内容、涉及的附图。
表1
实施例 主要内容 附图
实施例一 无线通信系统 图3、图4
实施例二 第一种系统消息更新方案 图5、图6
实施例三 第二种系统消息更新方案 图7
实施例四 第三种系统消息更新方案 图8
实施例五 系统消息传输方案 图9A~图9C
实施例六 第一种终端设备 图10
实施例七 第二种终端设备 图11
实施例八 第一种网络设备 图12
实施例九 第二种网络设备 图13
实施例十 第一种系统消息更新方法 图14
实施例十一 第二种系统消息更新方法 图15
实施例十二 第三种终端设备 图16
实施例十三 第四种终端设备 图17
实施例十四 第三种网络设备 图18
实施例十五 第四种网络设备 图19
实施例十六 第三种系统消息更新方法 图20
实施例十七 第四种系统消息更新方法 图21
实施例十八 第五种终端设备 图22
实施例十九 第六种终端设备 图23
实施例二十 第五种网络设备 图24
实施例二十一 第六种网络设备 图25
实施例二十二 第五种系统消息更新方法 图26
实施例二十三 第六种系统消息更新方法 图27
实施例二十四 第七种终端设备 图28
实施例二十五 第八种终端设备 图29
实施例二十六 第七种网络设备 图30
实施例二十七 第八种网络设备 图31
实施例二十八 第七种系统消息传输方法 图32
实施例二十九 第八种系统消息传输方法 图33
【实施例一】
图3示出了本申请提供的无线通信系统,该无线通信系统的架构适用于本申请各实施例。
如图3所示,该无线通信系统包括:网络设备301以及至少一个终端设备302。
该网络设备301在一个小区内发送系统消息,至少一个终端设备302接收网络设备301发送的系统消息。
实施例一提供的无线通信系统的通信制式包括但不限于:全球移动通信系统(Global System of Mobile communication,GSM)、码分多址(Code Division Multiple Access,CDMA)IS-95、码分多址(Code Division Multiple Access,CDMA)2000、时分同步码分多址(Time Division-Synchronous Code Division Multiple Access,TD-SCDMA)、宽带码分多址(Wideband Code Division Multiple Access,WCDMA)、时分双工-长期演进(Time Division Duplexing-Long Term Evolution,TDD LTE)、频分双工-长期演进(Frequency Division Duplexing-Long Term Evolution,FDD LTE)、长期演进-增强(Long Term Evolution-Advanced,LTE-advanced)、个人手持电话系统(Personal Handy-phone System,PHS)、802.11系列协议规定的无线保真(Wireless Fidelity,WiFi)、全球微波互联接入(Worldwide Interoperability for Microwave Access,WiMAX),以及未来演进的各种无线通信系统。
其中,终端设备302可以是无线终端,无线终端可以是指向用户提供语音和/或数据连通性的设备,具有无线连接功能的手持式设备、或连接到无线 调制解调器的其他处理设备。无线终端可以经无线接入网(例如,RAN,Radio Access Network)与一个或多个核心网进行通信,无线终端可以是移动终端,如移动电话(或称为“蜂窝”电话)和具有移动终端的计算机,例如,可以是便携式、袖珍式、手持式、计算机内置的或者车载的移动装置,它们与无线接入网交换语言和/或数据。例如,个人通信业务(PCS,Personal Communication Service)电话、无绳电话、会话发起协议(SIP)话机、无线本地环路(WLL,Wireless Local Loop)站、个人数字助理(PDA,Personal Digital Assistant)等设备。无线终端也可以称为订户单元(Subscriber Unit)、订户站(Subscriber Station),移动站(Mobile Station)、移动台(Mobile)、远程站(Remote Station)、接入点(Access Point)、远程终端(Remote Terminal)、接入终端(Access Terminal)、用户终端(User Terminal)、用户代理(User Agent)、用户设备(User Device)、或用户装备(User Equipment)。
网络设备301可包括基站,或用于控制基站的无线资源管理设备,或包括基站和用于控制基站的无线资源管理设备;其中基站可为宏站或小站,比如:小小区(small cell)、微小区(pico cell)等,基站也可为家庭基站,比如:家庭节点B(Home NodeB,HNB)、家庭演进节点B(Home eNodeB,HeNB)等,基站也可包括中继节点(relay)等。
比如:对于TDD LTE、FDD LTE或LTE-A等LTE系统,本发明实施例提供的无线通信系统中的网络设备301可为演进节点B(evolved NodeB,eNodeB),终端设备302可为UE;对于TD-SCDMA系统或WCDMA系统,本发明实施例提供的无线通信系统中的网络设备301可包括:节点B(NodeB)和/或无线网络控制器(Radio Network Controller,RNC),终端设备302可为UE;对于GSM系统,本发明实施例提供的中的网络设备301可包括基站收发台(Base Transceiver Station,BTS)和/或基站控制器(Base Station Controller,BSC);终端设备302为移动台(Mobile Station,MS);对于WiFi系统,网络设备301可包括:接入点(Access Point,AP)和/或接入控制器(Access Controller,AC),终端设备302可为站点(STAtion,STA)。
实施例一提供的无线通信系统的一个具体的例子可为CIoT系统,它广泛应用于多个领域,包括智能交通、楼控系统、家庭智能控制系统、视频监控系统、工业监测等。如图4所示,其中的冰箱、电表、汽车等均可作为CIoT系统中的终端设备302,通过基站、传输网络等与其他终端设备进行通信,比如:电表与汽车之间的通信等。
【实施例二】
如图5所示,实施例二提供的系统消息更新流程包括如下步骤:
S501:网络设备301在小区内发送第一系统消息,第一系统消息中携带第一指示信息,该第一指示信息与系统消息更新有关;
S502:终端设备302在收到该第一系统消息后,获取第一系统消息中的第一指示信息,并根据该第一指示信息对除了第一系统消息之外的其他系统消息进行更新。
其中,第一系统消息是周期性发送的,且占用的物理资源位置固定,终端设备302可处于空闲态,且预先知道第一系统消息的发送周期、发送时刻和物理资源位置,终端设备302可在每个DRX周期内,在醒来时读取第一系统消息。可选地,终端设备302可在醒来后,读取寻呼消息前读取第一系统消息。
第一系统消息的发送周期可依据产品实现而定,比如:40ms。
可选地,若所述第一指示信息指示需要更新除了第一系统消息之外的其他系统消息,则终端设备302确定需要进行系统消息更新,并进行系统消息;若所述第一指示信息指示无需更新除了第一系统消息之外的其他系统消息,则终端设备302确定无需进行系统消息更新,这样通过读取第一系统消息中的第一指示信息,无需读取其他系统消息即可确定是否要读取除了第一系统消息之外的其他系统消息,达到了省电和节省处理能力的目的。
下面,举例介绍第一指示信息的几种可选实现方案。
可选方案一
该第一指示信息可通过一个ValueTag指示所有的系统消息是否需要更 新,比如:该ValueTag取值范围为0~31,系统消息每更新一次,ValueTag值加1。这里,系统消息每更新一次,是指在一个系统消息更新周期内,只要除了第一系统消息之外的其他系统消息中有发生改变的,则系统消息更新一次,且不管有几个系统消息发生改变,ValueTag值仅加1。这样,终端设备302在第一指示信息的ValueTag值发生改变时,确定需要更新系统消息,若ValueTag值未变,则确定无需更新系统消息。
可选方案二
该第一指示信息包括:(1+M)个ValueTag,该(1+M)个ValueTag中,一个用于指示第二系统消息是否需要更新,M个ValueTag分别对应于M个常规类第三系统消息,每一个用于指示对应的常规类第三系统消息是否需要更新,这(1+M)个ValueTag的设置可同可选方案一中ValueTag的设置,M为正整数。
此外,第一指示信息还可包括N个激活指示信息,该N个激活指示信息分别用于指示N个激活类第三系统消息中每一个系统消息是否需要更新,当取值为“1”时,表明需要更新,当取值为“0”时,表明无需更新,N为正整数。
可选方案三
可选地,第一指示信息包括:第二指示信息;
第二指示信息用于指示小区当前使用的第二系统消息和至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个常规类第三系统消息中的任何一个或多个系统消息更新,版本变化一次;
步骤S502中,终端设备302在获取第一指示信息后,若其中的第二指示信息指示的配置版本与终端设备302已记录的配置版本不同,则终端设备302更新第二系统消息;若第二指示信息指示的配置版本与终端设备302已记录的配置版本相同,则终端设备302确定无需更新第二系统消息。可选地,该第二指示信息也可以采用ValueTag的方式实现。
可选地,第二系统消息中包括M个第三指示信息分别对应于M个常规类第三系统消息。第三指示信息用于指示相对于最近一次配置版本变化,对应的常规类第三系统消息是否已更新;在终端设备302更新第二系统消息之后,从第二系统消息中获取至少一个第三指示信息。
这里区分第二指示信息指示的配置版本,可有如下多种情况:
情况一、
第二指示信息指示的配置版本与终端设备302已记录的配置版本不同,但两个配置版本中间不存在其他不同的配置版本。
在情况一下,若至少一个第三指示信息中每一个第三指示信息均指示相对于最近一次配置版本变化,对应的常规类第三系统消息并未更新,则终端设备302确定无需更新至少一个常规类第三系统消息中的任何一个系统消息;
在情况一下,若至少一个第三指示信息中存在一个或多个第三指示信息,指示相对于最近一次配置版本变化,对应的常规类第三系统消息已更新,则针对每一个已更新的常规类第三系统消息,终端设备302按照更新后的第二系统消息中该常规类第三系统消息的调度信息,读取该常规类第三系统消息。
情况二、
第二指示信息指示的配置版本与终端设备302已记录的配置版本中间存在其他不同的配置版本。
在情况二下,终端设备302针对每一个常规类第三系统消息,按照更新后的第二系统消息中该常规类第三系统消息的调度信息,读取该常规类第三系统消息。
在情况二下,终端设备302要更新每一个常规类第三系统消息,这是因为:第二指示信息指示的配置版本与终端设备302已记录的配置版本中间存在其他不同的配置版本,并且第二指示信息用于指示小区当前使用的第二系统消息和至少一个常规类第三系统消息的组合的配置版本,这表明终端设备302可能错过了至少一次的系统消息更新过程。比如:如果一个常规类第三系统消息较上一个配置版本并没有变化,但是较再之前的配置版本有变化,则 对应的第三指示信息取值仍为“0”,这时根据第三系统消息确定是否需要更新该常规类第三系统消息是不准确的。因此,终端设备302为保证所保存的系统消息有效性,在情况二下,需要更新每一个常规类第三系统消息。
可选地,在可选方案三中,第一指示信息还可包括:N个第四指示信息,N个第四指示信息分别对应于N个激活类第三系统消息,用于指示小区内的终端设备是否需要更新对应的激活类第三系统消息;
此时,若第四指示信息指示小区内的终端设备需要更新对应的激活类第三系统消息,则终端设备302更新对应的激活类第三系统消息;若第四指示信息指示小区内的终端设备无需更新对应的激活类第三系统消息,则终端设备302确定无需更新对应的激活类第三系统消息。
需要说明的是,以上几种可选方案仅为举例说明,实施例一在实现长DRX周期的终端设备302更新系统消息时,关键是网络设备301通过了周期性发送的,且占用的物理资源位置固定的第一系统消息来指示终端设备302是否需要更新系统消息,从而避免了采用寻呼消息指示终端设备302是否需要更新系统消息,这样,即使终端设备302无法及时读取寻呼消息,也能够实现系统消息的及时更新。
下面,以LTE系统为例,通过图6所示的流程举例说明可选方案三。
图6所示的流程中,第一系统消息为MIB消息,第二系统消息为SIB1消息,至少一个第三系统消息为SI消息,至少一个第三系统消息用于传输除了SIB1之外的其他SIB,其中包括:SI_NORM,即前述的常规类第三系统消息为,激活类第三系统消息为SI_ACT,比如:LTE系统中SIB14,主要用于实现扩展接入控制(Extended Access Barring,EAB)功能,该功能开启时,终端设备302才需要读取相关SIB。
MIB和SIB1的资源位置及重复次数固定。
SIB1以外的其他SIB包含在SI消息中。一个SI消息中可以包含一个SIB,也可以包含多个SIB。若包含多个SIB,必须是同周期、同种类的SIB。可选地,由常规类SIB组成的SI消息称为常规类SI消息,由激活类SIB组成的 SI消息成为激活类SI消息。
第二指示信息为MIB中的ValueTag;SIB1和常规SI消息每变更一次(无论一个变更周期中有几个改变),该ValueTag的值加1。
SIB1中包含SI消息的调度信息、周期以及其中分别包含哪些SIB。M个第三指示信息为SIB1中的M个SI_NORM_IND,取值为0表示对应的常规类第三系统消息未更新,取值为1表示对应的常规类第三系统消息已更新。该M个SI_NORM_IND可由bitmap实现,该bitmap包括至少M bit,每一个bit对应一个常规类第三系统消息。
N个第四指示信息为MIB中N个SI_ACT_IND,取值为0表示对应的激活类第三系统消息无需更新,取值为1表示对应的激活类第三系统消息需要更新。该N个SI_ACT_IND也可由bitmap实现,该bitmap包括至少N bit,每一个bit对应一个激活类第三系统消息。
终端设备302维护ValueTagMS,该ValueTagMS的值为上一次系统信息更新时从MIB中读取并记录下来的ValueTag的值。
其中,采用ValueTag的方式指示系统消息是否需要更新的原因是,在终端设备302休眠时,系统消息可能发生了多次变化,仅用1比特信息,如果系统消息变换了偶数次,则无法指示系统消息已经发生变化。ValueTag适用于指示第二系统消息和常规类第三系统消息或它们组合的变化情况。
而对于激活类第三系统消息,只要对应的激活指示信息置“1”,则终端设备302就要读取该激活类第三系统消息,不论是否发生变化,已经变化几次。
如图6所示,该流程包括如下步骤:
S601:处于空闲态的终端设备302从休眠状态醒来后,接收MIB,其中,可选地,终端设备302的DRX周期大于系统信息变更周期;
S602:终端设备302判断所有的SI_ACT_IND的值是否均为0;若均为0,则执行步骤S603,若存在部分SI_ACT_IND值为1,则执行步骤S604;
S603:终端设备302确定无需读取任何一个SI_ACT;
S604:终端设备302判断MIB中的ValueTag值是否变化(即比较读取的MIB中的ValueTag与自身记录的ValueTagMS值是否相等),若变化则执行步骤S606,如未变,则执行步骤S605;
S605:终端设备302根据记录的原有SIB1中的调度信息,读取SI_ACT_IND值为1的SI_ACT;
S606:终端设备302读取SIB1;
S607:终端设备302根据步骤S606中读取的SIB1中的调度信息,读取SI_ACT_IND值为1的SI_ACT;
S608:终端设备302判断MIB中的ValueTag值的变化;若没有变化,则执行步骤S609,若有变化,则执行步骤S610;
S609:终端设备302确定无需读取SIB1和任何一个SI_NORM;
S610:终端设备302判断MIB中的ValueTag值是否比自身记录的原有ValueTag值大1(即判断是否满足MIB中读取的ValueTag=ValueTagMS+1),若大1,则执行步骤S611,否则(即MIB中读取的ValueTag<ValueTagMS或MIB中读取的ValueTag>ValueTagMS+1)执行步骤S612;
S611:终端设备302读取SIB1,按照SIB1中的SI_NORM的调度信息,读取所有SI_NORM;
S612:读取SIB1;
S613:终端设备302判断SIB1中所有SI_NORM_IND的值是否均为0,若均为0,则执行步骤S614,否则执行步骤S615;
S614:终端设备302确定无需读取任何一个SI_NORM;
S615:终端设备302根据读取的SIB1中的SI_NORM_IND值为1的SI_NORM的调度信息,读取SI_NORM_IND值为1的SI_NORM。
实施例二中,终端设备302可在确定需要更新某个系统消息时,立即读取该系统消息,或者在下一个系统消息更新周期读取该系统消息。
实施例二中,针对具有长DRX周期(即DRX周期大于系统消息更新周期)的终端设备,提供了一种系统消息更新方案,该方案中,终端设备根据 第一系统消息中的第一指示信息进行系统消息更新,使得使用长DRX周期的空闲态终端设备可以及时准确地获取系统消息变更。
并且,在一种可选实现方案中,网络设备在第一系统消息中携带第二指示信息、第四指示信息,以及在第二系统消息携带第三指示信息,使得终端尽量只读取必需的系统消息,降低了终端设备的能耗。
在部分可选方案中,将第三系统消息分为常规类第三系统消息和激活类第三系统消息,第二指示信息仅指示第二系统消息和常规类第三系统消息的变更,对于激活类第三系统消息使用单独的第四指示信息指示消息变更。使得终端设备尽量只读取必需的系统消息,降低了终端能耗。
需要说明的是,实施例二可解决长DRX周期的终端设备无法及时读取寻呼消息,而导致的系统消息更新失败的问题,但实施例二也可适用于普通DRX周期的终端设备,提供了另一种系统消息更新的机制,采用该机制中的可选方案,比如:网络设备发送第二指示信息、第三指示信息和第四指示信息,可避免终端设备读取所有的系统消息,而是仅读取需要更新的系统消息,这样可降低终端设备的能耗。
【实施例三】
需要说明的是,实施例三中的部分指示信息虽然与实施例二中命名相同,但它们可能表示不同的含义,具体含义以实施例中的描述为准。
如图7所示,实施例三提供的系统消息更新流程包括如下步骤:
S701:网络设备301在小区内发送第一系统消息;
S702:终端设备302获取第一系统消息中的第一指示信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新,若第一指示信息指示与寻呼有关的系统消息未更新,则执行步骤S703和步骤S704;
S703:终端设备302按照已记录的与寻呼有关的系统消息,接收网络设备301发送的寻呼消息;
S704:终端设备302根据接收的寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
其中,第一系统消息、第二系统消息和第三系统消息可参考前面基本概念部分的描述。
实施例三提供的系统消息更新方案,也可解决长DRX终端设备无法及时读取寻呼消息,从而导致的系统消息更新失败的问题。首先,终端设备302通过周期性发送,且占用的资源固定的第一系统消息读取第一指示信息,根据第一指示信息判断与寻呼有关的系统消息是否变更,这样,当终端设备302在确定与寻呼有关的系统消息未变更时,就可以成功接收寻呼消息,进一步再根据寻呼消息中的第二指示信息进行系统消息更新。
可选地,第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
第三指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
第四指示信息,用于指示相对于最近一次配置版本变化,第二系统消息是否已更新;
一个第五指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
可选地,若第三指示信息指示的配置版本与终端设备302已记录的配置版本相同,则确定无需进行系统消息更新;
若第三指示信息指示的配置版本与终端设备302已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则:
在第四指示信息指示相对于最近一次配置版本变化,第二系统消息已更新时,终端设备302更新第二系统消息;
在第四指示信息指示相对于最近一次配置版本变化,第二系统消息未更新时,终端设备302确定无需更新第二系统消息。
可选地,若第三指示信息指示的配置版本与终端设备302已记录的配置 版本不同,但两个配置版本中间没有其他不同的配置版本,则:
在至少一个第五指示信息中每一个第三指示信息均指示相对于最近一次配置版本变化,对应的第三系统消息并未更新时,终端设备302确定无需更新至少一个第三系统消息中的任何一个系统消息;
在至少一个第五指示信息中存在一个或多个第五指示信息,指示相对于最近一次配置版本变化,对应的第三系统消息已更新时,终端设备302针对每一个已更新的第三系统消息进行更新。
可选地,若第三指示信息指示的配置版本与终端设备302已记录的配置版本不同,且两个配置版本中间没有其他不同的配置版本,则:
终端设备302更新第二系统消息;
终端设备302按照更新后的第二系统消息中的至少一个第三系统消息的调度信息,更新每一个第三系统消息。
可选地,若第一指示信息指示与寻呼有关的系统消息已更新,则终端设备302更新第二系统消息;
获取第二系统消息中的第六指示信息和至少一个第七指示信息;
第六指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
一个第七指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新;
终端设备302根据第六指示信息和至少一个第七指示信息进行系统消息更新。
可选地,若第六指示信息指示的配置版本与终端设备302已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则终端设备302针对至少一个第七指示信息指示的每一个已更新的第三系统消息,对该第三系统消息进行更新;
若第六指示信息指示的配置版本与终端设备302已记录的配置版本不同,且两个配置版本中间存在其他不同的配置版本,则终端设备302针对至少一个第三系统消息中的每个系统消息进行更新。
下面,以LTE系统为例,说明实施例三提供的系统消息更新的方案。
其中,第一系统消息为MIB消息,第二系统消息为SIB1消息,至少一个第三系统消息为SI消息,至少一个第三系统消息用于传输除了SIB1之外的其他SIB。
MIB和SIB1的资源位置固定及重复次数固定。
SIB1以外的其他SIB包含在SI消息中。一个SI消息中可以包含一个SIB,也可以包含多个SIB。若包含多个SIB,必须是同周期、同种类的SIB。
第一指示信息为MIB中的ValueTagPaging,和寻呼相关的系统消息每变更一次,ValueTagPaging值加1。
第二指示信息包括寻呼消息中的第三指示信息、第四指示信息和至少一个第五指示信息,其中:
第三指示信息为ValueTag,用于指示小区当前使用的SIB1消息和至少一个SI消息的组合的配置版本,在一个系统消息更新周期内,SIB1消息和至少一个SI消息中的任何一个或多个系统消息更新,配置版本变化一次。
第四指示信息为1比特的SIB1变化指示信息,用于指示相对于上述配置版本的最近一次变化,SIB1是否已更新;
至少一个第五指示信息为K个SI_IND,取值为0表示对应的SI消息未更新,取值为1表示对应的SI消息已更新。该K个SI_IND可由bitmap实现,该bitmap包括至少K bit,每一个bit对应一个SI消息。
SIB1中包括第六指示信息和至少一个第七指示信息,其中:
第六指示信息为SIB1中的ValueTag,与寻呼消息中的ValueTag含义相同;
至少一个第七指示信息为SIB1中的K个SI_IND,含义与寻呼消息中的K个SI_IND相同。
终端设备302维护ValueTagMS和ValueTagPagingMS,该 ValueTagPagingMS的值为上一次系统消息更新时从MIB中读取并记录下来的ValueTagPaging的值,ValueTagMS的值为上一次系统消息更新时,从寻呼消息或第二系统消息中读取并记录下来的ValueTag的值。
其中,采用ValueTag的方式指示系统消息是否需要更新的原因是,在终端设备302休眠时,系统消息可能发生了多次变化,仅用1比特信息,如果系统消息变换了偶数次,则无法指示系统消息已经发生变化。
下面,以处于空闲态的终端设备302为例,说明系统消息更新的过程:
处于空闲态的终端从休眠状态醒来后,读取MIB;
下面,按照MIB中读取的ValueTagPaging的取值不同,分情况加以说明:
情况一、ValueTagPagingMS=MIB中读取的ValueTagPaging;
终端设备302接收寻呼消息,下面,区分从寻呼消息中读取的ValueTag的不同取值加以说明:
子情况一、寻呼消息中读取的ValueTag=ValueTagMS+1
在情况一的子情况一下,若从寻呼消息中读取的SIB1变化指示信息指示SIB1变更,则终端设备302读取SIB1;若寻呼消息中读取的K个SI_IND指示某一SI消息变更,则根据SIB1中的SI调度信息读取发生变更的SI消息,并设置ValueTagMS=ValueTag。
子情况二、从寻呼消息中读取的ValueTag<ValueTagMS或寻呼消息中读取的ValueTag>ValueTagMS+1
在情况一的子情况二下,终端设备302读取SIB1,根据其中SI消息调度信息,重新读取所有SI消息,并设置ValueTagMS=ValueTag。
情况二、ValueTagPagingMS≠MIB中读取的ValueTagPaging
在情况二下,终端设备302读取SIB1,根据SIB1中读取的ValueTag的取值,区分如下两种子情况:
子情况一、SIB1中读取的ValueTag=ValueTagMS+1
在情况二的子情况一下,终端设备302根据SIB1中K个SI_IND和SI调度信息,读取发生变化的SI消息,并设置ValueTagMS=SIB中读取的 ValueTag。
子情况二、SIB1中读取的ValueTag<ValueTagMS或SIB1中读取的ValueTag>ValueTagMS+1
在情况二的子情况二下,终端设备302重新读取所有SI消息,并设置ValueTagMS=SIB1中读取的ValueTag。
此外,在情况二下,终端设备302设置ValueTagPagingMS=MIB中读取的ValueTagPaging。
实施例三中,针对具有长DRX周期(即DRX周期大于系统消息更新周期)的终端设备,提供了一种系统消息更新方案,该方案中,处于空闲态的终端设备在寻呼相关的系统消息未改变的前提下,也可以通过寻呼消息获取系统消息变更信息。
并且,在实施例三的部分方案中,对终端设备读取系统消息的机制进行优化,通过在寻呼消息中携带多个指示信息,在SIB1消息中携带多个指示信息,使得终端尽量只读取必需的系统消息,以减少终端能耗。
需要说明的是,虽然实施例三可以解决长DRX周期的终端设备无法正常更新系统消息的问题,但是,对于短DRX周期的终端设备,也提供了一种新的系统消息更新的方案,能够提高系统消息更新的成功率。
【实施例四】
如图8所示,实施例四提供的系统消息更新流程包括如下步骤:
S801:网络设备301在小区内发送寻呼消息;
S802:终端设备302接收网络设备301发送的上述寻呼消息,从寻呼消息获取系统消息更新指示信息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示终端设备302是否需要更新该系统消息;
S803:终端设备302根据获取的系统消息更新指示信息进行系统消息更新。
其中,第一系统消息、第二系统消息和第三系统消息可参考前面基本概念部分的描述。
实施例二和实施例三均能解决长DRX周期的终端设备302的系统消息更新的问题。实施例四中,针对短DRX周期(DRX周期不大于系统消息更新周期,进一步地,系统消息更新周期可为DRX周期的整数倍)的终端设备302,提出了一种新的系统消息更新方案,其中,寻呼消息中的系统消息更新指示信息是分别针对每一个系统消息设置的,即分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息设置,因此可以精确地指示每一个系统消息的变化情况,这样终端设备302在进行系统消息更新时,仅需更新针对发生变化的系统消息进行更新,降低了设备能耗。
可选地,各系统消息的系统消息更新指示信息可由bitmap实现,每一比特对应一个系统消息,当一个比特为0时,表示对应的系统消息未变,当该比特为1时,表示对应的系统消息改变。
可选地,至少一个第三系统消息可包括激活类第三系统消息和常规类第三系统消息,可选地,针对第一系统消息、第二系统消息和常规类第三系统消息,当对应的系统消息更新指示信息为1时,终端设备302可在下一个系统消息更新周期中,读取对应的系统消息;针对激活类第三系统消息,当对应的系统消息更新指示信息为1时,终端设备302可立即读取该激活类第三系统消息。
【实施例五】
如图9A所示,实施例五提供的系统消息传输流程包括如下步骤:
S901:网络设备301对于要发送的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数;
S902:终端设备302确定要接收的每一个系统消息的发送起始位置、发送周期和重复次数;
S903:网络设备301对于每个要发送的系统消息,按照确定的该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息,终端设备302 按照确定的每一个系统消息的发送起始位置、发送周期和重复次数,接收系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括其他一个或多个系统消息。
实施例五提供的方案,适用于前面任何一个实施例,网络设备301的两次重复发送过程中发送其他系统消息,这样终端设备302在收完一个系统消息后,无需等待系统消息窗的到来,可以收其他系统消息,提高了系统消息更新的效率。
下面,分别介绍可选方案一和可选方案二,通过对比两种可选方案,说明实施例四的具体实现和效果。
可选方案一、网络设备301在一个SI窗口中重复发送同一个系统消息的方案;
可选方案二、网络设备301在一个系统消息的两次发送之间的时间间隔内,发送其他系统消息。
下面,参照图9B说明可选方案一。
可选方案一
可选方案一的一个应用场景是,为了实现CIoT中对于覆盖增强的要求,网络设备301需要在一个SI窗口内对同一SI消息进行重复发送。
可选方案一中,假设SI消息传输的频域资源固定,调制编码方式等也固定,只需进行时域调度。
SIB1中携带的调度信息只包括SIn,n=1,2,...,N的大小(根据系统消息SIn的大小Sn,可以得出为保证覆盖增强所需进行的重复次数Mn)以及SI消息调度的起始帧号T0以及起始子帧号t0,N为正整数。
可选方案一种,SI窗口顺序排列,中间无交叠无间隔。
在相应的窗口内对SIn,n=1,2,...,N传输Mn次所需子帧数为
Figure PCTCN2015094062-appb-000001
其中,r为固定频域资源和调制编码方式下一个子帧可以传输的比特数目。
SIn,n=1,2,...,N的起始帧号为
Figure PCTCN2015094062-appb-000002
起始子帧号为
Figure PCTCN2015094062-appb-000003
结束帧号为
Figure PCTCN2015094062-appb-000004
结束子帧号为
Figure PCTCN2015094062-appb-000005
在上述时域空间内,终端可以对SIn进行接收。其中,offseti为偏移子帧数,因为系统中有部分子帧是固定使用的,如用于传递MIB和SIB1的子帧等,需要剔除,这种规定对于终端设备302和网络设备301来说都是固定的,依系统设计可以算出具体的偏移子帧数。
结合图9B,从上述描述可见,可选方案一中,SI消息的调度在时间上是完全顺序的。对于覆盖较好的终端设备而言,可能只需接收很少的几次甚至一次重复,就可以得到某个SI。但是为了接收某一个系统消息,必须等候前面所有的系统消息重复都传输完毕。不宜于终端设备(特别是覆盖较好的终端设备)节电。因此,可选方案二给出了使用交叠SI窗口的系统消息发送方案。如图9C所示。
可选方案二
可选方案二中,以子帧为单位,系统消息SIn,n=1,2,...,N顺序排列,N为正整数。
终端设备302可以在帧号为:
Figure PCTCN2015094062-appb-000006
的数据帧中的第(t0+n+i*N-1+offsetn,i)mod10子帧上对SIn进行接收。其 中,
Figure PCTCN2015094062-appb-000007
offsetn,i为SIn的第i次重复的偏移子帧数。
采用可选方案二,对于覆盖较好的终端,可能只需要几个子帧,就可以完成对系统消息的接收。对于此类终端,可选方案二的调度方案除了能够实现资源定位以及为覆盖增强而进行足够的重复传输之外,还有利于覆盖等级较好终端的节电性能。
【实施例六】
图10为本申请实施例六提供的第一种终端设备的结构示意图。如图所示,该设备包括:
接收模块1001,用于接收终端设备所在小区的第一系统消息;
处理模块1002,用于获取接收模块1001接收的第一系统消息中的第一指示信息,第一指示信息包括用于更新除了第一系统消息之外的其他系统消息的信息;并根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
其中,第一系统消息周期性发送,且占用的物理资源位置固定。
可选地,处理模块1002更新的除了第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
第二系统消息,包括至少两个第三系统消息的调度信息;
激活类第三系统消息,包括小区的特定功能激活时小区内的终端设备需要获取的系统消息;常规类第三系统消息为至少两个第三系统消息中除了激活类第三系统消息之外的其他第三系统消息。
可选地,处理模块1002具体用于:在第一指示信息包括:第二指示信息,第二指示信息用于指示小区当前使用的第二系统消息和至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个常规类第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次时,
若第二指示信息指示的配置版本与终端设备已记录的配置版本不同,则更新第二系统消息;
若第二指示信息指示的配置版本与终端设备已记录的配置版本相同,则确定无需更新第二系统消息。
可选地,处理模块1002具体用于:
在第二系统消息中包括至少一个第三指示信息,一个第三指示信息对应于一个常规类第三系统消息,用于指示相对于最近一次配置版本变化,对应的常规类第三系统消息是否已更新时,在更新第二系统消息之后,从第二系统消息中获取至少一个第三指示信息;
若第二指示信息指示的配置版本与终端设备已记录的配置版本不同,但两个配置版本中间不存在其他不同的配置版本,则执行如下操作:
若至少一个第三指示信息中每一个第三指示信息均指示相对于最近一次配置版本变化,对应的常规类第三系统消息并未更新,则确定无需更新至少一个常规类第三系统消息中的任何一个系统消息;
若至少一个第三指示信息中存在一个或多个第三指示信息,指示相对于最近一次配置版本变化,对应的常规类第三系统消息已更新,则针对每一个已更新的常规类第三系统消息,按照更新后的第二系统消息中该常规类第三系统消息的调度信息,控制接收模块1001读取该常规类第三系统消息。
可选地,处理模块1002具体用于:
若第二指示信息指示的配置版本与终端设备已记录的配置版本中间存在其他不同的配置版本,则
针对每一个常规类第三系统消息,按照更新后的第二系统消息中该常规类第三系统消息的调度信息,控制接收模块1001读取该常规类第三系统消息。
可选地,处理模块1002具体用于:
在第一指示信息还包括:至少一个第四指示信息,一个第四指示信息对应于一个激活类第三系统消息,用于指示小区内的终端设备是否需要更新对应的激活类第三系统消息时,
若第四指示信息指示小区内的终端设备需要更新对应的激活类第三系统消息,则更新对应的激活类第三系统消息;
若第四指示信息指示小区内的终端设备无需更新对应的激活类第三系统消息,则确定无需更新对应的激活类第三系统消息。
其中,该终端设备的各种可选实现方式可参考实施例二中终端设备302的操作。其中,接收模块1001用于执行终端设备302的接收操作,处理模块1002用于执行终端设备302的处理操作。
接收模块1001可由接收器实现,处理模块1002可由处理器实现。
该终端设备可用于执行实施例十提供的方法。
【实施例七】
图11为本申请实施例七提供的第二种终端设备的结构示意图。如图所示,该设备包括:
接收器1101,用于接收终端设备所在小区的第一系统消息;
处理器1102,用于获取接收器1101接收的第一系统消息中的第一指示信息,第一指示信息包括用于更新除了第一系统消息之外的其他系统消息的信息;并根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
其中,第一系统消息周期性发送,且占用的物理资源位置固定。
接收器1101的各种可选实现方式可参考接收模块1001,处理器1102的各种可选实现方式可参考处理模块1002。
该终端设备可用于执行实施例十提供的方法。
【实施例八】
图12为本申请实施例八提供的第一种网络设备的结构示意图。如图所示,该设备包括:
处理模块1201,用于确定第一系统消息,第一系统消息中包括第一指示信息,第一指示信息包括用于更新除了第一系统消息之外的其他系统消息的信息;
发送模块1202,用于将处理模块1201确定的第一系统消息在小区内发送;
其中,第一系统消息周期性发送,且占用的物理资源位置固定。
可选地,发送模块1202还用于:
在小区中发送除了第一系统消息之外的其他系统消息;
除了第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
第二系统消息,包括至少两个第三系统消息的调度信息;
激活类第三系统消息,包括小区的特定功能激活时小区内的终端设备需要获取的系统消息;常规类第三系统消息为至少两个第三系统消息中除了激活类第三系统消息之外的其他第三系统消息。
可选地,发送模块1202发送的第一指示信息包括:第二指示信息;
第二指示信息用于指示小区当前使用的第二系统消息和至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个常规类第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次。
可选地,发送模块1202发送的第二系统消息中包括至少一个第三指示信息;
一个第三指示信息对应于一个常规类第三系统消息,用于指示相对于最近一次配置版本变化,对应的常规类第三系统消息是否已更新。
可选地,发送模块1202发送的第一指示信息还包括:至少一个第四指示信息;
一个第四指示信息对应于一个激活类第三系统消息,用于指示小区内的终端设备是否需要更新对应的激活类第三系统消息。
该网络设备的其他可选实现方式可参考实施例二中的网络设备301的操作,其中,处理模块1201用于执行网络设备301的处理操作,发送模块1202用于执行网络设备301的发送操作。
处理模块1201可由处理器实现,发送模块1202可由发射器实现。
该网络设备可用于执行实施例十一提供的方法。
【实施例九】
图13为本申请实施例九提供的第二种网络设备的结构示意图。如图所示,该设备包括:
处理器1301,用于确定第一系统消息,第一系统消息中包括第一指示信息,第一指示信息包括用于更新除了第一系统消息之外的其他系统消息的信息;
发射器1302,用于将处理器1301确定的第一系统消息在小区内发送;
其中,第一系统消息周期性发送,且占用的物理资源位置固定。
处理器1301的其他可选实现方式可参考处理模块1201,发射器1302的其他可选实现方式可参考发送模块1202。
该网络设备可用于执行实施例十一提供的方法。
【实施例十】
图14为本申请实施例十提供的第一种系统消息更新方法的流程图。如图所示,该流程包括如下步骤:
S1401:第一终端设备接收所在小区的第一系统消息;
S1402:第一终端设备从第一系统消息中获取第一指示信息,第一指示信息包括用于更新除了第一系统消息之外的其他系统消息的信息;
S1403:第一终端设备根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
其中,第一系统消息周期性发送,且占用的物理资源位置固定。
可选地,除了第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
第二系统消息,包括至少两个第三系统消息的调度信息;
激活类第三系统消息,包括小区的特定功能激活时小区内的终端设备需 要获取的系统消息;常规类第三系统消息为至少两个第三系统消息中除了激活类第三系统消息之外的其他第三系统消息。
可选地,第一指示信息包括:第二指示信息;
第二指示信息用于指示小区当前使用的第二系统消息和至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个常规类第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
第一终端设备根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,包括:
若第二指示信息指示的配置版本与第一终端设备已记录的配置版本不同,则第一终端设备更新第二系统消息;
若第二指示信息指示的配置版本与第一终端设备已记录的配置版本相同,则第一终端设备确定无需更新第二系统消息。
可选地,第二系统消息中包括至少一个第三指示信息,一个第三指示信息对应于一个常规类第三系统消息,用于指示相对于最近一次配置版本变化,对应的常规类第三系统消息是否已更新;
在第一终端设备更新第二系统消息之后,还包括:第一终端设备从第二系统消息中获取至少一个第三指示信息;
第一终端设备根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,还包括:
若第二指示信息指示的配置版本与第一终端设备已记录的配置版本不同,但两个配置版本中间不存在其他不同的配置版本,则第一终端设备执行如下操作:
若至少一个第三指示信息中每一个第三指示信息均指示相对于最近一次配置版本变化,对应的常规类第三系统消息并未更新,则确定无需更新至少一个常规类第三系统消息中的任何一个系统消息;
若至少一个第三指示信息中存在一个或多个第三指示信息,指示相对于 最近一次配置版本变化,对应的常规类第三系统消息已更新,则针对每一个已更新的常规类第三系统消息,按照更新后的第二系统消息中该常规类第三系统消息的调度信息,读取该常规类第三系统消息。
可选地,第一终端设备根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,还包括:
若第二指示信息指示的配置版本与第一终端设备已记录的配置版本中间存在其他不同的配置版本,则第一终端设备针对每一个常规类第三系统消息,按照更新后的第二系统消息中该常规类第三系统消息的调度信息,读取该常规类第三系统消息。
可选地,第一指示信息还包括:至少一个第四指示信息,一个第四指示信息对应于一个激活类第三系统消息,用于指示小区内的终端设备是否需要更新对应的激活类第三系统消息;
第一终端设备根据获取的第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,还包括:
若第四指示信息指示小区内的终端设备需要更新对应的激活类第三系统消息,则第一终端设备更新对应的激活类第三系统消息;
若第四指示信息指示小区内的终端设备无需更新对应的激活类第三系统消息,则第一终端设备确定无需更新对应的激活类第三系统消息。
该方法的其他可选实现方式可参考实施例二中终端设备302的处理。
【实施例十一】
图15为本申请实施例十一提供的第二种系统消息更新方法的流程图。如图所示,该流程包括如下步骤:
S1501:网络设备确定第一系统消息,第一系统消息中包括第一指示信息,第一指示信息包括用于更新除了第一系统消息之外的其他系统消息的信息;
S1502:网络设备将确定的第一系统消息在小区内发送;
其中,第一系统消息周期性发送,且占用的物理资源位置固定。
可选地,还包括:
网络设备在小区中发送除了第一系统消息之外的其他系统消息;
除了第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
第二系统消息,包括至少两个第三系统消息的调度信息;
激活类第三系统消息,包括小区的特定功能激活时小区内的终端设备需要获取的系统消息;常规类第三系统消息为至少两个第三系统消息中除了激活类第三系统消息之外的其他第三系统消息。
可选地,第一指示信息包括:第二指示信息;
第二指示信息用于指示小区当前使用的第二系统消息和至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个常规类第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次。
可选地,第二系统消息中包括至少一个第三指示信息;
一个第三指示信息对应于一个常规类第三系统消息,用于指示相对于最近一次配置版本变化,对应的常规类第三系统消息是否已更新。
可选地,第一指示信息还包括:至少一个第四指示信息;
一个第四指示信息对应于一个激活类第三系统消息,用于指示小区内的终端设备是否需要更新对应的激活类第三系统消息。
该方法的其他可选实现方式可参考实施例二中网络设备301的处理。
【实施例十二】
图16为本申请实施例十二提供的第三种终端设备的结构示意图。如图所示,该设备包括:
接收模块1601,用于接收终端设备所在小区的第一系统消息;小区的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息;第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的 系统消息;
处理模块1602,用于获取接收模块1601接收的第一系统消息中的第一指示信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新;以及若第一指示信息指示与寻呼有关的系统消息未更新,则控制接收模块1601按照已记录的与寻呼有关的系统消息接收寻呼消息,并根据接收模块1601接收的寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
可选地,接收模块1601接收的第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
第三指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
第四指示信息,用于指示相对于最近一次配置版本变化,第二系统消息是否已更新;
一个第五指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
可选地,处理模块1602具体用于:
若第三指示信息指示的配置版本与终端设备已记录的配置版本相同,则确定无需进行系统消息更新;
若第三指示信息指示的配置版本与终端设备已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则在第四指示信息指示相对于最近一次配置版本变化,第二系统消息已更新时,更新第二系统消息;在第四指示信息指示相对于最近一次配置版本变化,第二系统消息未更新时,确定无需更新第二系统消息。
可选地,处理模块1602具体用于:
若第三指示信息指示的配置版本与终端设备已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则:
在至少一个第五指示信息中每一个第三指示信息均指示相对于最近一次配置版本变化,对应的第三系统消息并未更新时,确定无需更新至少一个第三系统消息中的任何一个系统消息;
在至少一个第五指示信息中存在一个或多个第五指示信息,指示相对于最近一次配置版本变化,对应的第三系统消息已更新时,针对每一个已更新的第三系统消息进行更新。
可选地,处理模块1602具体用于:
若第三指示信息指示的配置版本与终端设备已记录的配置版本不同,且两个配置版本中间没有其他不同的配置版本,则:
更新第二系统消息;以及
按照更新后的第二系统消息中的至少一个第三系统消息的调度信息,更新每一个第三系统消息。
可选地,处理模块1602还用于:
若第一指示信息指示与寻呼有关的系统消息已更新,则更新第二系统消息;
获取第二系统消息中的第六指示信息和至少一个第七指示信息;第六指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;一个第七指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新;
根据第六指示信息和至少一个第七指示信息进行系统消息更新。
可选地,处理模块1602具体用于:
若第六指示信息指示的配置版本与终端设备已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则针对至少一个第七指示信息指示的每一个已更新的第三系统消息,对该第三系统消息进行更新;
若第六指示信息指示的配置版本与终端设备已记录的配置版本不同,且 两个配置版本中间存在其他不同的配置版本,则针对至少一个第三系统消息中的每个系统消息进行更新。
其中,该终端设备的各种可选实现方式可参考实施例三中终端设备302的操作。其中,接收模块1601用于执行终端设备302的接收操作,处理模块1602用于执行终端设备302的处理操作。
接收模块1601可由接收器实现,处理模块1602可由处理器实现。
该终端设备可用于执行实施例十六提供的方法。
【实施例十三】
图17为本申请实施例十三提供的第四种终端设备的结构示意图。如图所示,该设备包括:
接收器1701,用于接收终端设备所在小区的第一系统消息;小区的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息;第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息;
处理器1702,用于获取接收器1701接收的第一系统消息中的第一指示信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新;以及若第一指示信息指示与寻呼有关的系统消息未更新,则控制接收器1701按照已记录的与寻呼有关的系统消息接收寻呼消息,并根据接收器1701接收的寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
接收器1701的其他可选实现方式可参考接收模块1601,处理器1702的其他可选实现方式可参考处理模块1602。
该终端设备可用于执行实施例十六提供的方法。
【实施例十四】
图18为本申请实施例十四提供的第三种网络设备的结构示意图。如图所示,该设备包括:
处理模块1801,用于确定第一系统消息,第一系统消息中包括第一指示 信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新;
发送模块1802,用于将处理模块1801确定的第一系统消息在小区内发送;
处理模块1801还用于:确定寻呼消息,寻呼消息中包括与系统消息更新有关的第二指示信息;
发送模块1802还用于:在小区内发送处理模块1801确定的寻呼消息;
其中,小区的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息;第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息。
可选地,发送模块1802发送的寻呼消息中的第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
第三指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
第四指示信息,用于指示相对于最近一次配置版本变化,第二系统消息是否已更新;
一个第五指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
可选地,发送模块1802发送的第二系统消息中包括:第六指示信息和至少一个第七指示信息;
第六指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
一个第七指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
该网络设备的其他可选实现方式可参考实施例三中网络设备301的操作,其中,处理模块1801用于执行网络设备301的处理操作,发送模块1802用于执行网络设备301的发送操作。
处理模块1801可由处理器实现,发送模块1802可由发射器实现。
该网络设备可用于执行实施例十七提供的方法。
【实施例十五】
图19为本申请实施例十五提供的第四种网络设备的结构示意图。如图所示,该设备包括:
处理器1901,用于确定第一系统消息,第一系统消息中包括第一指示信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新;
发射器1902,用于将处理器1901确定的第一系统消息在小区内发送;
处理器1901还用于:确定寻呼消息,寻呼消息中包括与系统消息更新有关的第二指示信息;
发射器1902还用于:在小区内发送处理器1901确定的寻呼消息;
其中,小区的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息;第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息。
处理器1901的其他可选实现方式可参考处理模块1801,发射器1902的其他可选实现方式可参考发送模块1802。
该网络设备可用于执行实施例十七提供的方法。
【实施例十六】
图20为本申请实施例十六提供的第三种系统消息更新方法的流程图。如图所示,该流程包括如下步骤:
S2001:第一终端设备接收所在小区的第一系统消息;小区的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息;第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三 系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息;
S2002:第一终端设备获取第一系统消息中的第一指示信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新;
S2003:若第一指示信息指示与寻呼有关的系统消息未更新,则
第一终端设备按照已记录的与寻呼有关的系统消息,接收寻呼消息;
第一终端设备根据接收的寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
可选地,第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
第三指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
第四指示信息,用于指示相对于最近一次配置版本变化,第二系统消息是否已更新;
一个第五指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
可选地,第一终端设备根据接收的寻呼消息中与系统消息更新有关的第一指示信息进行系统消息更新,包括:
若第三指示信息指示的配置版本与第一终端设备已记录的配置版本相同,则确定无需进行系统消息更新;
若第三指示信息指示的配置版本与第一终端设备已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则:
在第四指示信息指示相对于最近一次配置版本变化,第二系统消息已更新时,第一终端设备更新第二系统消息;
在第四指示信息指示相对于最近一次配置版本变化,第二系统消息未更新时,第一终端设备确定无需更新第二系统消息。
可选地,第一终端设备根据接收的寻呼消息中与系统消息更新有关的第一指示信息进行系统消息更新,还包括:
若第三指示信息指示的配置版本与第一终端设备已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则:
在至少一个第五指示信息中每一个第三指示信息均指示相对于最近一次配置版本变化,对应的第三系统消息并未更新时,第一终端设备确定无需更新至少一个第三系统消息中的任何一个系统消息;
在至少一个第五指示信息中存在一个或多个第五指示信息,指示相对于最近一次配置版本变化,对应的第三系统消息已更新时,第一终端设备针对每一个已更新的第三系统消息进行更新。
可选地,第一终端设备根据接收的寻呼消息中与系统消息更新有关的第一指示信息进行系统消息更新,包括:
若第三指示信息指示的配置版本与第一终端设备已记录的配置版本不同,且两个配置版本中间没有其他不同的配置版本,则:
第一终端设备更新第二系统消息;
第一终端设备按照更新后的第二系统消息中的至少一个第三系统消息的调度信息,更新每一个第三系统消息。
可选地,还包括:
若第一指示信息指示与寻呼有关的系统消息已更新,则第一终端设备更新第二系统消息;
获取第二系统消息中的第六指示信息和至少一个第七指示信息;
第六指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
一个第七指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新;
第一终端设备根据第六指示信息和至少一个第七指示信息进行系统消息更新。
可选地,第一终端设备根据第六指示信息和至少一个第七指示信息进行系统消息更新,包括:
若第六指示信息指示的配置版本与第一终端设备已记录的配置版本不同,但两个配置版本中间没有其他不同的配置版本,则第一终端设备针对至少一个第七指示信息指示的每一个已更新的第三系统消息,对该第三系统消息进行更新;
若第六指示信息指示的配置版本与第一终端设备已记录的配置版本不同,且两个配置版本中间存在其他不同的配置版本,则第一终端设备针对至少一个第三系统消息中的每个系统消息进行更新。
该方法的其他可选实现方式可参考实施例三中终端设备302的操作。
【实施例十七】
图21为本申请实施例十七提供的第四种系统消息更新方法的流程图。如图所示,该流程包括如下步骤:
S2101:网络设备确定第一系统消息,第一系统消息中包括第一指示信息,第一指示信息用于指示与寻呼有关的系统消息是否已更新;
S2102:网络设备将确定的第一系统消息在小区内发送;
S2103:网络设备确定寻呼消息,寻呼消息中包括与系统消息更新有关的第二指示信息;
S2104:网络设备在小区内发送确定的寻呼消息;
其中,小区的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息;第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息。
其中,步骤S2101、步骤S2102这两个步骤,与步骤S2103、步骤S2104两个步骤,它们之间的顺序没有约定,可以先执行前两个步骤,后执行后两 个步骤,也可以先执行后两个步骤,再执行前两个步骤。
可选地,第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
第三指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
第四指示信息,用于指示相对于最近一次配置版本变化,第二系统消息是否已更新;
一个第五指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
可选地,第二系统消息中包括:第六指示信息和至少一个第七指示信息;
第六指示信息,用于指示小区当前使用的第二系统消息和至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,第二系统消息和至少一个第三系统消息中的任何一个或多个系统消息更新,配置版本变化一次;
一个第七指示信息对应于一个第三系统消息,用于指示相对于最近一次配置版本变化,对应的第三系统消息是否已更新。
该方法的其他可选实现方式可参考实施例三中网络设备301的操作。
【实施例十八】
图22为本申请实施例十八提供的第五种终端设备的结构示意图。如图所示,该设备包括:
接收模块2201,用于接收终端设备所在小区的寻呼消息,寻呼消息中包括系统消息更新指示信息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示终端设备所在小区内的终端设备是否需要更新该系统消息;
处理模块2202,用于根据接收模块2201接收的系统消息更新指示信息进行系统消息更新;
其中,第一系统消息周期性发送,且占用的物理资源位置固定;
第二系统消息,包括至少一个第三系统消息的调度信息。
该终端设备的其他可选实现方式可参考实施例四中终端设备302的操作,其中,接收模块2201用于执行终端设备302的接收操作,处理模块2202用于执行终端设备302的处理操作。
接收模块2201可由接收器实现,处理模块2202可由处理器实现。
该终端设备可用于执行实施例二十二提供的方法。
【实施例十九】
图23为本申请实施例十九提供的第六种终端设备的结构示意图。如图所示,该设备包括:
接收器2301,用于接收终端设备所在小区的寻呼消息,寻呼消息中包括系统消息更新指示信息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示终端设备所在小区内的终端设备是否需要更新该系统消息;
处理器2302,用于根据接收器2301接收的系统消息更新指示信息进行系统消息更新;
其中,第一系统消息周期性发送,且占用的物理资源位置固定;
第二系统消息,包括至少一个第三系统消息的调度信息。
接收器2301的其他可选实现方式可参考接收模块2201,处理器2302的其他可选实现方式可参考处理模块2202。
该终端设备可用于执行实施例二十二提供的方法。
【实施例二十】
图24为本申请实施例二十提供的第五种网络设备的结构示意图。如图所示,该设备包括:
处理模块2401,用于确定寻呼消息,寻呼消息中包括系统消息更新指示信息;
发送模块2402,用于在小区内发送处理模块2401确定的寻呼消息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示小区内的终端设备是否需要更新该系统消息;
其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息,包括至少一个第三系统消息的调度信息。
该网络设备的其他可选实现方式可参考实施例四中网络设备301的操作,其中,处理模块2401用于执行网络设备301的处理操作,发送模块2402用于执行网络设备301的发送操作。
该网络设备可用于执行实施例二十三提供的方法。
【实施例二十一】
图25为本申请实施例二十一提供的第六种网络设备的结构示意图。如图所示,该设备包括:
处理器2501,用于确定寻呼消息,寻呼消息中包括系统消息更新指示信息;
发射器2502,用于在小区内发送处理器2501确定的寻呼消息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示小区内的终端设备是否需要更新该系统消息;
其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息,包括至少一个第三系统消息的调度信息。
处理器2501的其他可选实现方式可参考处理模块2401,发射器2502的其他可选实现方式可参考发送模块2402。
该网络设备可用于执行实施例二十三提供的方法。
【实施例二十二】
图26为本申请实施例二十二提供的第五种系统消息更新方法的流程图。如图所示,该流程包括如下步骤:
S2601:第一终端设备接收所在小区的寻呼消息,寻呼消息中包括系统消息更新指示信息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示第一终端设备所在小区内的终端设备是否需要更新该系统消息;
S2602:第一终端设备根据系统消息更新指示信息进行系统消息更新;
其中,第一系统消息周期性发送,且占用的物理资源位置固定;
第二系统消息,包括至少一个第三系统消息的调度信息。
该方法的其他可选实现方式可参考实施例四中终端设备302的处理。
【实施例二十三】
图27为本申请实施例二十三提供的第六种系统消息更新方法的流程图。如图所示,该流程包括如下步骤:
S2701:网络设备确定寻呼消息,寻呼消息中包括系统消息更新指示信息;
S2702:网络设备在小区内发送寻呼消息;
系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示小区内的终端设备是否需要更新该系统消息;
其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息,包括至少一个第三系统消息的调度信息。
该方法的其他可选实现方式可参考实施例四中网络设备301的处理。
【实施例二十四】
图28为本申请实施例二十四提供的第七种终端设备的结构示意图。如图所示,该设备包括:
处理模块2801:,用于确定终端设备需要接收至少一个系统消息,并对于至少一个系统消息中的每一个系统消息,确定网络设备发送该系统消息的起 始位置、发送周期和重复次数;
接收模块2802,用于对于至少一个系统消息中的每一个系统消息,按照处理模块2801确定的网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括网络设备发送的其他一个或多个系统消息。
该终端设备的其他可选实现方式可参考实施例五中终端设备302的操作,其中,处理模块2801用于执行终端设备302的处理操作,接收模块2802用于执行终端设备302的接收操作。
处理模块2801可由处理器实现,接收模块2802可由接收器实现。
该终端设备可用于执行实施例二十八提供的方法。
【实施例二十五】
图29为本申请实施例二十五提供的第八种终端设备的结构示意图。如图所示,该设备包括:
处理器2901,用于确定终端设备需要接收至少一个系统消息,并对于至少一个系统消息中的每一个系统消息,确定网络设备发送该系统消息的起始位置、发送周期和重复次数;
接收器2902,用于对于至少一个系统消息中的每一个系统消息,按照处理器2901确定的网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括网络设备发送的其他一个或多个系统消息。
处理器2901的其他可选实现方式可参考处理模块2801,接收器2902的其他可选实现方式可参考接收模块2802。
该终端设备可用于执行实施例二十八提供的方法。
【实施例二十六】
图30为本申请实施例二十六提供的第七种网络设备的结构示意图。如图 所示,该设备包括:
处理模块3001,用于确定网络设备需要发送至少一个系统消息,并且对于确定的至少一个系统消息中的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数;
发送模块3002,用于针对处理模块3001确定的至少一个系统消息中的每一个系统消息,按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
该网络设备的其他可选实现方式可参考实施例五中网络设备301,其中,处理模块3001用于执行网络设备301的处理操作,发送模块3002用于执行网络设备301的发送操作。
处理模块3001可由处理器实现,发送模块3002可由发射器实现。
该网络设备可用于执行实施例二十九提供的方法。
【实施例二十七】
图31为本申请实施例二十七提供的第八种网络设备的结构示意图。如图所示,该设备包括:
处理器3101,用于确定网络设备需要发送至少一个系统消息,并且对于确定的至少一个系统消息中的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数;
发射器3102,用于针对处理器3101确定的至少一个系统消息中的每一个系统消息,按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
处理器3001的其他可选实现方式可参考处理模块3001,发射器3002的其他可选实现方式可参考发送模块3002。
该网络设备可用于执行实施例二十九提供的方法。
【实施例二十八】
图32为本申请实施例二十八提供的第七种系统消息传输方法的流程图。如图所示,该流程包括如下步骤:
S3201:第一终端设备确定需要接收至少一个系统消息;
S3202:对于至少一个系统消息中的每一个系统消息,第一终端设备确定网络设备发送该系统消息的起始位置、发送周期和重复次数;
S3203:对于至少一个系统消息中的每一个系统消息,第一终端设备按照确定的网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括网络设备发送的其他一个或多个系统消息。
该方法的其他可选实现方式可参考实施例五中终端设备302的操作。
【实施例二十九】
图33为本申请实施例二十九提供的第八种系统消息传输方法的流程图。如图所示,该流程包括如下步骤:
S3301:网络设备确定需要发送至少一个系统消息;
S3302:对于至少一个系统消息中的每一个系统消息,网络设备确定该系统消息的发送的起始位置、发送周期和重复次数;
S3303:对于至少一个系统消息中的每一个系统消息,网络设备按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
该方法的其他可选实现方式可参考实施例五中网络设备301的操作。
综上,一方面,本申请提供一种更新系统消息的方案,该方案中,网络设备在发送的第一系统消息中携带指示信息,终端设备在收到该第一系统消息后,根据该指示信息对除了第一系统消息之外的其他系统消息进行更新; 其中,第一系统消息周期性发送,且占用的物理资源位置固定。
该方案中,指示信息是在第一系统消息中发送的,而不是在寻呼消息中发送,终端设备可根据该指示信息对除了第一系统消息之外的其他系统消息进行更新,从而实现对所有系统消息的更新。与目前通过寻呼消息获知系统消息变更的方案相比,避免了终端设备的DRX周期大于系统消息变更周期,终端设备可能无法收到用于指示系统消息变更的寻呼消息,因此无法实现系统消息的更新的问题。
另一方面,本申请提供另一种更新系统消息的方案,该方案中,网络设备在发送的系统消息包括:第一系统消息、第二系统消息和至少一个第三系统消息,其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息包括至少一个第三系统消息的调度信息;至少一个第三系统消息中包括与寻呼有关的系统消息;其中,网络设备在发送第一系统消息时,携带指示信息,该指示信息用于指示第三系统消息中与寻呼有关的系统消息是否已更新。若指示信息指示与寻呼有关的系统消息未更新,则终端设备按照已记录的所述与寻呼有关的系统消息,接收寻呼消息,并根据接收的寻呼消息中与系统消息更新有关的指示信息进行系统消息更新。
该方案中,由于网络设备在周期性发送的第一系统消息中指示与寻呼有关的系统消息是否已更新,如果没有更新,则终端设备仍可以按照已记录的与寻呼有关的系统消息来正常接收寻呼消息,进而从寻呼消息中获得与系统消息更新有关的指示信息,并按照从寻呼消息中获得的该指示信息更新系统消息。这样,即使DRX周期大于系统消息更新周期,由于已知与寻呼消息有关的系统消息未更新,则终端设备仍能按照已记录的与寻呼有关的系统消息正确接收寻呼消息,从而能够成功地从寻呼消息中获得与系统消息更新有关的指示信息,进而能够成功更新系统消息。
再一方面,本申请提供再一种更新系统消息的方案,该方案针对能够正常接收寻呼消息的场景,比如:系统消息更新周期为DRX周期的整数倍。该方案中,网络设备在发送寻呼消息时,寻呼消息中携带的系统消息更新指示 信息分别针对第一系统消息、第二系统消息、至少一个第三系统消息,指示第一终端设备是否需要更新该系统消息;终端设备根据系统消息更新指示信息进行系统消息更新;其中,第一系统消息周期性发送,且占用的物理资源位置固定;第二系统消息,包括至少一个第三系统消息和的调度信息。
该方案中,通过在寻呼消息携带针对每一个系统消息的指示信息,该指示信息用于指示对应的系统消息是否需要更新,终端设备可根据各个指示信息的具体情况,确定如何进行系统消息更新。比如:第二系统消息的指示信息指示第二系统消息无需更新,则终端设备在进行至少一个第三系统消息更新时,仅需根据已记录的第二系统消息进行更新,无需再重新读取第二系统消息,提高了终端设备更新系统消息的效率。
又一方面,本申请提供一种系统消息的发送方案,网络设备在发送一个系统消息时,在整个系统消息的两次发送之间的时间间隔内,发送其他一个或多个系统消息。
目前,每一个系统消息只能在一个SI窗口(SI-window)中发送,在该系统消息窗中可以发送多次,一个系统消息的SI窗口和另一个系统消息的SI窗口相邻,但一个SI窗中仅能发送一个系统消息,终端设备在一个SI窗口中收到系统消息后,必须要等到下一个SI窗口收下一个系统消息。而本申请提供的该方案中,由于在一个系统消息的两次重复发送过程中,网络设备还发送其他系统消息,这样终端设备在收完一个系统消息后,无需等待系统消息窗的到来,可以收其他系统消息,提高了系统消息更新的效率。
本领域内的技术人员应明白,本发明的实施例可提供为方法、系统、或计算机程序产品。因此,本发明可采用完全硬件实施例、完全软件实施例、或结合软件和硬件方面的实施例的形式。而且,本发明可采用在一个或多个其中包含有计算机可用程序代码的计算机可用存储介质(包括但不限于磁盘存储器、CD-ROM、光学存储器等)上实施的计算机程序产品的形式。
本发明是参照根据本发明实施例的方法、设备(系统)、和计算机程序产品的流程图和/或方框图来描述的。应理解可由计算机程序指令实现流程图 和/或方框图中的每一流程和/或方框、以及流程图和/或方框图中的流程和/或方框的结合。可提供这些计算机程序指令到通用计算机、专用计算机、嵌入式处理机或其他可编程数据处理设备的处理器以产生一个机器,使得通过计算机或其他可编程数据处理设备的处理器执行的指令产生用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的装置。
这些计算机程序指令也可存储在能引导计算机或其他可编程数据处理设备以特定方式工作的计算机可读存储器中,使得存储在该计算机可读存储器中的指令产生包括指令装置的制造品,该指令装置实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能。
这些计算机程序指令也可装载到计算机或其他可编程数据处理设备上,使得在计算机或其他可编程设备上执行一系列操作步骤以产生计算机实现的处理,从而在计算机或其他可编程设备上执行的指令提供用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的步骤。
尽管已描述了本发明的优选实施例,但本领域内的技术人员一旦得知了基本创造性概念,则可对这些实施例做出另外的变更和修改。所以,所附权利要求意欲解释为包括优选实施例以及落入本发明范围的所有变更和修改。
显然,本领域的技术人员可以对本发明实施例进行各种改动和变型而不脱离本发明实施例的精神和范围。这样,倘若本发明实施例的这些修改和变型属于本发明权利要求及其等同技术的范围之内,则本发明也意图包含这些改动和变型在内。

Claims (54)

  1. 一种终端设备,其特征在于,包括:
    接收模块,用于接收所述终端设备所在小区的第一系统消息;
    处理模块,用于获取所述接收模块接收的所述第一系统消息中的第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;并根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
  2. 如权利要求1所述的终端设备,其特征在于,所述处理模块更新的除了所述第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,所述至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
    所述第二系统消息,包括所述至少两个第三系统消息的调度信息;
    所述激活类第三系统消息,包括所述小区的特定功能激活时所述小区内的终端设备需要获取的系统消息;所述常规类第三系统消息为所述至少两个第三系统消息中除了激活类第三系统消息之外的其他所述第三系统消息。
  3. 如权利要求2所述的终端设备,其特征在于,所述处理模块具体用于:在所述第一指示信息包括:第二指示信息,所述第二指示信息用于指示所述小区当前使用的所述第二系统消息和所述至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个常规类第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次时,
    若所述第二指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,则更新所述第二系统消息;
    若所述第二指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本相同,则确定无需更新所述第二系统消息。
  4. 如权利要求3所述的终端设备,其特征在于,所述处理模块具体用于:
    在所述第二系统消息中包括至少一个第三指示信息,一个所述第三指示信息对应于一个所述常规类第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息是否已更新时,在更新所述第二系统消息之后,从所述第二系统消息中获取所述至少一个第三指示信息;
    若所述第二指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,但两个所述配置版本中间不存在其他不同的所述配置版本,则执行如下操作:
    若所述至少一个第三指示信息中每一个所述第三指示信息均指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息并未更新,则确定无需更新所述至少一个常规类第三系统消息中的任何一个系统消息;
    若所述至少一个第三指示信息中存在一个或多个所述第三指示信息,指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息已更新,则针对每一个已更新的所述常规类第三系统消息,按照更新后的所述第二系统消息中该常规类第三系统消息的调度信息,控制所述接收模块读取该常规类第三系统消息。
  5. 如权利要求4所述的终端设备,其特征在于,所述处理模块具体用于:
    若所述第二指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本中间存在其他不同的所述配置版本,则
    针对每一个所述常规类第三系统消息,按照更新后的所述第二系统消息中该常规类第三系统消息的调度信息,控制所述接收模块读取该常规类第三系统消息。
  6. 如权利要求2~5任一项所述的终端设备,其特征在于,所述处理模块具体用于:
    在所述第一指示信息还包括:至少一个第四指示信息,一个所述第四指示信息对应于一个所述激活类第三系统消息,用于指示所述小区内的终端设备是否需要更新对应的所述激活类第三系统消息时,
    若所述第四指示信息指示所述小区内的终端设备需要更新对应的所述激活类第三系统消息,则更新对应的所述激活类第三系统消息;
    若所述第四指示信息指示所述小区内的终端设备无需更新对应的所述激活类第三系统消息,则确定无需更新对应的所述激活类第三系统消息。
  7. 一种网络设备,其特征在于,包括:
    处理模块,用于确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
    发送模块,用于将所述处理模块确定的所述第一系统消息在小区内发送;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
  8. 如权利要求7所述的网络设备,其特征在于,所述发送模块还用于:
    在所述小区中发送除了所述第一系统消息之外的其他系统消息;
    除了所述第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,所述至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
    所述第二系统消息,包括所述至少两个第三系统消息的调度信息;
    所述激活类第三系统消息,包括所述小区的特定功能激活时所述小区内的终端设备需要获取的系统消息;所述常规类第三系统消息为所述至少两个第三系统消息中除了所述激活类第三系统消息之外的其他所述第三系统消息。
  9. 如权利要求8所述的网络设备,其特征在于,所述发送模块发送的所述第一指示信息包括:第二指示信息;
    所述第二指示信息用于指示所述小区当前使用的所述第二系统消息和所述至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个常规类第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次。
  10. 如权利要求9所述的网络设备,其特征在于,所述发送模块发送的 所述第二系统消息中包括至少一个第三指示信息;
    一个所述第三指示信息对应于一个所述常规类第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息是否已更新。
  11. 如权利要求8~10任一项所述的网络设备,其特征在于,所述发送模块发送的所述第一指示信息还包括:至少一个第四指示信息;
    一个所述第四指示信息对应于一个所述激活类第三系统消息,用于指示所述小区内的终端设备是否需要更新对应的所述激活类第三系统消息。
  12. 一种更新系统消息的方法,其特征在于,包括:
    第一终端设备接收所在小区的第一系统消息;
    所述第一终端设备从所述第一系统消息中获取第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
    所述第一终端设备根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
  13. 如权利要求12所述的方法,其特征在于,除了所述第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,所述至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
    所述第二系统消息,包括所述至少两个第三系统消息的调度信息;
    所述激活类第三系统消息,包括所述小区的特定功能激活时所述小区内的终端设备需要获取的系统消息;所述常规类第三系统消息为所述至少两个第三系统消息中除了激活类第三系统消息之外的其他所述第三系统消息。
  14. 如权利要求13所述的方法,其特征在于,所述第一指示信息包括:第二指示信息;
    所述第二指示信息用于指示所述小区当前使用的所述第二系统消息和所述至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周 期内,所述第二系统消息和所述至少一个常规类第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    所述第一终端设备根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,包括:
    若所述第二指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,则所述第一终端设备更新所述第二系统消息;
    若所述第二指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本相同,则所述第一终端设备确定无需更新所述第二系统消息。
  15. 如权利要求14所述的方法,其特征在于,所述第二系统消息中包括至少一个第三指示信息,一个所述第三指示信息对应于一个所述常规类第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息是否已更新;
    在所述第一终端设备更新所述第二系统消息之后,还包括:所述第一终端设备从所述第二系统消息中获取所述至少一个第三指示信息;
    所述第一终端设备根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,还包括:
    若所述第二指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,但两个所述配置版本中间不存在其他不同的所述配置版本,则所述第一终端设备执行如下操作:
    若所述至少一个第三指示信息中每一个所述第三指示信息均指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息并未更新,则确定无需更新所述至少一个常规类第三系统消息中的任何一个系统消息;
    若所述至少一个第三指示信息中存在一个或多个所述第三指示信息,指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息已更新,则针对每一个已更新的所述常规类第三系统消息,按照更新后的所述第二系统消息中该常规类第三系统消息的调度信息,读取该常规类第三系统消息。
  16. 如权利要求15所述的方法,其特征在于,所述第一终端设备根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,还包括:
    若所述第二指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本中间存在其他不同的所述配置版本,则所述第一终端设备针对每一个所述常规类第三系统消息,按照更新后的所述第二系统消息中该常规类第三系统消息的调度信息,读取该常规类第三系统消息。
  17. 如权利要求13~16任一项所述的方法,其特征在于,所述第一指示信息还包括:至少一个第四指示信息,一个所述第四指示信息对应于一个所述激活类第三系统消息,用于指示所述小区内的终端设备是否需要更新对应的所述激活类第三系统消息;
    所述第一终端设备根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新,还包括:
    若所述第四指示信息指示所述小区内的终端设备需要更新对应的所述激活类第三系统消息,则所述第一终端设备更新对应的所述激活类第三系统消息;
    若所述第四指示信息指示所述小区内的终端设备无需更新对应的所述激活类第三系统消息,则所述第一终端设备确定无需更新对应的所述激活类第三系统消息。
  18. 一种更新系统消息的方法,其特征在于,包括:
    网络设备确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息之外的其他系统消息的信息;
    所述网络设备将确定的所述第一系统消息在小区内发送;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
  19. 如权利要求18所述的方法,其特征在于,还包括:
    所述网络设备在所述小区中发送除了所述第一系统消息之外的其他系统 消息;
    除了所述第一系统消息之外的其他系统消息包括:第二系统消息,至少两个第三系统消息,所述至少两个第三系统消息包括至少一个常规类第三系统消息和至少一个激活类第三系统消息;
    所述第二系统消息,包括所述至少两个第三系统消息的调度信息;
    所述激活类第三系统消息,包括所述小区的特定功能激活时所述小区内的终端设备需要获取的系统消息;所述常规类第三系统消息为所述至少两个第三系统消息中除了所述激活类第三系统消息之外的其他所述第三系统消息。
  20. 如权利要求19所述的方法,其特征在于,所述第一指示信息包括:第二指示信息;
    所述第二指示信息用于指示所述小区当前使用的所述第二系统消息和所述至少一个常规类第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个常规类第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次。
  21. 如权利要求20所述的方法,其特征在于,所述第二系统消息中包括至少一个第三指示信息;
    一个所述第三指示信息对应于一个所述常规类第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述常规类第三系统消息是否已更新。
  22. 如权利要求19~21任一项所述的方法,其特征在于,所述第一指示信息还包括:至少一个第四指示信息;
    一个所述第四指示信息对应于一个所述激活类第三系统消息,用于指示所述小区内的终端设备是否需要更新对应的所述激活类第三系统消息。
  23. 一种无线通信系统,其特征在于,包括:
    网络设备,用于在小区内发送所述第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息包括用于更新除了所述第一系统消息 之外的其他系统消息的信息;
    终端设备,用于接收所述网络设备发送的所述第一系统消息,从所述第一系统消息中获取第一指示信息,根据获取的所述第一指示信息,针对除了第一系统消息之外的其他系统消息进行更新;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定。
  24. 一种终端设备,其特征在于,包括:
    接收模块,用于接收所述终端设备所在小区的第一系统消息;所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息;
    处理模块,用于获取所述接收模块接收的所述第一系统消息中的第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;以及若所述第一指示信息指示所述与寻呼有关的系统消息未更新,则控制所述接收模块按照已记录的所述与寻呼有关的系统消息接收寻呼消息,并根据所述接收模块接收的所述寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
  25. 如权利要求24所述的终端设备,其特征在于,所述接收模块接收的所述第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
    所述第三指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    所述第四指示信息,用于指示相对于最近一次所述配置版本变化,所述第二系统消息是否已更新;
    一个所述第五指示信息对应于一个所述第三系统消息,用于指示相对于 最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
  26. 如权利要求25所述的终端设备,其特征在于,所述处理模块具体用于:
    若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本相同,则确定无需进行系统消息更新;
    若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则在所述第四指示信息指示相对于最近一次所述配置版本变化,所述第二系统消息已更新时,更新所述第二系统消息;在所述第四指示信息指示相对于最近一次所述配置版本变化,所述第二系统消息未更新时,确定无需更新所述第二系统消息。
  27. 如权利要求26所述的终端设备,其特征在于,所述处理模块具体用于:
    若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则:
    在所述至少一个第五指示信息中每一个所述第三指示信息均指示相对于最近一次所述配置版本变化,对应的所述第三系统消息并未更新时,确定无需更新所述至少一个第三系统消息中的任何一个系统消息;
    在所述至少一个第五指示信息中存在一个或多个所述第五指示信息,指示相对于最近一次所述配置版本变化,对应的所述第三系统消息已更新时,针对每一个已更新的所述第三系统消息进行更新。
  28. 如权利要求25所述的终端设备,其特征在于,所述处理模块具体用于:
    若所述第三指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,且两个所述配置版本中间没有其他不同的所述配置版本,则:
    更新所述第二系统消息;以及
    按照更新后的所述第二系统消息中的所述至少一个第三系统消息的调度 信息,更新每一个所述第三系统消息。
  29. 如权利要求24~28任一项所述的终端设备,其特征在于,所述处理模块还用于:
    若所述第一指示信息指示所述与寻呼有关的系统消息已更新,则更新所述第二系统消息;
    获取所述第二系统消息中的第六指示信息和至少一个第七指示信息;所述第六指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;一个所述第七指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新;
    根据所述第六指示信息和所述至少一个第七指示信息进行系统消息更新。
  30. 如权利要求29所述的终端设备,其特征在于,所述处理模块具体用于:
    若所述第六指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则针对所述至少一个第七指示信息指示的每一个已更新的所述第三系统消息,对该第三系统消息进行更新;
    若所述第六指示信息指示的所述配置版本与所述终端设备已记录的所述配置版本不同,且两个所述配置版本中间存在其他不同的所述配置版本,则针对所述至少一个第三系统消息中的每个系统消息进行更新。
  31. 一种网络设备,其特征在于,包括:
    处理模块,用于确定第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;
    发送模块,用于将所述处理模块确定的所述第一系统消息在小区内发送;
    所述处理模块还用于:确定寻呼消息,所述寻呼消息中包括与系统消息更新有关的第二指示信息;
    所述发送模块还用于:在所述小区内发送所述处理模块确定的所述寻呼消息;
    其中,所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息。
  32. 如权利要求31所述的网络设备,其特征在于,所述发送模块发送的所述寻呼消息中的所述第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
    所述第三指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    所述第四指示信息,用于指示相对于最近一次所述配置版本变化,所述第二系统消息是否已更新;
    一个所述第五指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
  33. 如权利要求31或32所述的网络设备,其特征在于,所述发送模块发送的所述第二系统消息中包括:第六指示信息和至少一个第七指示信息;
    所述第六指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    一个所述第七指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
  34. 一种更新系统消息的方法,其特征在于,包括:
    第一终端设备接收所在小区的第一系统消息;所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息;
    所述第一终端设备获取所述第一系统消息中的第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;
    若所述第一指示信息指示所述与寻呼有关的系统消息未更新,则
    所述第一终端设备按照已记录的所述与寻呼有关的系统消息,接收寻呼消息;
    所述第一终端设备根据接收的所述寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新。
  35. 如权利要求34所述的方法,其特征在于,所述第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
    所述第三指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    所述第四指示信息,用于指示相对于最近一次所述配置版本变化,所述第二系统消息是否已更新;
    一个所述第五指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
  36. 如权利要求35所述的方法,其特征在于,所述第一终端设备根据接收的所述寻呼消息中与系统消息更新有关的第一指示信息进行系统消息更新,包括:
    若所述第三指示信息指示的所述配置版本与所述第一终端设备已记录的 所述配置版本相同,则确定无需进行系统消息更新;
    若所述第三指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则:
    在所述第四指示信息指示相对于最近一次所述配置版本变化,所述第二系统消息已更新时,所述第一终端设备更新所述第二系统消息;
    在所述第四指示信息指示相对于最近一次所述配置版本变化,所述第二系统消息未更新时,所述第一终端设备确定无需更新所述第二系统消息。
  37. 如权利要求36所述的方法,其特征在于,所述第一终端设备根据接收的所述寻呼消息中与系统消息更新有关的第一指示信息进行系统消息更新,还包括:
    若所述第三指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则:
    在所述至少一个第五指示信息中每一个所述第三指示信息均指示相对于最近一次所述配置版本变化,对应的所述第三系统消息并未更新时,所述第一终端设备确定无需更新所述至少一个第三系统消息中的任何一个系统消息;
    在所述至少一个第五指示信息中存在一个或多个所述第五指示信息,指示相对于最近一次所述配置版本变化,对应的所述第三系统消息已更新时,所述第一终端设备针对每一个已更新的所述第三系统消息进行更新。
  38. 如权利要求35所述的方法,其特征在于,所述第一终端设备根据接收的所述寻呼消息中与系统消息更新有关的第一指示信息进行系统消息更新,包括:
    若所述第三指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,且两个所述配置版本中间没有其他不同的所述配置版本,则:
    所述第一终端设备更新所述第二系统消息;
    所述第一终端设备按照更新后的所述第二系统消息中的所述至少一个第三系统消息的调度信息,更新每一个所述第三系统消息。
  39. 如权利要求34~38任一项所述的方法,其特征在于,还包括:
    若所述第一指示信息指示所述与寻呼有关的系统消息已更新,则所述第一终端设备更新所述第二系统消息;
    获取所述第二系统消息中的第六指示信息和至少一个第七指示信息;
    所述第六指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    一个所述第七指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新;
    所述第一终端设备根据所述第六指示信息和所述至少一个第七指示信息进行系统消息更新。
  40. 如权利要求39所述的方法,其特征在于,所述第一终端设备根据所述第六指示信息和所述至少一个第七指示信息进行系统消息更新,包括:
    若所述第六指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,但两个所述配置版本中间没有其他不同的所述配置版本,则所述第一终端设备针对所述至少一个第七指示信息指示的每一个已更新的所述第三系统消息,对该第三系统消息进行更新;
    若所述第六指示信息指示的所述配置版本与所述第一终端设备已记录的所述配置版本不同,且两个所述配置版本中间存在其他不同的所述配置版本,则所述第一终端设备针对所述至少一个第三系统消息中的每个系统消息进行更新。
  41. 一种更新系统消息的方法,其特征在于,包括:
    网络设备确定第一系统消息,所述第一系统消息中包括第一指示信息, 所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;
    所述网络设备将确定的所述第一系统消息在小区内发送;
    所述网络设备确定寻呼消息,所述寻呼消息中包括与系统消息更新有关的第二指示信息;
    所述网络设备在所述小区内发送确定的所述寻呼消息;
    其中,所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息。
  42. 如权利要求41所述的方法,其特征在于,所述第二指示信息包括:第三指示信息、第四指示信息和至少一个第五指示信息;
    所述第三指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    所述第四指示信息,用于指示相对于最近一次所述配置版本变化,所述第二系统消息是否已更新;
    一个所述第五指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
  43. 如权利要求41或42所述的方法,其特征在于,所述第二系统消息中包括:第六指示信息和至少一个第七指示信息;
    所述第六指示信息,用于指示所述小区当前使用的所述第二系统消息和所述至少一个第三系统消息的组合的配置版本,在一个系统消息更新周期内,所述第二系统消息和所述至少一个第三系统消息中的任何一个或多个系统消息更新,所述配置版本变化一次;
    一个所述第七指示信息对应于一个所述第三系统消息,用于指示相对于最近一次所述配置版本变化,对应的所述第三系统消息是否已更新。
  44. 一种无线通信系统,其特征在于,包括:
    网络设备,用于在小区内发送第一系统消息,所述第一系统消息中包括第一指示信息,所述第一指示信息用于指示所述与寻呼有关的系统消息是否已更新;以及在所述小区内发送寻呼消息,所述寻呼消息中包括与系统消息更新有关的第二指示信息;
    终端设备,用于接收所述网络设备在所述小区内发送的第一系统消息,获取所述第一系统消息中的所述第一指示信息,若所述第一指示信息指示所述与寻呼有关的系统消息未更新,则按照已记录的所述与寻呼有关的系统消息,接收寻呼消息,并根据接收的所述寻呼消息中与系统消息更新有关的第二指示信息进行系统消息更新;
    所述小区的系统消息包括:所述第一系统消息、第二系统消息和至少一个第三系统消息;所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息包括所述至少一个第三系统消息的调度信息;所述至少一个第三系统消息中包括与寻呼有关的系统消息。
  45. 一种终端设备,其特征在于,包括:
    接收模块,用于接收所述终端设备所在小区的寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
    所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述终端设备所在小区内的终端设备是否需要更新该系统消息;
    处理模块,用于根据所述接收模块接收的所述系统消息更新指示信息进行系统消息更新;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;
    所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
  46. 一种网络设备,其特征在于,包括:
    处理模块,用于确定寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
    发送模块,用于在小区内发送所述处理模块确定的所述寻呼消息;
    所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述小区内的终端设备是否需要更新该系统消息;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
  47. 一种更新系统消息的方法,其特征在于,包括:
    第一终端设备接收所在小区的寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
    所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述第一终端设备所在小区内的终端设备是否需要更新该系统消息;
    所述第一终端设备根据所述系统消息更新指示信息进行系统消息更新;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;
    所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
  48. 一种更新系统消息的方法,其特征在于,包括:
    网络设备确定寻呼消息,所述寻呼消息中包括系统消息更新指示信息;
    所述网络设备在小区内发送所述寻呼消息;
    所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所述小区内的终端设备是否需要更新该系统消息;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
  49. 一种无线通信系统,其特征在于,包括:
    网络设备,用于在小区内发送所述寻呼消息,所述寻呼消息中包括系统消息更新指示信息;所述系统消息更新指示信息中包括:分别针对第一系统消息、第二系统消息和至少一个第三系统消息中的每一个系统消息,指示所 述小区内的终端设备是否需要更新该系统消息;
    第一终端设备,用于接收所述我在所述小区内发送的所述寻呼消息,并根据所述系统消息更新指示信息进行系统消息更新;
    其中,所述第一系统消息周期性发送,且占用的物理资源位置固定;所述第二系统消息,包括所述至少一个第三系统消息的调度信息。
  50. 一种终端设备,其特征在于,包括:
    处理模块,用于确定所述终端设备需要接收至少一个系统消息,并对于所述至少一个系统消息中的每一个系统消息,确定网络设备发送该系统消息的起始位置、发送周期和重复次数;
    接收模块,用于对于所述至少一个系统消息中的每一个系统消息,按照所述处理模块确定的所述网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
    其中,一个系统消息的两次发送之间的时间间隔内,包括所述网络设备发送的其他一个或多个系统消息。
  51. 一种网络设备,其特征在于,包括:
    处理模块,用于确定所述网络设备需要发送至少一个系统消息,并且对于确定的所述至少一个系统消息中的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数;
    发送模块,用于针对所述处理模块确定的所述至少一个系统消息中的每一个系统消息,按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
    其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
  52. 一种系统消息的接收方法,其特征在于,包括:
    第一终端设备确定需要接收至少一个系统消息;
    对于所述至少一个系统消息中的每一个系统消息,所述第一终端设备确定网络设备发送该系统消息的起始位置、发送周期和重复次数;
    对于所述至少一个系统消息中的每一个系统消息,所述第一终端设备按照确定的所述网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
    其中,一个系统消息的两次发送之间的时间间隔内,包括所述网络设备发送的其他一个或多个系统消息。
  53. 一种系统消息的发送方法,其特征在于,包括:
    网络设备确定需要发送至少一个系统消息;
    对于所述至少一个系统消息中的每一个系统消息,所述网络设备确定该系统消息的发送的起始位置、发送周期和重复次数;
    对于所述至少一个系统消息中的每一个系统消息,所述网络设备按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
    其中,一个系统消息的两次发送之间的时间间隔内,包括发送的其他一个或多个系统消息。
  54. 一种无线通信系统,其特征在于,包括:
    网络设备,用于针对要发送的至少一个系统消息中的每一个系统消息,确定该系统消息的发送的起始位置、发送周期和重复次数,并按照确定该系统消息的发送的起始位置、发送周期和重复次数,发送该系统消息;
    终端设备,用于针对要接收的所述网络设备发送的至少一个系统消息中的每一个系统消息,确定所述网络设备发送该系统消息的起始位置、发送周期和重复次数,并按照确定的所述网络设备发送该系统消息的起始位置、发送周期和重复次数,接收该系统消息;
    其中,一个系统消息的两次发送之间的时间间隔内,包括所述网络设备发送的其他一个或多个系统消息。
PCT/CN2015/094062 2015-11-06 2015-11-06 系统消息传输装置、方法和系统 WO2017075835A1 (zh)

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