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WO2020200029A1 - 资源配置的方法、装置、用户设备、基站及存储介质 - Google Patents

资源配置的方法、装置、用户设备、基站及存储介质 Download PDF

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Publication number
WO2020200029A1
WO2020200029A1 PCT/CN2020/081372 CN2020081372W WO2020200029A1 WO 2020200029 A1 WO2020200029 A1 WO 2020200029A1 CN 2020081372 W CN2020081372 W CN 2020081372W WO 2020200029 A1 WO2020200029 A1 WO 2020200029A1
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WO
WIPO (PCT)
Prior art keywords
resource
group
transmission
transmission resource
information
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Application number
PCT/CN2020/081372
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English (en)
French (fr)
Inventor
邓一伟
李儒岳
郝鹏
韩祥辉
Original Assignee
中兴通讯股份有限公司
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Application filed by 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Publication of WO2020200029A1 publication Critical patent/WO2020200029A1/zh

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    • 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

Definitions

  • This application relates to a wireless communication network, for example, to a method, device, user equipment, base station, and storage medium for resource configuration.
  • the new generation mobile communication system supports the configuration of scheduling-free resources for user equipment (UE, User Equipment).
  • UE User Equipment
  • the configuration requirements of resources in different application scenarios of the user equipment are generally different.
  • Potential application scenarios for resource configuration include the following: 1.
  • the same UE has multiple service requirements for Quality of Service (QoS). 2.
  • QoS Quality of Service
  • 2. Ensure the reliability and delay performance of the same service of the same UE.
  • 3. Support inter-UE multiplexing scenarios to avoid resource collisions between UEs.
  • the time-frequency resource size, modulation and coding strategy (MCS, Modulation and Coding Scheme) transmission period and other parameters configured for the UE may be the same.
  • MCS modulation and coding strategy
  • each time a set of resources is configured for the UE a signaling is sent to activate the configured resources.
  • the signaling overhead is relatively large.
  • the physical downlink control channel ( PDCCH, Physical Downlink Control Channel) blocking rate is relatively large.
  • the embodiment of the present application provides a resource configuration method, including:
  • configuration information includes parameter configuration information of multiple sets of transmission resources allocated to the receiving side;
  • the activation information of the transmission resource is sent to the receiving side, where the activation information includes an identifier of the transmission resource that needs to be activated, and the identifier of the activated transmission resource is used to activate the transmission resource.
  • the embodiment of the present application provides a resource configuration method, including:
  • configuration information of transmission resources sent by the transmitting side where the configuration information includes parameter configuration information of multiple sets of transmission resources allocated to the receiving side;
  • An embodiment of the present application provides a resource configuration device, including:
  • the first sending module is configured to send configuration information of transmission resources to the receiving side, where the configuration information includes parameter configuration information of multiple sets of transmission resources allocated to the receiving side;
  • the second sending module is configured to send activation information of a transmission resource to the receiving side, where the activation information includes an identifier of a transmission resource that needs to be activated, and the identifier of the activated transmission resource is used to activate the transmission resource.
  • An embodiment of the present application provides a resource configuration device, including:
  • the first receiving module is configured to receive configuration information of transmission resources sent by the transmitting side, where the configuration information includes parameter configuration information of multiple sets of transmission resources allocated to the receiving side;
  • the second receiving module is configured to receive activation information of the transmission resource sent by the transmitting side, where the activation information includes the identification of the transmission resource that needs to be activated;
  • the activation module is used to activate the transmission resource by using the identifier.
  • An embodiment of the present application provides a data transmission base station, including: a processor and a memory;
  • the memory is set to store instructions
  • the processor is configured to read the instruction to execute the method for resource configuration on the transmitting side in the embodiment of the present application.
  • An embodiment of the application provides a user equipment for data transmission, including: a processor and a memory;
  • the memory is set to store instructions
  • the processor is configured to read the instruction to execute the resource configuration method on the receiving side in the embodiment of the present application.
  • An embodiment of the present application provides a storage medium that stores a computer program, and when the computer program is executed by a processor, any one of the methods in the embodiments of the present application is implemented.
  • the solution provided by the embodiment of the present application can perform grouping at the same time when multiple sets of transmission resources are configured for the receiving side.
  • the activation information carries the identification of the transmission resource, and a set of transmission resources or multiple sets of transmission resources in a group can be activated to realize the accurate activation of multiple sets of transmission resources.
  • this application can activate multiple sets of transmission resources in a group, reducing the overhead of resource configuration and activation process.
  • Figures 1-1 to 1-3 are schematic diagrams of embodiments of the collection of transmission resources provided by this application;
  • Figure 2 is a schematic diagram of an embodiment of the relationship between Inter-UE multiplexed transmission resources provided by this application;
  • 3 to 8 are schematic flowcharts of embodiments of the resource configuration method provided by this application.
  • 9-1 to 9-4 are schematic diagrams of embodiments of the interaction process between a base station and user equipment provided by this application;
  • FIG. 10 and FIG. 11 are schematic structural diagrams of an embodiment of a resource configuration device provided by this application.
  • FIG. 12 is a schematic structural diagram of an embodiment of a base station for resource configuration provided by this application.
  • FIG. 13 is a schematic structural diagram of an embodiment of user equipment for resource configuration provided by this application.
  • FIG. 14 is a schematic structural diagram of an embodiment of the communication system provided by this application.
  • Scenario 1 Ensure the reliability and delay of the same service of the same UE.
  • the base station When configuring and activating a set of transmission resources for the same service of the same UE, the arrival time sequence (Time Order n, TOn) at this time lags behind the first time sequence (TO1) due to the lag in service arrival, which cannot satisfy K repeated transmissions Or increased alignment delay. For this reason, the base station provides multiple sets of transmission resources for the user equipment.
  • the multiple sets of transmission resources have time-domain offset or frequency-domain offset or time-frequency domain offset. Between time sequences, it is possible to select a transmission resource that satisfies K repeated transmissions or the minimum delay from multiple sets of transmission resources for transmission, so as to ensure the reliability and delay of the same service of the same UE.
  • a transmission resource set can include one or more sets of resources.
  • the offset mode of the transmission resource set containing multiple sets of resources in the set may be one of: time domain offset, frequency domain offset, and time-frequency domain offset.
  • the configuration modes of the offset mode include the following two: Configuration mode 1 is: multiple sets of transmission resources in a group use one offset mode, and multiple resource groups belonging to the same set use the same offset mode.
  • Configuration method 2 Each set of transmission resources in a group adopts an offset method, and each resource group in the same set adopts an offset method.
  • the offset of configuration method 1 is relative to the first set of transmission resources in the group, and the offset size of a set of resources in the resource group is the position of the resource in the resource group (the Nth set) minus 1 times the configuration Offset granularity.
  • the granularity of resource configuration can be: if it is time domain offset, the offset granularity can be N symbol length or M TO length or L time slot length (N, M, L are positive integers); if it is frequency domain offset , Then the offset granularity can be I resource block (Resource Block, RB) or J resource block group (Resource Block Group, RBG) or K part of the bandwidth (I, J, K are integers); if it is in the time-frequency domain Offset, the offset granularity is a combination of the above-mentioned time domain offset and frequency domain offset granularity.
  • Set 1 in Figure 1-1 includes 4 sets of transmission resources, #1, #2, #3, and #4.
  • the offset mode between transmission resources in the group is time domain offset, and the configured time domain offset size is assumed to be N symbols or a TO length, then the offset of transmission resource #1 is 0 (no offset); transmission The offset of resource #2 is N symbols or one TO transmission length to the right; the offset of transmission resource #3 is 2N symbols or 2 TO transmission length to the right; the offset of transmission resource #4 is Offset 3N symbols or 3 TO transmission length to the right.
  • a downlink control information (DCI, Downlink Control Information) is used to activate the resources included in the group, and the 4 sets of transmission resources in the set 1 are activated, and the DCI contains the information indication of the group identification of the set 1.
  • Set 2 in Figure 1-2 includes 2 sets of transmission resources, #1 and #2 respectively.
  • the offset mode between transmission resource #1 and transmission resource #2 is frequency domain offset, and the configured offset granularity is N RBs, then the offset of #1 resource is 0 (no offset), and the offset of #2 resource is It is shifted up or down by N RB sizes.
  • Set 3 in Figure 1-3 includes transmission resource #1. Since there is only one set of transmission resources, there is no need to indicate the offset mode in the group.
  • RRC signaling configures four sets of transmission resources #1, #2, #3, and #4.
  • the configured transmission resource may include or not configure the offset mode of each set of resources. If there is no offset mode in the configuration.
  • grouping can be performed through RRC or the four sets of transmission resources can be configured into different states. There are one or more sets of resources in the same state. It is also possible to group the four sets of transmission resources through MAC CE signaling or configure the four sets of transmission resources into different states. For example, transmission resource #2 and transmission resource #3 in the original RRC signaling configuration are configured into a group (one state).
  • one offset method is configured in one group (one state), and the offsets of multiple sets of resources are all offset based on the first set of resources.
  • the offset granularity and offset mode of each set of resources can be configured through RRC signaling or MAC CE signaling, and the offset is performed according to the indicated offset mode.
  • the following configurations are configured through RRC signaling: #1+offset1 (offset1), #2+offset2, #3+offset3 and #4+offset4 four sets of configurations. That is, the base station configures the corresponding offset mode for the resource when configuring the resource.
  • the transmission resources included in a group or the transmission resources included in a state are directly configured through RRC signaling, and then the offset mode of the transmission resources in each group or each state is indicated through MAC CE signaling. That is, the base station does not configure an offset mode for resources when configuring resources.
  • resources need to be offset during activation they can be configured accordingly through MAC CE.
  • one activation signaling can activate all resources in a group or a state at the same time, and multiple sets of resources in the group or state can be set according to the offset in the configuration. Offset between resources.
  • the parameter configuration of multiple sets of resources in the resource set or resource group may be the same.
  • the parameter configuration of multiple sets of resources in a set or a group may also be different.
  • the same set of resources can be configured in multiple resource collections or resource groups, and multiple sets of the same configuration resources can also be configured in a resource group or resource collection.
  • Scenario 2 UE supports multiple QoS service requirements.
  • the base station can correspondingly configure one or more sets of transmission resources for the user equipment.
  • Scenario 3 Avoid resource collisions between UEs in the inter-user equipment (Inter-UE) multiplexing scenario.
  • eMBB enhanced mobile broadband
  • URLLC Ultra Reliable & Low Latency Communication
  • eMBB enhanced mobile broadband
  • URLLC Ultra Reliable & Low Latency Communication
  • a collision occurs between the transmission resource scheduled for eMBB and the scheduling-free transmission resource configured for URLLC.
  • the base station can configure multiple sets of resources for the UE.
  • the multiple sets of resources have multiple offset modes such as frequency domain offset or time domain offset.
  • the dashed box represents the resources scheduled by eMBB.
  • the dashed box overlaps resource #3 and resource #4.
  • resource #3 or resource #4 is configured for the URLLC service of the user equipment, when the user equipment performs eMBB and URLLC services at the same time, the resources scheduled by the eMBB service collide with the scheduling-free resources of the URLLC service.
  • the base station configures the resources #1, #2, #3, and #4 in Figure 2 for the URLLC service of the user equipment, when the user equipment performs eMBB and URLLC services at the same time, the user equipment may avoid sending collisions.
  • the configuration of resource #1 or #2 can be selected for URLLC transmission. Among them, the frequency domain offset between the scheduling-free resources #1, #2, #3, and #4.
  • non-scheduling resources include but are not limited to two ways: Type 1, the parameters are configured by radio resource control (RRC, Radio Resource Control) signaling, and the RRC signaling allocates resource parameters to UE, resources are automatically activated. Type 2: RRC signaling configures some parameters of a set of resources, the remaining parameters are indicated in DCI signaling, and the set of resources is activated by DCI signaling.
  • RRC Radio Resource Control
  • the resources configured by RRC signaling are activated by DCI signaling, and each set of resources requires one DCI signaling to activate.
  • the DCI signaling overhead is relatively large.
  • one DCI can be used to activate multiple sets of resources at the same time.
  • the embodiments of the present application may be applied to equipment on the transmitting side, such as a base station.
  • the device on the receiving side may include user equipment.
  • the embodiment of the present application will take the interaction between the base station and the user equipment as an example to describe the solution provided in the present application.
  • the embodiment of the present application includes step S110 and step S120, as follows:
  • S110 Send configuration information of transmission resources to the user equipment, where the configuration information includes parameter configuration information of multiple sets of transmission resources allocated to the user equipment.
  • S120 Send activation information of the transmission resource to the user equipment, where the activation information includes an identifier of the transmission resource that needs to be activated, and the identifier is used to activate the transmission resource.
  • the configuration information may include the set identification information of multiple sets of transmission resources, and in step S120, the activation information including the set identification may be sent to the user equipment.
  • the user equipment uses the set identifier to activate the transmission resource.
  • the base station may also send the deactivation information including the set identifier to the user equipment. The user equipment can use the set identifier in the deactivation information to deactivate the corresponding transmission resource.
  • the base station configures 4 sets of transmission resources for the user equipment, which can be sorted by sequence numbers, including transmission resources with sequence numbers #1 to #4. These configured resources are activated through DCI signaling, and the DCI signaling includes information for indicating the set identifier.
  • a 2-bit field is used to indicate a set identifier, 00 represents a transmission resource of sequence number #1; 01 represents a transmission resource of sequence number #2; 10 represents a transmission resource of sequence number #3; 11 represents a transmission resource of sequence number #4.
  • the number of bits of the bit field used in the activation information may satisfy the following condition: the maximum integer value that the bit field can express is greater than or equal to the highest sequence number value in the transmission resource. If the set identification bit field used to indicate a specific transmission resource in the activation information is smaller than the currently configured number of resource sets, the value indicated by the set identification bit field can correspond to the ordered transmission resources in a one-to-one order.
  • the configuration information may also include grouping information.
  • the grouping information includes multiple resource groups composed of multiple sets of transmission resources.
  • the resource group includes at least one set of transmission resources.
  • a resource group has a group ID, and a set of transmission resources has a set ID.
  • the base station may send activation information including at least one of the group identifier and the set identifier to the user equipment. If the activation information only includes the set identification, the user equipment activates one of the multiple sets of transmission resources. If the activation information includes the group identifier, the user equipment activates all transmission resources in a resource group corresponding to the group identifier.
  • the user equipment activates a set of transmission resources corresponding to the set identification in the resource group associated with the resource group.
  • one activation message may be used to activate multiple sets of transmission resources, thereby reducing information transmission overhead.
  • the base station configures 8 sets of transmission resources for the user equipment through RRC signaling, which are sorted by sequence numbers, including transmission resources with sequence numbers #1 to #8.
  • the base station divides these 8 sets of transmission resources into 4 groups through Medium Access Control Element (MAC CE, Medium Access Control Element) signaling or RRC signaling, as shown in Table 1 below.
  • MAC CE Medium Access Control Element
  • RRC Radio Resource Control
  • the activation information includes a corresponding bit field for indicating the group identification, that is, the group sequence number in Table 1.
  • group sequence number For example, 2bit, 00 represents the resource group of sequence number 1; 01 represents the resource group of sequence number 2; 10 represents the resource group of sequence number 3; 11 represents the resource group of sequence number 4.
  • the number of bits of the bit field used in the activation information may satisfy the following condition: the largest integer value that the bit field can express is greater than or equal to the highest sequence number value in the resource group.
  • Such an activation message can activate all resources in a group at the same time.
  • the activation information can also use the corresponding bit field to indicate a set of resources activated in the group, that is, the set identification bit field.
  • Table 1 includes 8 sets of resources, the transmission resources with serial numbers #1 to #8. Then the activation information can use 3 bits to represent the set of identification. Among them, the value expressed by 3bit corresponds to the serial number of the same value one by one.
  • a DCI includes a 2-bit group identification indicator field, such as 01, which indicates that all resources in the resource group with sequence number 1 need to be activated. If a DCI contains a 2-bit group identification indicator field and a 3-bit set identification indicator field, such as 10 and 101, it means that a set of transmission resources with sequence number #6 in the resource group with sequence number 1 needs to be activated.
  • the method provided in the embodiments of the present application further includes: sending transmission resource deactivation information to the user equipment, and the deactivation information includes the identification of the transmission resource that needs to be deactivated, so that the user equipment uses the identification to pair the transmission resource go activate.
  • the base station may send deactivation information to the user equipment.
  • the user equipment uses the identifier in the deactivation information to deactivate the corresponding transmission resource.
  • the transmission resource corresponding to the set of identifiers is deactivated. If the identifier in the deactivation information includes a group identifier, all transmission resources in the resource group corresponding to the group identifier are deactivated. If the identifier in the deactivation information includes a group identifier and a set identifier, the transmission resource corresponding to the set identifier in the resource group corresponding to the group identifier is deactivated.
  • the embodiment of the present application may use one deactivation message to deactivate multiple sets of transmission resources.
  • the base station may use RRC signaling and DCI signaling to configure resources and activate resources for the UE.
  • RRC signaling and DCI signaling to configure resources and activate resources for the UE.
  • S21 Send first indication signaling to the user equipment, where the first indication signaling includes parameter configuration information and grouping information.
  • the activation information includes the group identifier of the transmission resource that needs to be activated, and the group identifier in the activation information is used to activate the transmission resource associated with the group identifier.
  • the transmission resource associated with the group identifier may be multiple sets of transmission resources in the resource group corresponding to the group identifier. For example, if the group identifier in the activation information is binary "10", and the corresponding decimal value is 3, the user equipment activates all transmission resources in the third resource group.
  • the base station can configure multiple sets of transmission resources for the user equipment through RRC signaling, such as scheduling-free resources, used for physical uplink shared channel (PUSCH, Physical Uplink Share Channel) or physical downlink shared channel (PDSCH, Physical Downlink). Share Channel) and other channels for data transmission.
  • RRC signaling such as scheduling-free resources, used for physical uplink shared channel (PUSCH, Physical Uplink Share Channel) or physical downlink shared channel (PDSCH, Physical Downlink). Share Channel) and other channels for data transmission.
  • Multiple sets of transmission resources in RRC signaling are allocated in multiple resource groups, and each group of resources corresponds to a sequence number, which represents a group identifier. Among them, a resource in a resource group corresponds to a QoS service requirement of the UE. Multiple resource groups can meet multiple QoS service requirements of the UE.
  • a resource group can include one or more sets of transmission resources. If the resource group includes multiple sets of resources, there is an offset between the multiple sets of resources.
  • the offset may include one of time-domain offset, frequency-domain offset and time-frequency offset.
  • the parameters of the multiple sets of resources in the group can be configured independently, or the parameters of one set of resources can be expanded to obtain other sets of resources in the group.
  • the base station sends RRC signaling to the user equipment, and can configure parameter configuration information and grouping information of multiple sets of transmission resources.
  • the grouping information may include a group ID and at least one set of IDs associated with the group ID.
  • the base station sends DCI signaling to the user equipment, and the DCI signaling may carry the group identifier, or the group identifier and the set identifier.
  • the DCI signaling can use a bit field to characterize a specific identifier.
  • the user equipment receives the DCI signaling, it activates all transmission resources or a specified set of transmission resources in the corresponding resource group.
  • DCI signaling may be used to indicate the specific offset modes between transmission resources in the group.
  • the DCI signaling can distinguish multiple offset modes through different radio network temporary identity (RNTI, Radio Network Temporary Identity) and scrambling, so as to indicate a specific offset mode.
  • RTI Radio Network Temporary Identity
  • the grouping information only includes the offset mode of multiple sets of transmission resources in a group, the offset mode does not need to be indicated in the DCI signaling.
  • the user equipment receives the DCI signaling, while activating multiple sets of transmission resources in the corresponding resource group, it shifts the activated multiple sets of transmission resources according to the offset mode indicated by the DCI signaling.
  • the offsets between multiple sets of resources in the group are all offsets for the first set of resources.
  • the offset mode may include one of time domain offset, frequency domain offset, or time-frequency domain offset.
  • MAC CE signaling may also be used to select some or all groups from multiple group resources configured by RRC signaling, and indicate the offset mode between multiple sets of resources in the group. And use DCI signaling to activate multiple sets of transmission resources or one set of transmission resources in the resource group.
  • S31 Send first indication signaling to the user equipment, where the first indication signaling includes parameter configuration information and grouping information.
  • the second indication signaling includes one of the following: multiple group identities of transmission resources to be activated, multiple group identities and resource groups to which multiple group identities are mapped respectively.
  • the second indication signaling includes group identities G1, G2, and G3.
  • the second indication signaling includes group identifiers G1, G2, and G3, and also includes resource group G5 mapped by group identifier G1, resource group G6 mapped by group identifier G2, and resource group G7 mapped by group identifier G3.
  • the activation information includes the group identifier of the transmission resource that needs to be activated in the second indication signaling, and the group identifier in the activation information is used to activate the transmission resource associated with the group identifier.
  • the activation information includes the group identifier G1
  • the user equipment activates the resource group G5 mapped by the group identifier G1.
  • the base station configures multiple sets of transmission resources for the UE through RRC signaling, such as scheduling-free resources, for data transmission on channels such as uplink PUSCH or PDSCH.
  • Each set of scheduling-free transmission resources corresponds to a set of independent parameter configuration information, and each set of transmission resources can correspond to a sequence number to indicate the set identification.
  • the base station can configure the previously configured multiple sets of transmission resources into multiple resource groups through RRC signaling, and the resource groups can include one or more sets of transmission resources. Among them, the same set of resources can be configured in different groups, and the configuration offset between multiple sets of resources in the group.
  • the offset mode may include one of time domain offset, frequency domain offset, or time-frequency domain offset.
  • the offset is the first set of transmission resources in the relative group.
  • the group includes three sets of resources #1, #2, and #3, and the three sets of resources correspond to one offset. It can be indicated as: #1, 2, 3+offset.
  • the group includes three sets of resources #1, #2, and #3, and the three sets of resources each correspond to an offset. It can be indicated as: #1+offset, #2+offset, #3+offset.
  • the base station may also send parameter configuration information and grouping information of multiple sets of transmission resources to the user equipment simultaneously through one RRC signaling.
  • the parameter configuration information may or may not include the offset information of each set of resources. If RRC signaling configures multiple sets of transmission resource parameter configuration information, each set of resources is configured with resource offset information, and the offset information may no longer be configured when the subsequent information indicates.
  • the base station can select part or all of the multiple resource groups configured by the RRC signaling through MAC CE signaling and indicate the offset mode between multiple sets of resources in the group.
  • the MAC CE signaling can establish a new order for the selected resource groups, and each resource group includes a corresponding set identifier.
  • the MAC CE signaling maps the new group identifier of the selected resource group with the group identifier of this resource group in the original RRC signaling. The user equipment can save this mapping relationship, and when activating, find the resource group to be activated according to the mapping relationship.
  • one or more optional offset modes can be configured for multiple sets of resources in the group. If only one offset mode is configured for RRC signaling, the corresponding MAC CE signaling or DCI signaling does not need to indicate the offset mode. If multiple offset modes are configured for RRC signaling, MAC CE signaling or DCI signaling needs to select an offset mode from them.
  • the base station activates the resource group indicated by the MAC CE through DCI signaling, and the DCI contains a bit field for indicating the group identity, such as a group sequence number or a set sequence number. This group sequence number or set sequence number can be the sequence number indicated by MAC CE. If this resource group includes multiple sets of resources, DCI activates multiple sets of resources in the group at the same time. If the DCI also includes a corresponding bit field for indicating the set identifier of the activated transmission resource in a specific resource group, then activate a set of transmission resources corresponding to the bit field in the resource group.
  • the DCI also includes a corresponding bit field for indicating the set identifier of the activated transmission resource in a specific resource group, then activate a set of transmission resources corresponding to the bit field in the resource group.
  • the base station configures 8 sets of transmission resources for the user equipment through RRC signaling, which can be sorted by sequence number, including transmission resources with sequence numbers #1 to #8. And through RRC signaling, 8 sets of transmission resources are grouped into 8 resource groups, as shown in Table 2 below.
  • MAC CE signaling may be used to select a resource group that needs to be activated among the eight resources configured by RRC signaling for mapping.
  • the MAC CE signaling selects the resource groups whose original group sequence numbers are 4, 5, 6, and 7 among the 8 groups of resources configured by RRC, as shown in Table 3 below.
  • the MAC CE signaling can select or indicate a specific offset mode from a variety of offset modes configured by the RRC signaling. For example, RRC configures two optional offset modes: frequency domain offset and time domain offset.
  • the MAC CE signaling indicates the specific offset mode used, such as frequency domain offset. If RRC is configured with an offset mode, the MAC CE signaling does not indicate the specific offset mode used.
  • the DCI signaling can use a 2-bit group identifier indication field, and the group sequence number indicated by the deactivated MAC CE is any one of the resource groups 1, 2, 3, and 4.
  • the group serial numbers indicated by the MAC CE establish a one-to-one mapping relationship with the original group serial numbers 4, 5, 6, and 7 in the sequence of arrangement. If the group identifier indication field included in the DCI signaling is 11, the resource group of the group sequence number 4 indicated in the MAC CE can be activated.
  • the group sequence number 4 and the original group sequence number 7 indicated by the MAC CE are mapped to each other, that is, the original group number 7 can be activated.
  • the base station may use RRC signaling, MAC CE signaling, and DCI signaling for resource configuration and activation.
  • RRC signaling MAC CE signaling
  • DCI signaling for resource configuration and activation.
  • S41 Send first indication signaling to the user equipment, where the first indication signaling includes parameter configuration information.
  • S42 Send second indication signaling to the user equipment, where the second indication signaling includes grouping information.
  • S43 Send activation information to the user equipment, the activation information includes the group identifier of the transmission resource that needs to be activated, and the group identifier in the activation information is used to activate the transmission resource associated with the group identifier.
  • the base station configures multiple sets of scheduling-free transmission resources for the UE through RRC signaling, and the scheduling-free transmission resources are used for channel transmission such as uplink PUSCH or downlink PDSCH.
  • each set of scheduling-free transmission resources corresponds to a set of independent parameter configuration information, and each set of resources can correspond to a sequence number to indicate the set identification.
  • the base station configures part or all of the multiple sets of scheduling-free resources into different resource groups or resource sets through MAC CE signaling.
  • Each resource group or resource collection corresponds to a serial number to indicate the group ID or collection ID.
  • MAC CE signaling can configure offsets between multiple sets of transmission resources for this resource group.
  • the embodiments of the application are not limited to using MAC CE signaling to supplement or modify information configured by RRC signaling, and RRC signaling may also be used to supplement or modify information configured by previous RRC signaling.
  • the offset configuration can be performed in accordance with the aforementioned offset configuration mode 1 or configuration mode 2.
  • the base station may configure the offset mode of multiple sets of transmission resources in the group through RRC signaling or provide multiple optional offset modes.
  • the base station can select one of the offset modes configured in the RRC signaling through MAC CE signaling as the offset mode of the resource group containing multiple sets of transmission resources. Shift mode.
  • the base station can select an offset mode for each set of transmission resources in the resource group from multiple offset modes configured in RRC signaling through MAC CE signaling.
  • the base station When activation is required, the base station sends DCI signaling to the user equipment, and the signaling includes an indication field of the group identifier. Through the DCI, all transmission resources in the resource group associated with the group identifier can be activated.
  • the signaling may also include the set identifier, and the user equipment may activate the transmission resource corresponding to the set identifier in the resource group associated with the group identifier.
  • the base station configures 8 sets of resources for the UE through RRC signaling, which are #1, #2, #3, 4#, 5#, 6#, 7#, and 8#.
  • the 8 sets of resources in RRC signaling are configured into 4 groups through MAC CE signaling, and each group includes one or more sets of identifiers, as shown in Table 4 below.
  • DCI can set a 2-bit field (2bit) to represent the group identifier.
  • 00 represents group number 1
  • 01 represents group number 2
  • 10 represents group number 3
  • 11 represents group number 4.
  • the user equipment activates the resource group with the group sequence number 4.
  • a 3-bit field (3bit) can be set in the DCI to indicate the set identifier.
  • 000 represents the serial number 1
  • 001 represents the serial number 2
  • 010 represents the serial number 3
  • 011 represents the serial number 4
  • 100 represents the serial number 5
  • 101 represents the serial number 6
  • 110 represents the serial number 7
  • 111 represents the serial number 8.
  • the DCI includes a group identification bit field of 11 and a set of identification bit field of 100
  • the user equipment activates the fifth set of transmission resources in the fourth resource group.
  • the value represented by the set identification bit field corresponds in order to the transmission resources in the group in order.
  • DCI uses 2 bits to represent the set identifier. If the DCI indicates to activate the 4th resource group, as shown in Table 4, the 4th resource group includes the transmission resources of #1, #2, #3 and #5, then 00 represents the set number# in the 4th resource group 1, 01 represents the set number #2 in the fourth resource group, 10 represents the set number #3 in the fourth resource group, and 11 represents the set number #5 in the fourth resource group.
  • the activation information not only includes the group identifier of the transmission resource that needs to be activated, but also includes the set identifier of the transmission resource that needs to be activated. Then, after receiving the activation information, the user equipment activates the transmission resource corresponding to the set identifier in the resource group associated with the group identifier. Therefore, the embodiment of the present application can activate one set of transmission resources or multiple sets of transmission resources in the resource group.
  • the grouping information may include an offset mode of multiple sets of transmission resources in the group, and the activation information includes an indication of the offset mode of multiple sets of transmission resources in the group.
  • the grouping information can be transmitted through the first instruction signaling or the second instruction instruction. If the offset mode indicated in the first indication signaling or the second indication signaling includes only one type and is unique, the activation information may not need to indicate a specific offset mode. If the offset modes indicated in the first indication signaling or the second indication signaling include multiple types and are not unique, the activation information needs to indicate an offset mode from them. For example, when grouping is performed through RRC signaling or MAC CE signaling, multiple optional offset modes are configured, and then DCI signaling or MAC CE signaling indicates a certain offset mode. If only one offset mode is configured in RRC signaling, neither MAC CE signaling nor DCI signaling may indicate the offset mode. If the offset mode is not configured in RRC signaling, the offset mode can be directly configured through MAC CE signaling or DCI signaling.
  • the second indication signaling sent by the base station to the user equipment may further include a modification indication for modifying parameter configuration information. That is, the parameter configuration information of multiple sets of transmission resources is modified through RRC signaling or MAC CE signaling. For example, parameters such as the period of data transmission, power control parameters, and the number of repeated transmissions K.
  • the RRC signaling configures multiple sets of transmission resources and a combination of multiple sets of transmission resources for the UE, and the activated multiple sets of resources do not match the user's service after a period of time. If RRC signaling is used to reconfigure transmission resources at this time, on the one hand, additional delay will be added, and on the other hand, it will also bring greater signaling overhead.
  • the original RRC signaling configuration can be modified through MAC CE signaling.
  • the parameters can better match the current user’s business.
  • the modification method may include: in the case of not grouping, modifying one or more parameters of a certain set of transmission resources; in the case of resource grouping or diversity, modifying a certain resource group (a set corresponding to a certain state) Modify one or more parameters of a certain set of transmission resources in a certain resource group (a set corresponding to a certain state), modify one or more parameters of all transmission resources in a certain resource group (a set corresponding to a certain state), modify all resource groups (a set corresponding to a certain state) One or more parameters of a certain set of transmission resources, etc.
  • the offset configuration method 1 or configuration method 2 described above can be used. The offset mode between multiple sets of transmission resources in the group is configured.
  • the RRC signaling configuration requires more resource status information to be activated, and there are not enough bit fields in the activation signaling to match the status information corresponding to the RRC configuration, you can select from multiple statuses of the RRC configuration through MAC CE Part of the status is indicated to the user, and the activation signaling activates part of the resource status information selected by the MAC CE.
  • the grouping information includes at least one resource group.
  • the resource group includes a set of transmission resource parameter configuration information, the number of extended resource sets, and Offset method for extending transmission resources.
  • the user equipment knows that the resource group includes the information of the number of extended resource sets, it can shift the set of transmission resources in the group bit by bit according to the shift mode of the resource group, until the transmission resources obtained by the expansion in the group The number of sets meets the number of extended resource sets.
  • the parameter configurations of the multiple sets of transmission resources in the expanded resource group are the same, but there is an offset between the transmission resources of different sets.
  • the base station sends parameter configuration information of the resource to the user equipment through RRC signaling.
  • the parameter configuration information of each set of resources includes a set identifier, and the parameter configuration information of the resource includes the number of extended resource sets N and the number of extended resource sets. ⁇ Offset method.
  • the resource location of the first set of resources is indicated by activation signaling, and the subsequent N-1 sets of resources are respectively offset relative to the first set.
  • the offset configuration may be as described in the offset configuration method 1 described above.
  • the base station sends resource parameter configuration information to the user equipment through RRC signaling.
  • the parameter configuration information of each set of resources includes a set of identifiers, and the parameter configuration information of resources includes multiple offset modes. After the signaling is activated, the set of resources are offset according to the multiple indicated offset modes, that is, the configured set of information has multiple starting points of the same or different time/frequency domain resources.
  • the base station sends resource parameter configuration information to the user equipment through RRC signaling.
  • the parameter configuration information of each set of resources includes a set identifier, and the parameter configuration information of the resource includes an offset mode and number of offsets. N.
  • the user After receiving the activation signaling, the user will offset the set of resources according to the aforementioned offset configuration method 2, that is, the configured set of information has N+1 same or different time/frequency domain resources. starting point.
  • the number of extended resource sets N and the offset mode can be configured through MAC CE signaling, and the user equipment respectively
  • the multiple sets of transmission resources are expanded and expanded into multiple resource groups.
  • the configuration information sent to the user equipment may further include state information, and the state information includes multiple states and at least one set of transmission resources or at least one resource group related to each state.
  • the state information may also include an offset manner corresponding to each set of transmission resources or sets of resource groups related to the same state, or an offset manner shared by all transmission resources related to the same state.
  • the embodiment of the present application may send the status information through the first instruction instruction or the second instruction instruction.
  • One of the implementation manners may be as follows: a first instruction instruction or a second instruction instruction is sent to the user equipment, the first instruction instruction includes parameter configuration information, and the second instruction instruction includes status information.
  • the activation information may include the status identifier of the transmission resource that needs to be activated.
  • the status identifier is used to activate the transmission resource corresponding to the status identifier.
  • the user equipment may use the status identifier to activate the transmission resource related to the status identifier.
  • the transmission resources related to the status identifier may include: one or more sets of transmission resources related to the status identifier, and one or more sets of transmission resources related to the status identifier.
  • the base station can configure multiple sets of transmission resources for the user equipment through RRC signaling, for example: #1, #2, #3, and #4.
  • RRC signaling for example: #1, #2, #3, and #4.
  • the status of each set of resources can also be set, and a set of resources can include one or more states.
  • subsequent RRC signaling or MAC CE signaling may indicate multiple states of the originally configured sets of transmission resources.
  • the transmission resource offset mode can be configured through RRC signaling or MAC CE signaling. If RRC signaling does not configure an offset mode for multiple sets of transmission resources, it can be configured through MAC CE signaling.
  • the set in each state includes one or more sets of resources, and each set of resources in the set can correspond to one offset mode or all resources in the set correspond to one offset mode.
  • the offset mode corresponding to each set of resources in the set may be the same or different. As shown in Table 5 and Table 6.
  • offset1, offset2, offset3, and offset4 represent offset modes.
  • multiple groups of transmission resources are configured for the user equipment through RRC signaling, and each group includes one or more sets of transmission resources, for example: #G1, #G2, #G3, and #G4.
  • the offset mode between resources in the group can be configured or not configured. If the offset mode between resources in the group is not configured, it can be configured through MAC CE signaling. Similar to the above method of setting one or more states for each set of resources, one or more states can also be set for each set of resources. That is, the collection in each state includes at least one resource group.
  • Each group of resources in the set can correspond to one offset mode or all resource groups in the set correspond to one offset mode. Wherein, the offset mode corresponding to each set of resources in the set may be the same or different. See Table 7 and Table 8 below.
  • the status of each resource group can also be set through MAC CE signaling to recombine multiple groups of resources.
  • the activation information can use a status identifier, such as status "0", to activate multiple resource groups in the status "0" set, such as #G1, #G2, #G3 and #G4 contained in Table 7 and Table 8 above. Resource group.
  • an embodiment of the present application provides a resource configuration method, which can be applied to user equipment, and includes step S210 to step S230, as follows:
  • S210 Receive configuration information of transmission resources sent by the base station, where the configuration information includes parameter configuration information of multiple sets of transmission resources allocated to the user equipment.
  • S220 Receive activation information of the transmission resource sent by the base station, where the activation information includes an identifier of the transmission resource that needs to be activated.
  • the configuration information further includes grouping information.
  • the grouping information includes multiple resource groups composed of multiple sets of transmission resources, and the resource group includes at least one set of transmission resources.
  • the configuration information further includes set identification information of multiple sets of transmission resources, and the identification includes the set identification.
  • the resource configuration method provided in the embodiments of the present application is applied to the user equipment, and further includes: receiving deactivation information of the transmission resource sent by the base station, and the deactivation information includes the identification of the transmission resource that needs to be deactivated ; Deactivate the transmission resource according to the identifier.
  • the identification included in the activation information or the deactivation information may include at least one of a set identification and a group identification.
  • the configuration information includes parameter configuration information and grouping information of multiple sets of transmission resources.
  • the above step S210 may include: receiving the first indication signaling sent by the base station.
  • the first indication signaling includes the parameter configuration information and the grouping. information.
  • the user equipment can receive parameter configuration information and grouping information through a combination of RRC signaling or MAC CE signaling.
  • the user equipment receives the activation information sent by the base station, and the activation information includes the group identification of the transmission resource to be activated.
  • the user equipment uses the group identification to activate the transmission resource associated with the group identification.
  • the user equipment may receive activation information through DCI signaling.
  • the user equipment may also select part or all of the resource groups from the configured multiple resource groups through the second indication signaling before activation, so as to facilitate subsequent activation.
  • the method provided in this embodiment further includes: receiving second indication signaling sent by the base station, and the second indication signaling includes one of the following two: multiple group identities of transmission resources that need to be activated, multiple group identities, and multiple The resource groups mapped to each of the group IDs; receive the activation information sent by the base station, the activation information includes the group ID of the transmission resource to be activated in the second indication signaling; use the group ID to activate the transmission resource associated with the group ID.
  • the user equipment may first receive the parameter configuration information, and then receive the corresponding grouping information later. Therefore, the foregoing step S210 may include: receiving the first indication signaling sent by the base station, the first indication signaling including parameter configuration information; and receiving the second indication signaling sent by the base station, the second indication signaling including the grouping information.
  • the parameter configuration information of multiple sets of transmission resources is received through RRC signaling
  • the grouping information of the multiple sets of transmission resources is received through MAC CE.
  • the grouping information can include the offset mode.
  • the user equipment may receive the activation information sent by the base station, the activation information includes the group identification of the transmission resource to be activated, and use the group identification to activate the transmission resource associated with the group identification.
  • the activation information when the user equipment has been configured with multiple resource groups, in addition to the group identification, the activation information also includes the set identification of the transmission resource to be activated. In this way, the user equipment activates the transmission resource corresponding to the set identifier in the resource group associated with the group identifier.
  • the grouping information received by the user equipment may include the offset mode of multiple sets of transmission resources in the group.
  • the activation information received by the user equipment may include an indication of the offset mode of multiple sets of transmission resources in the group.
  • the second indication signaling received by the user equipment may further include a modification indication for modifying parameter configuration information. Then, the user equipment can modify the parameter configuration information according to the modification instruction in the second instruction signaling.
  • the grouping information received by the user equipment includes at least one resource group, and the resource group includes a set of parameter configuration information of a transmission resource, the number of extended resource sets, and an offset mode used to extend the transmission resource.
  • the user equipment can perform resource expansion based on the information contained in the resource group, so that the resource group can include multiple sets of transmission resources.
  • the method applied to the user equipment in the embodiment of the present application further includes:
  • the transmission resources included in the resource group are expanded until the number of expanded resource sets in the group meets the number of expanded resource sets.
  • the parameter configuration information further includes the number of extended resource sets and the offset mode used to extend the transmission resource.
  • the method proposed in the embodiment of the present application can be applied to user equipment, and the transmission relationship between the parameter configuration information, grouping information, and activation information between the base station and the user equipment has been introduced in the foregoing embodiment, and will not be repeated here.
  • the user equipment when the user equipment uses the group identifier to activate the transmission resources, it can also select a set of transmission resources from the resource group that needs to be activated according to the requirements of the UE.
  • the method applied to the user equipment according to the embodiment of the present application may further include:
  • S51 Select one set of transmission resources from the multiple sets of activated transmission resources.
  • the selected standard may include one of the set of multiple sets of transmission resources with the smallest alignment delay, and one of the set of multiple sets of transmission resources that can guarantee the configured number of repeated transmissions and with the smallest alignment delay.
  • the alignment delay is the waiting delay between when the service arrives and when the service can be transmitted.
  • the configuration information further includes state information, and the state information includes multiple states and at least one set of transmission resources or at least one resource group related to each state.
  • the user equipment receiving the transmission resource configuration information sent by the base station may include: receiving a first instruction instruction and a second instruction instruction sent by the user equipment, the first instruction instruction includes parameter configuration information, and the second instruction instruction includes status information.
  • the user equipment receiving the activation information of the transmission resource sent by the base station may include: receiving the activation information of the transmission resource sent by the base station, the activation information includes the status identifier of the transmission resource that needs to be activated; and using the status identifier to activate the transmission resource related to the status identifier.
  • the state information further includes an offset manner corresponding to each element related to the state, or an offset manner shared by all transmission resources related to the state, and this element includes a transmission resource or sets of resource groups.
  • FIGS 9-1 to 9-4 are schematic flowcharts of the interaction process between the base station and the user equipment provided by the embodiments of the application. The following is only an exemplary description of the interaction process of these several implementation manners.
  • this embodiment uses RRC signaling to interact with DCI signaling and includes the following steps:
  • the base station sends RRC signaling to the user equipment, where the RRC signaling includes parameter configuration information and grouping information.
  • the user equipment receives the RRC signaling, from which it learns the parameter configuration information of multiple sets of transmission resources that it can use and the grouping information of the multiple sets of transmission resources.
  • the grouping information may include multiple selectable offset modes between multiple sets of resources in the group.
  • the base station sends DCI signaling to the user equipment.
  • the DCI signaling includes a group identifier, or the DCI signaling includes a group identifier and a set identifier.
  • the specific offset mode can be indicated in the DCI signaling. If the RRC does not configure the offset mode, the DCI can directly configure the offset mode. If only one offset mode is included in the RRC, the DCI may not indicate a specific offset mode.
  • the user equipment activates corresponding transmission resources according to the identifier contained in the DCI signaling. If the DCI signaling only includes the group identifier, all transmission resources in the resource group associated with the group identifier are activated. If the DCI signaling includes the group identification and the set identification, then activate a set of transmission resources corresponding to the set identification in the resource group associated with the group identification.
  • this embodiment uses RRC signaling to interact with DCI signaling and includes the following steps:
  • the base station sends RRC signaling to the user equipment.
  • the RRC signaling includes parameter configuration information of multiple sets of transmission resources and set identification information of the multiple sets of transmission resources.
  • the user equipment receives the RRC signaling, from which it learns the parameter configuration information and the set identification information of multiple sets of transmission resources that it can use.
  • the base station sends DCI signaling to the user equipment, where the DCI signaling includes the set identifier.
  • S430 The user equipment determines the corresponding transmission resource from the set identification information according to the set identification, and activates the transmission resource according to the parameter configuration information of the transmission resource.
  • this embodiment uses RRC signaling, MAC CE, and DCI signaling to interact, including the following steps:
  • the base station sends RRC signaling to the user equipment, where the RRC signaling includes parameter configuration information and grouping information of multiple sets of transmission resources.
  • the user equipment receives the RRC signaling, from which it learns the parameter configuration information of multiple sets of transmission resources that it can use and the grouping information of the multiple sets of transmission resources.
  • the grouping information may include multiple selectable offset modes between multiple sets of resources in the group.
  • the base station sends MAC CE signaling to the user equipment.
  • the MAC CE signaling includes at least one group identifier of the transmission resource that needs to be activated and a resource group configured in the RRC signaling to which the group identifier is mapped.
  • the specific offset mode can be indicated in the MAC CE signaling. If RRC does not configure the offset mode, MAC CE signaling can directly configure the offset mode. If only one offset mode is included in the RRC, the MAC CE may not indicate the specific offset mode.
  • the user equipment maps and identifies the resource group configured in the RRC signaling according to the MAC CE signaling, and determines the resource group indicated by the MAC CE signaling.
  • the base station sends DCI signaling to the user equipment.
  • the DCI signaling includes a group identifier, or the DCI signaling includes a group identifier and a set identifier.
  • This group identifier is the identifier included in the MAC CE signaling.
  • the user equipment activates the transmission resource in the corresponding resource group indicated in the MAC CE signaling according to the identifier of the DCI information. If the DCI also includes the set identifier, activate a set of transmission resources corresponding to the set identifier in this resource group. If the activated resource group includes multiple sets of transmission resources, the multiple sets of transmission resources for this resource are offset according to the corresponding offset mode indicated in the MAC CE signaling or an offset mode configured by RRC.
  • this embodiment uses RRC signaling, MAC CE signaling, and DCI signaling for interaction, including the following steps:
  • the base station sends RRC signaling to the user equipment, where the RRC signaling includes parameter configuration information of multiple sets of transmission resources.
  • the base station sends MAC CE signaling to the user equipment, where the MAC CE signaling includes grouping information of multiple sets of transmission resources in the RRC signaling. For example, the group ID and the set ID associated with the group ID.
  • the grouping information may include the offset mode of each resource group including multiple sets of resources.
  • the base station sends DCI signaling to the user equipment.
  • the DCI signaling includes a group identifier, or the DCI signaling includes a group identifier and a set identifier.
  • S640 The user equipment activates corresponding transmission resources according to the DCI signaling. If the DCI signaling only includes the group identifier, all transmission resources in the resource group associated with the group identifier are activated. If the DCI signaling includes the group identification and the set identification, then activate a set of transmission resources corresponding to the set identification in the resource group associated with the group identification. If the activated resource group includes multiple sets of transmission resources, the multiple sets of transmission resources for this resource are offset according to the corresponding offset mode configured in the MAC CE signaling.
  • a schematic structural diagram of an embodiment of a resource configuration apparatus provided by an embodiment of the present application includes: a first sending module 110, configured to send configuration information of transmission resources to a user equipment, and the configuration information includes The parameter configuration information of the multiple sets of transmission resources allocated by the user equipment; the second sending module 120 is configured to send activation information of the transmission resources to the user equipment, and the activation information includes the identification of the transmission resource that needs to be activated. The identifier of the activated transmission resource is used to activate the transmission resource.
  • the configuration information further includes grouping information, the grouping information includes multiple resource groups in the multiple sets of transmission resource combinations, and the resource group includes at least one set of transmission resources, so The resource group has a group identifier, and the transmission resource has a set identifier.
  • the configuration information further includes set identification information of the multiple sets of transmission resources, and the identification includes a set identification.
  • the apparatus further includes: a third sending module 130, configured to send deactivation information of the transmission resource to the user equipment, where the deactivation information includes the identification of the transmission resource that needs to be deactivated, and The identifier of the deactivated transmission resource is used to deactivate the transmission resource.
  • a third sending module 130 configured to send deactivation information of the transmission resource to the user equipment, where the deactivation information includes the identification of the transmission resource that needs to be deactivated, and The identifier of the deactivated transmission resource is used to deactivate the transmission resource.
  • the identification includes at least one of a set identification and a group identification.
  • the first sending module includes: a first signaling sending unit, configured to send first indication signaling to the user equipment, where the first indication signaling includes the parameter configuration information and The grouping information.
  • the first sending module further includes: a second signaling sending unit, configured to send second indication signaling to the user equipment, where the second indication signaling includes one of the following two items: One item: multiple group identities of transmission resources that need to be activated, multiple group identities and resource groups to which the multiple group identities are respectively mapped;
  • the second sending module includes: an activation information sending unit, configured to send The device sends activation information, where the activation information includes the group identifier of the transmission resource that needs to be activated in the second indication signaling, and the group identifier of the activated transmission resource is used to activate the transmission resource associated with the group identifier.
  • the first sending module includes: a first signaling sending unit, configured to send first indication signaling to the user equipment, where the first indication signaling includes the parameter configuration information;
  • the second signaling sending unit is configured to send second indication signaling to the user equipment, where the second indication signaling includes the grouping information.
  • the second sending module includes: an activation information sending unit configured to send activation information to the user equipment, the activation information including a group identifier of a transmission resource that needs to be activated, and the activated transmission The group identifier of the resource is used to activate the transmission resource associated with the group identifier.
  • the activation information further includes a set identifier of the transmission resource that needs to be activated, and the set identifier of the activated transmission resource is used to activate the set identifier in the resource group associated with the group identifier. Corresponding transmission resources.
  • the grouping information includes offset modes of multiple sets of transmission resources in the group.
  • the activation information includes an indication of the offset mode of multiple sets of transmission resources in the group.
  • the second indication signaling includes a modification indication for modifying the parameter configuration information.
  • the grouping information includes at least one resource group, and the resource group includes a set of parameter configuration information of the transmission resource, the number of extended resource sets, and an offset mode used to extend the transmission resource.
  • the configuration information further includes the number of extended resource sets and the offset mode used to extend the transmission resource.
  • the configuration information further includes state information, and the state information includes multiple states and at least one set of transmission resources related to each state.
  • the configuration information further includes state information, and the state information includes multiple states and at least one resource group related to each state.
  • the state information further includes an offset manner corresponding to each element related to the state, or an offset manner shared by all transmission resources related to the state, and the element includes transmission resources or Resource group.
  • the first sending module includes: an instruction sending unit, configured to send a first instruction instruction and a second instruction instruction to the user equipment, the first instruction instruction includes the parameter configuration information, and The second instruction instruction includes the status information; the second sending module includes: an activation information sending unit, configured to send activation information of the transmission resource to the user equipment, the activation information including the status of the transmission resource that needs to be activated Identifier, the status identifier of the activated transmission resource is used to activate the transmission resource related to the status identifier.
  • This embodiment can be applied to a base station.
  • the transmission relationship between the configuration information and the activation information in this embodiment is the same as the content introduced above, and will not be repeated here.
  • a schematic structural diagram of an embodiment of a resource configuration apparatus provided in an embodiment of the present application includes: a first receiving module 210, configured to receive configuration information of transmission resources sent by a base station, and the configuration information includes The parameter configuration information of the multiple sets of transmission resources allocated by the user equipment; the second receiving module 220 is configured to receive the activation information of the transmission resources sent by the base station, and the activation information includes the identification of the transmission resource that needs to be activated; the activation module 230, Used to activate the transmission resource by using the identifier.
  • the configuration information further includes grouping information, the grouping information includes multiple resource groups combined by the multiple sets of transmission resources, and the resource group includes at least one set of transmission resources.
  • the group has a group identifier, and the transmission resource has a set identifier.
  • the configuration information further includes set identification information of the multiple sets of transmission resources, and the identification includes a set identification.
  • the device further includes: a third receiving module 240, configured to receive deactivation information of transmission resources sent by the base station, where the deactivation information includes the identification of the transmission resource that needs to be deactivated;
  • the activation module 250 is configured to deactivate the transmission resource according to the identifier.
  • the identification includes at least one of a set identification and a group identification.
  • the first receiving module includes: a first signaling receiving unit, configured to receive first indication signaling sent by the base station, the first indication signaling including the parameter configuration information and The grouping information.
  • the first receiving module further includes: a second signaling receiving unit, configured to receive second indication signaling sent by the base station, and the second indication signaling includes one of the following two items: One item: multiple group identities of transmission resources to be activated, multiple group identities and resource groups to which the multiple group identities are respectively mapped.
  • the second receiving module includes: an activation information receiving unit configured to receive activation information sent by the base station, where the activation information includes a group identifier of a transmission resource that needs to be activated in the second indication signaling; the activation The module includes: a first activation unit, configured to use the group identifier to activate the transmission resource associated with the group identifier.
  • the first receiving module includes: a first signaling receiving unit configured to receive first indication signaling sent by the base station, where the first indication signaling includes the parameter configuration information;
  • the second signaling receiving unit is configured to receive second indication signaling sent by the base station, where the second indication signaling includes the grouping information.
  • the second receiving module includes: an activation information receiving unit configured to receive activation information sent by the base station, where the activation information includes a group identifier of a transmission resource that needs to be activated; the activation module includes : The second activation unit is configured to use the group identifier to activate the transmission resource associated with the group identifier.
  • the activation information further includes a set identifier of the transmission resource that needs to be activated
  • the activation module includes: a third activation unit configured to activate a resource group associated with the group identifier. The transmission resource corresponding to the set identifier.
  • the grouping information includes offset modes of multiple sets of transmission resources in the group.
  • the activation information includes an indication of the offset mode of multiple sets of transmission resources in the group.
  • the second indication signaling includes a modification indication for modifying the parameter configuration information
  • the apparatus further includes: a parameter modification module, configured to modify according to the second indication signaling Instruct to modify the parameter configuration information.
  • the grouping information includes at least one resource group
  • the resource group includes a set of parameter configuration information of the transmission resource, the number of extended resource sets, and the offset mode used to extend the transmission resource.
  • the device further includes: a resource expansion module, configured to expand the transmission resources included in the resource group according to the offset mode in the resource group until the number of expanded resource sets in the group meets the expanded resources Number of sets.
  • the parameter configuration information further includes the number of extended resource sets and an offset mode used to extend the transmission resource
  • the device further includes: a resource extension module, configured to extend The transmission resource corresponding to the set identifier in the activation information until the number of extended resource sets meets the number of extended resource sets.
  • the device further includes: a resource selection module, configured to select a set of transmission resources from the activated multiple sets of transmission resources after activating the transmission resource by using the group identifier; a data transmission module for Use the selected transmission resource to transmit data.
  • a resource selection module configured to select a set of transmission resources from the activated multiple sets of transmission resources after activating the transmission resource by using the group identifier
  • a data transmission module for Use the selected transmission resource to transmit data.
  • the selected transmission resource includes a set of the multiple sets of transmission resources with the smallest alignment delay.
  • the selected transmission resource includes a set of the multiple sets of transmission resources that can guarantee the configured number of repeated transmissions and has the smallest alignment delay.
  • the configuration information further includes state information, and the state information includes multiple states and at least one set of transmission resources related to each state.
  • the configuration information further includes state information, and the state information includes multiple states and at least one resource group related to each state.
  • the first receiving module includes: an instruction receiving unit, configured to receive a first instruction instruction and a second instruction instruction sent by the user equipment, the first instruction instruction including the parameter configuration information, The second instruction instruction includes the status information; the second receiving module includes: an activation information receiving unit configured to receive activation information of transmission resources sent by the base station, and the activation information includes information about transmission resources that need to be activated Status identifier; using the status identifier to activate the transmission resource related to the status identifier.
  • the state information further includes an offset manner corresponding to each element related to the state, or an offset manner shared by all transmission resources related to the state, and the element includes transmission resources or Resource group.
  • This embodiment can be applied to user equipment.
  • the transmission relationship between the configuration information and the activation information in this embodiment is the same as the content introduced above, and will not be repeated here.
  • FIG. 12 is a schematic structural diagram of a base station for resource configuration according to an embodiment of this application.
  • a base station 70 provided in an embodiment of this application includes a memory 703 and a processor 704.
  • the base station 70 may further include an interface 701 and a bus 702.
  • the interface 701, the memory 703, and the processor 704 are connected through a bus 702.
  • the memory 803 is used to store instructions.
  • the processor 704 is configured to read the instructions to execute the technical solutions of the foregoing method embodiments applied to the base station. The implementation principles and technical effects are similar, and details are not described herein again.
  • FIG. 13 is a schematic diagram of the structure of the user equipment for resource configuration according to an embodiment of the application.
  • the user equipment 80 provided in the embodiment of the application includes a memory 803 and a processor 804.
  • the UE 80 may also include an interface 801 and a bus 802.
  • the interface 801, the memory 803, and the processor 804 are connected through a bus 802.
  • the memory 803 is used to store instructions.
  • the processor 804 is configured to read the instructions to execute the technical solutions of the foregoing method embodiments applied to the UE.
  • the implementation principles and technical effects are similar, and details are not described herein again.
  • FIG. 14 is a schematic structural diagram of a communication system according to an embodiment of the application. As shown in FIG. 14, the system includes: a user equipment 80 according to the foregoing embodiment and a base station 70 according to the foregoing embodiment.
  • the present application provides a storage medium that stores a computer program, and when the computer program is executed by a processor, the method in the foregoing embodiment is implemented.
  • the term user terminal encompasses any suitable type of wireless user equipment, such as mobile phones, portable data processing devices, portable web browsers, or vehicular mobile stations.
  • the various embodiments of the present application can be implemented in hardware or dedicated circuits, software, logic or any combination thereof.
  • some aspects may be implemented in hardware, while other aspects may be implemented in firmware or software that may be executed by a controller, microprocessor or other computing device, although the application is not limited thereto.
  • the embodiments of the present application may be implemented by executing computer program instructions by a data processor of a mobile device, for example, in a processor entity, or by hardware, or by a combination of software and hardware.
  • Computer program instructions can be assembly instructions, instruction set architecture (Instruction Set Architecture, ISA) instructions, machine instructions, machine-related instructions, microcode, firmware instructions, state setting data, or written in any combination of one or more programming languages Source code or object code.
  • the block diagram of any logical flow in the drawings of the present application may represent program steps, or may represent interconnected logic circuits, modules, and functions, or may represent a combination of program steps and logic circuits, modules, and functions.
  • the computer program can be stored on the memory.
  • the memory can be of any type suitable for the local technical environment and can be implemented by any suitable data storage technology, such as but not limited to read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), optical Memory devices and systems (Digital Versatile Disc (DVD) or Compact Disk (CD)), etc.
  • Computer-readable media may include non-transitory storage media.
  • the data processor can be any type suitable for the local technical environment, such as but not limited to general-purpose computers, special-purpose computers, microprocessors, digital signal processors (Digital Signal Processing, DSP), application specific integrated circuits (ASICs) ), programmable logic devices (Field Programmable Gate Array, FPGA) and processors based on multi-core processor architecture.
  • DSP Digital Signal Processing
  • ASICs application specific integrated circuits
  • FPGA Field Programmable Gate Array
  • FPGA Field Programmable Gate Array

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  • Mobile Radio Communication Systems (AREA)

Abstract

本申请提出资源配置的方法、装置、用户设备、基站及存储介质,所述方法包括:向接收侧发送传输资源的配置信息,所述配置信息中包括为所述接收侧分配的多套传输资源的参数配置信息;向所述接收侧发送传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识,所述需要激活的传输资源的标识用于激活所述传输资源。

Description

资源配置的方法、装置、用户设备、基站及存储介质
本申请要求在2019年03月29日提交中国专利局、申请号为201910252965.2的中国专利申请的优先权,该申请的全部内容通过引用结合在本申请中。
技术领域
本申请涉及无线通信网络,例如涉及一种资源配置的方法、装置、用户设备、基站和存储介质。
背景技术
新一代移动通信系统(NR,New Radio)支持给用户设备(UE,User Equipment)配置免调度资源。在用户设备的不同应用场景中资源的配置需求一般是不一样的。资源配置的潜在应用场景包括以下:1、同一UE具有多种服务质量(QoS,Quality of Service)的业务需求。2、确保同一UE同一种业务的可靠性和时延性能。3、支持用户设备间(Inter-UE)的复用场景,避免UE间发生资源碰撞。其中,针对同一业务的场景,为UE配置的时频资源大小、调制与编码策略(MCS,Modulation and Coding Scheme)传输周期等参数可以是相同的。在这种场景下按照资源配置方式,每为UE配置一套资源即发送一个信令去激活此配置的资源,信令开销比较大,同时配置并激活多套资源时会增加物理下行控制信道(PDCCH,Physical Downlink Control Channel)的阻塞率。
发明内容
本申请实施例提供一种资源配置的方法,包括:
向接收侧发送传输资源的配置信息,所述配置信息中包括为所述接收侧分配的多套传输资源的参数配置信息;
向所述接收侧发送传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识,所述激活的传输资源的标识用于激活所述传输资源。
本申请实施例提供一种资源配置的方法,包括:
接收发射侧发送的传输资源的配置信息,所述配置信息中包括为接收侧分配的多套传输资源的参数配置信息;
接收所述发射侧发送的传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识;
利用所述标识激活传输资源。
本申请实施例提供一种资源配置的装置,包括:
第一发送模块,用于向接收侧发送传输资源的配置信息,所述配置信息中包括为所述接收侧分配的多套传输资源的参数配置信息;
第二发送模块,用于向所述接收侧发送传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识,所述激活的传输资源的标识用于激活所述传输资源。
本申请实施例提供一种资源配置的装置,包括:
第一接收模块,用于接收发射侧发送的传输资源的配置信息,所述配置信息中包括为接收侧分配的多套传输资源的参数配置信息;
第二接收模块,用于接收发射侧发送的传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识;
激活模块,用于利用所述标识激活传输资源。
本申请实施例提供一种数据传输的基站,包括:处理器及存储器;
所述存储器设置为存储指令;
所述处理器设置为读取所述指令以执行本申请实施例中发射侧的资源配置的方法。
本申请实施例提供一种数据传输的用户设备,包括:处理器及存储器;
所述存储器设置为存储指令;
所述处理器设置为读取所述指令以执行本申请实施例中接收侧的资源配置的方法。本申请实施例提供了一种存储介质,所述存储介质存储有计算机程序,所述计算机程序被处理器执行时实现本申请实施例中的任意一种方法。
本申请实施例所提供的方案,可以在为接收侧配置多套传输资源时,同时进行分组。在激活过程中激活信息携带传输资源的标识,可以激活一套传输资源或一组中的多套传输资源,实现多套传输资源的准确激活。而且,本申请能够激活一组中的多套传输资源,减少资源配置与激活过程的开销。
附图说明
图1-1至图1-3为本申请提供的传输资源的集合的实施例的示意图;
图2为本申请提供的Inter-UE复用的传输资源之间的关系的一个实施例的示意图;
图3至图8为本申请提供的资源配置的方法的实施例的流程示意图;
图9-1至图9-4为本申请提供的基站与用户设备的交互过程的实施例的示意图;
图10和图11为本申请提供的资源配置的装置的实施例的结构示意图;
图12为本申请提供的资源配置的基站的一个实施例的结构示意图;
图13为本申请提供的资源配置的用户设备的一个实施例的结构示意图;
图14为本申请提供的通信系统的一个实施例的结构示意图。
具体实施方式
下文中将结合附图对本申请的实施例进行详细说明。
本申请实施例需要配置多套传输资源的场景包括但不限于以下几种:
场景1:确保同一个UE的同一业务的可靠性和时延。
在为同一UE的同一业务配置并激活一套传输资源的时候,由于业务到达滞后,此时到达的时序(Time Order n,TOn)滞后于第一个时序(TO1),不能满足K次重复传输或者增加的对齐时延。为此,基站为用户设备提供多套传输资源,多套传输资源具有时域偏移或频域偏移或时频域偏移,可以使得即使业务到达滞后,此时到达的时序与第一个时序之间能够从多套传输资源中选择满足K次重复传输或时延最小的传输资源进行传输,确保同一个UE的同一业务的可靠性和时延。
其中,基站为用户设备配置的多套传输资源可以参见图1-1至图1-3的示例。一个传输资源集合可以包括一套或多套资源。其中,集合内包含多套资源的传输资源集合的偏移方式可以为:时域偏移、频域偏移、时频域偏移中的一种。偏移方式的配置方式包括以下两种:配置方式1为:组内多套传输资源采用一种偏移方式,属于同一集合内的多个资源组采用同一种偏移方式。配置方式2:组内的每一套传输资源分别采用一种偏移方式,属于同一集合内的每一个资源组分别采用一种偏移方式。其中,配置方式1的偏移是相对于组内的第一套传输资源,资源组内的某套资源偏移大小为该资源所在资源组中的位置(第N套)减1乘以配置的偏移粒度。资源配置的粒度可以为:若是时域偏移,则偏移粒度可以为N个符号长度或M个TO长度或L个时隙长度(N,M,L为正整数);若是频域偏移,则偏移粒度可以为I个资源块(Resource Block,RB)或J个资源块组(Resource Block Group,RBG)或K分之一带宽(I,J,K为整数);若是时频域偏移,则偏移粒度为上述时域偏移和频域偏移粒度的组合。例如:图1-1中的集合1包括4套传输资源,分别为#1、#2、#3和#4。组内传输资源 之间的偏移方式为时域偏移,配置的时域偏移大小假定为N个符号或一个TO长度,那么传输资源#1的偏移为0(不偏移);传输资源#2的偏移为向右偏移N个符号或一个TO传输长度;传输资源#3的偏移为向右偏移2N个符号或者2个TO传输长度;传输资源#4的偏移为向右偏移3N个符号或者3个TO传输长度。利用一个下行控制信息(DCI,Downlink Control Information)激活该组中包含的资源,激活此集合1内的4套传输资源,该DCI中包含集合1的组标识的信息指示。图1-2中的集合2包括2套传输资源,分别为#1和#2。传输资源#1和传输资源#2之间的偏移方式为频域偏移,配置的偏移粒度为N个RB,那么#1资源偏移为0(不偏移),#2资源的偏移为向上或者向下偏移N个RB大小。利用一个DCI信令激活该组资源中包含的多套资源,激活此集合2内的2套传输资源,该DCI中包含集合2的组标识的信息指示。图1-3的集合3包括传输资源#1,由于仅有一套传输资源,组内不需要指示偏移方式。
如果RRC信令配置了#1、#2、#3和#4四套传输资源。配置的传输资源中可以包含每套资源的偏移方式,也可以不配置每套资源的偏移方式。若是配置中没有配置偏移方式。此时,可以通过RRC进行分组或将这四套传输资源分别配置到不同的状态中。同一个状态中包含一套或多套资源。也可以通过MAC CE信令将四套进行分组或将这四套传输资源分别配置到不同的状态中。例如,原RRC信令配置中的传输资源#2和传输资源#3配置到一个组(一个状态)中。并且,按照偏移的配置方式1,一个组(一个状态)中配置了一种偏移方式,多套资源的偏移都是基于第一套资源进行偏移。按照偏移的配置方式2,可以通过RRC信令或者MAC CE信令将每套资源的偏移粒度和偏移方式都配置好,按照指示的偏移方式进行偏移。例如,通过RRC信令配置以下:#1+偏移1(offset1),#2+offset2,#3+offset3和#4+offset4这四套配置。即,基站在配置资源的时候为资源配置相应的偏移方式。或者,通过RRC信令直接配置一组中包括的传输资源或一个状态中所包括的传输资源,然后通过MAC CE信令指示各组中或各状态中的传输资源的偏移方式。即,基站在配置资源的时候不为资源配置偏移方式,如果在激活的时候需要资源进行偏移,则可以通过MAC CE进行相应地配置。最后,在激活一组或一个状态中的传输资源时,一个激活信令可以同时激活一组或一个状态中的所有资源,该组或状态中的多套资源按照配置中的偏移进行多套资源间的偏移。
在本申请实施例中,资源集合或资源组内的多套资源的参数配置可以相同。同样地,集合内或组内的多套资源的参数配置也可以不相同。另外,同一套资源可以配置到多个资源集合或资源组内,一个资源组或资源集合中也可以配置多套相同的配置资源。
场景2:UE支持多种QoS业务需求。
在UE支持多种免调度传输业务类型的场景下,即便是同一UE,不同业务类型的性能需求也是不一样。因此,针对每一种业务类型,基站可以分别对应地为用户设备配置一套或多套传输资源。
场景3:在用户设备间(Inter-UE)的复用场景中避免UE间发生资源碰撞。
示例性地,用户设备之间复用增强移动宽带(eMBB,Enhanced Mobile Broadband)和低时延高可靠通信(URLLC,Ultra Reliable & Low Latency Communication)这两种业务场景。例如,为eMBB调度的传输资源与为URLLC配置的免调度传输资源之间发生碰撞。为了避免碰撞,基站可以为UE配置多套资源。此多套资源具有频域偏移或时域偏移等多种偏移方式。参见图2,为URLLC配置四套免调度资源,分别为#1、#2、#3和#4。虚线框表示为eMBB调度的资源。虚线框与资源#3、资源#4重叠。如果仅为用户设备的URLLC业务配置了资源#3或资源#4,则用户设备在同时进行eMBB和URLLC业务的时候,eMBB业务调度的资源与URLLC业务的免调度资源发生碰撞。但是,如果基站为用户设备的URLLC业务配置了如图2的资源#1、#2、#3和#4中,那么在用户设备同时进行eMBB和URLLC业务的时候,用户设备为避免发送碰撞,可以选择资源#1或#2的配置用于URLLC传输。其中,免调度资源#1、#2、#3和#4之间具有的频域偏移。
在本申请实施例中,对于免调度资源的配置和激活包括但不限于两种方式:类型1,参数由无线资源控制(RRC,Radio Resource Control)信令配置好,RRC信令将资源参数配给UE,资源自动激活。类型2,由RRC信令配置一套资源的部分参数,剩下的参数在DCI信令中指示,并且由DCI信令激活该套资源。
对于类型2的方式,RRC信令配置的资源由DCI信令激活,每套资源都需要一个DCI信令来激活。但是,在保证同一用户同一业务的时延和可靠性的场景中,DCI信令开销较大。为了降低DCI信息,可以采用一个DCI同时激活多套资源。
参见图3,以下将描述本申请实施例提供的一种资源配置的方法。本申请实施例可以应用于发射侧的设备,例如基站。在本申请实施例中接收侧的设备可以包括用户设备。本申请实施例将以基站与用户设备之间的交互为例描述本申请提供的方案。本申请实施例包括步骤S110和步骤S120,如下:
S110:向用户设备发送传输资源的配置信息,配置信息中包括为用户设备分配的多套传输资源的参数配置信息。
S120:向用户设备发送传输资源的激活信息,激活信息中包括需要激活的传输资源的标识,此标识用于激活传输资源。
在一些实施例中,配置信息中可以包括多套传输资源的套标识信息,在步骤S120中可以向用户设备发送包括套标识的激活信息。用户设备在接收到激活信息时,利用套标识去激活传输资源。相应地,基站也可以向用户设备发送包括套标识的去激活信息。用户设备可以利用去激活信息中的套标识将相应的传输资源进行去激活。
示例性地,基站为用户设备配置4套传输资源,可以按序号进行排序,包括序号#1至#4的传输资源。通过DCI信令激活这些已配置的资源,DCI信令中包含用于指示套标识的信息。例如,2比特域用于指示套标识,00表示序号#1的传输资源;01表示序号#2的传输资源;10表示序号#3的传输资源;11表示序号#4的传输资源。激活信息所采用的比特域的位数可以满足以下条件:比特域能够表达的最大整数值大于或等于传输资源中排序最高的序号数值。如果激活信息中用于指示具体一个传输资源的套标识比特域小于当前配置的资源套数,则套标识比特域表示的数值可以按顺序一一对应排序的传输资源。
在一些实施例中,除了多套传输资源的参数配置信息,配置信息还可以包括分组信息。分组信息中包括由多套传输资源组合而成的多个资源组。资源组中包括至少一套传输资源。一个资源组具有一个组标识,一套传输资源具有一个套标识。在步骤S120中,基站可以向用户设备发送包括组标识、套标识中至少一个的激活信息。如果激活信息仅包括套标识,则用户设备激活多套传输资源中的一套。如果激活信息包括组标识,则用户设备激活与组标识相对应的一个资源组中所有传输资源。如果激活信息包括组标识和套标识,则用户设备激活与资源组相关联的资源组内的与套标识对应的一套传输资源。本申请实施例可以采用一个激活信息来激活多套传输资源,降低信息传输的开销。
示例性地,基站通过RRC信令为用户设备配置8套传输资源,按序号进行排序,包括序号#1至#8的传输资源。基站通过媒体接入控制单元(MAC CE,Medium Access Control Element)信令或RRC信令将这8套传输资源分成4组,如下表1。
表1
组序号 组内的资源
1 #1
2 #4
3 #1,#6,#7,#8
4 #1,#2,#3,#5
此时,激活信息包含相应的比特(bit)域用于指示组标识,即表1中的组序号。如2bit,00表示序号1的资源组;01表示序号2的资源组;10表示序号3的资源组;11表示序号4的资源组。激活信息所采用的比特域的位数可以满足以下条件:比特域能够表达的最大整数值大于或等于资源组中排序最高的序号数值。如此一个激活信息可以同时激活一组中的所有资源。
激活信息还可以采用相应的bit域来指示该组中被激活的一套资源,即套标识比特域。例如,表1包括8套资源,序号#1至#8的传输资源。则激活信息可以采用3bit表示套标识。其中,3bit表达的数值分别一一对应相同数值的套序号。
如果采用DCI信令传送激活信息,一个DCI中包括2bit的组标识指示域,例如01,表示需要激活序号为1的资源组内的所有资源。如果一个DCI中存有2bit的组标识指示域和3bit的套标识指示域,例如10和101,表示需要激活序号为1的资源组中的序号为#6的一套传输资源。
在一些实施例中,本申请实施例提供的方法还包括:向用户设备发送传输资源的去激活信息,去激活信息中包括需要去激活的传输资源的标识,以使得用户设备利用标识对传输资源去激活。
如果用户设备不需要再使用已激活的传输资源,基站可以向用户设备发送去激活信息。用户设备在接收到去激活信息的时候,利用该去激活信息中的标识对相应的传输资源进行去激活。
其中,如果去激活信息中的标识仅包括套标识,则对与该套标识相对应的传输资源进行去激活。如果去激活信息中的标识包括组标识,则对与该组标识相对应的资源组中所有的传输资源进行去激活。如果去激活信息中的标识包括组标识和套标识,则对与该组标识相对应的资源组中的与该套标识相对应的传输资源进行去激活。本申请实施例可以采用一个去激活信息对多套传输资源进行去激活。
在一些实施例中,基站可以利用RRC信令和DCI信令对UE进行配置资源以及激活资源。参见图4,本申请实施例提供一种资源配置与激活的方法,包括步骤S21和S22,如下:
S21:向用户设备发送第一指示信令,第一指示信令中包括参数配置信息和分组信息。
S22:向用户设备发送激活信息,激活信息中包括需要激活的传输资源的组标识,激活信息中的组标识用于激活与组标识关联的传输资源。其中,与组标 识关联的传输资源可以为与组标识对应的资源组中的多套传输资源。例如,激活信息中的组标识为二进制的“10”,相应的十进制数值为3,则用户设备激活第3组资源组中的所有传输资源。
在本实施例中,基站可以通过RRC信令为用户设备配置多套传输资源,例如免调度资源,用于物理上行共享信道(PUSCH,Physical Uplink Share Channel)或物理下行共享信道(PDSCH,Physical Downlink Share Channel)等信道的数据传输。RRC信令中的多套传输资源分配在多个资源组中,每组资源对应一个序号,表示组标识。其中,一个资源组中的资源对应UE的一个QoS业务需求。多个资源组可以满足UE的多个QoS业务需求。一个资源组中可以包括一套或者多套传输资源。如果资源组中包括多套资源,则多套资源之间存在一个偏移。偏移可以包括时域偏移、频域偏移及时频偏移中的一种。在一些实施例中,在资源组中包括多套资源的情况下,组内的多套资源的参数可以是分别独立配置,也可以由其中的一套资源的参数进行扩展而得到的组内其他资源。基站向用户设备发送RRC信令,可以配置多套传输资源的参数配置信息以及分组信息。分组信息中可以包括组标识及与组标识关联的至少一个套标识。在需要激活资源的情况下,基站向用户设备发送DCI信令,DCI信令中可以携带组标识、或者携带组标识和套标识。DCI信令可以采用比特域的形式表征具体的标识。用户设备在接收到DCI信令的时候,激活相应的资源组中所有传输资源或指定的一套传输资源。
其中,如果分组信息中包括多个可选的组内多套传输资源之间的偏移方式,则可以通过DCI信令指示具体的组内传输资源之间的偏移方式。或者,DCI信令可以通过不同的无线网络临时标识(RNTI,Radio Network Temporary Identity)和加扰来区分多个的偏移方式,进而可以指示具体的偏移方式。如果分组信息仅包括一个组内多套传输资源的偏移方式,则DCI信令中不需要指示偏移方式。用户设备在接收到DCI信令的时候,在激活相应资源组内的多套传输资源的同时,按照DCI信令指示的偏移方式进行对激活的多套传输资源进行偏移。其中组内多套资源之间的偏移都是针对第一套资源的偏移。偏移方式可以包括时域偏移、频域偏移或时频域偏移中的一项。
在一些实施例中,还可以利用MAC CE信令从RRC信令配置的多个组资源中选择部分组或全部组,并指示组内多套资源之间的偏移方式。并利用DCI信令去激活资源组中的多套传输资源或一套传输资源。参见图5,本申请实施例提供的一种资源配置与激活的方法。本实施例包括步骤S31至S33,如下:
S31:向用户设备发送第一指示信令,第一指示信令中包括参数配置信息和分组信息。
S32:向用户设备发送第二指示信令,第二指示信令中包括以下其中一项:需要激活的传输资源的多个组标识,多个组标识和多个组标识分别映射的资源组。例如,第二指示信令中包括组标识G1、G2和G3。再如,第二指示信令中包括组标识G1、G2和G3,还包括组标识G1映射的资源组G5,组标识G2映射的资源组G6和组标识G3映射的资源组G7。
S33:向用户设备发送激活信息,激活信息中包括第二指示信令中需要激活的传输资源的组标识,激活信息中的组标识用于激活与组标识关联的传输资源。接前例,如果激活信息包括组标识G1,此时,用户设备激活组标识G1所映射的资源组G5。
在本实施例中,基站通过RRC信令为UE配置多套传输资源,例如免调度资源,用于上行PUSCH或PDSCH等信道的数据传输。每套免调度传输资源对应的一套独立的参数配置信息,每套传输资源可以对应一个序号,以表示套标识。在需要的时候,基站可以通过RRC信令将先前配置的多套传输资源配置到多个资源组中,资源组可以包括一套或者多套传输资源。其中,同一套资源可以配置到不同的组中,组内多套资源之间配置偏移。按照上述偏移的配置方式1进行配置:偏移方式可以包括时域偏移、频域偏移或时频域偏移中的一项。偏移是相对组内第一套传输资源。例如,组内包括#1、#2和#3三套资源,三套资源对应一个偏移。可以示意为:#1,2,3+offset。或者,按照上述偏移的配置方式2进行配置:组内的每套资源都配置一个偏移,偏移方式可以是时域偏移、频域偏移或时频域偏移中的一项。例如,组内包括#1、#2和#3三套资源,三套资源各自对应一个偏移。可以示意为:#1+offset,#2+offset,#3+offset。
在一些实施例中,基站还可以通过一个RRC信令同时将多套传输资源的参数配置信息及分组信息发送给用户设备。其中,参数配置信息中可以包含每套资源的偏移信息也可以不包含每套资源的偏移信息。若是RRC信令配置多套传输资源的参数配置信息时每套资源配置了资源的偏移信息,后续信息指示时就可以不再配置偏移信息了。
在需要的时候,基站通过MAC CE信令可以从RRC信令配置的多个资源组中选择部分组或全部组并指示组内多套资源之间的偏移方式。其中,MAC CE信令可以将选择的资源组建立新的排序,且各资源组包括相应的套标识。或者,MAC CE信令为选择的资源组的新组标识与此资源组在原RRC信令中的组标识进行映射。用户设备可以保存此映射关系,在激活的时候,根据映射关系查找到要激活的资源组。
在一些实施例中,RRC信令配置分组信息的同时,可以为组内多套资源之间配置一种或多种可选的偏移方式。如果RRC信令只配置了一种偏移方式,那 么相应的MAC CE信令或DCI信令不需要指示偏移方式。如果RRC信令配置了多种偏移方式,MAC CE信令或DCI信令需要从中选择一种偏移方式。
在需要的时候,基站通过DCI信令激活MAC CE指示的资源组,DCI中包含用于指示组标识的比特域,例如组序号或集合序号。此组序号或集合序号可以是MAC CE指示的序号。如果此资源组包括多套资源,DCI同时激活该组中的多套资源。如果DCI中还包括相应的比特域,用于指示具体资源组中被激活的传输资源的套标识,则激活此资源组中与该比特域对应的一套传输资源。
示例性地,基站通过RRC信令为用户设备配置8套传输资源,可以按序号进行排序,包括序号为#1至#8的传输资源。并通过RRC信令将8套传输资源分组成8个资源组,如下表2。
表2
组序号 组内的资源
1 #1
2 #4
3 #1,#6,#7,#8
4 #1,#2,#3,#5
5 #5
6 #6
7 #7
8 #1,#1,#1,#1
假设DCI信令中配置了2bit的组标识指示域,且需要激活第5组或组序号大于5的资源组,此时,如果在上述分好的组的情况下,基站直接发送DCI,无法直接激活第5组或组序号数值大于5的资源组。为此,本实施例可以通过MAC CE信令选择RRC信令配置的8组资源中需要激活的资源组进行映射。示例性地,MAC CE信令选择RRC配置的8组资源中原组序号为4、5、6、7的资源组,如下表3。
表3
Figure PCTCN2020081372-appb-000001
针对MAC CE信令指示的资源组中存在包括多套传输资源的资源组的情况,MAC CE信令可以从RRC信令配置的多种偏移方式中选择或指示具体的偏移方式。例如,RRC配置了频域偏移和时域偏移这两种可选的偏移方式。通过MAC CE信令指示具体使用的偏移方式,例如频域偏移。如果RRC配置了一种偏移方式,则MAC CE信令不指示具体使用的偏移方式。
此时DCI信令可以采用2bit的组标识指示域,去激活MAC CE指示的组序号为1、2、3和4中的任一个资源组。其中,MAC CE指示的组序号依排列顺序分别与原组序号4、5、6、7建立一一映射的关系。如果DCI信令包括的组标识指示域为11,则可以激活MAC CE中所指示的组序号4的资源组,MAC CE指示的组序号4与原组序号7是相互映射的,即可以激活原序号7的资源组。因此,本申请实施例可以通过MAC CE来修改部分RRC配置的参数,从而能够减小激活DCI中的信令开销。
在一些实施例中,基站可以采用RRC信令、MAC CE信令以及DCI信令这三者进行资源配置与激活。参见图6,本申请实施例提供一种资源配置与激活的方法,包括步骤S41至S43,如下:
S41:向用户设备发送第一指示信令,第一指示信令中包括参数配置信息。
S42:向用户设备发送第二指示信令,第二指示信令中包括分组信息。
S43:向用户设备发送激活信息,激活信息中包括需要激活的传输资源的组标识,激活信息中的组标识用于激活与组标识关联的传输资源。
在本实施例中,基站通过RRC信令给UE配置多套免调度传输资源,此免调度传输资源用于上行PUSCH或下行PDSCH等信道传输。其中,每套免调度传输资源对应的一套独立的参数配置信息,每套资源可以对应一个序号,以表示套标识。在需要的时候,基站通过MAC CE信令将这多套免调度资源的部分或者全部资源配置到不同的资源组或者资源集合中。每个资源组或者资源集合 对应一个序号,以表示组标识或集合标识。
如果资源组内包括多套传输资源,MAC CE信令可以为此资源组多套传输资源之间配置偏移。本申请实施例不限于采用MAC CE信令对RRC信令所配置的信息进行信息补充或修改,也可以采用RRC信令对先前的RRC信令所配置的信息进行补充或修改。其中,偏移的配置可以按照前述偏移的配置方式1或配置方式2进行。
在一些实施例中,基站可以通过RRC信令配置组内多套传输资源的偏移方式或提供多种可选的偏移方式。在后续,按照偏移的配置方式1,基站可以通过MAC CE信令从RRC信令中配置的多种偏移方式中选择其中一种偏移方式,作为包含多套传输资源的资源组的偏移方式。或者,按照偏移的配置方式2,基站可以通过MAC CE信令从RRC信令中配置的多种偏移方式中为资源组内每一套传输资源选择一种偏移方式。
在需要激活的时候,基站向用户设备发送DCI信令,信令中包括有组标识的指示域。通过DCI可以激活与组标识关联的资源组中所有的传输资源。信令中还可以包括套标识,用户设备可以激活与组标识关联的资源组中的与套标识对应的传输资源。
示例性地,基站通过RRC信令为UE配置8套资源,分别为:#1,#2,#3,4#,5#,6#,7#和8#。通过MAC CE信令将RRC信令中的8套资源配置成4组,各组包括一个或多个套标识,如下表4。
表4
组序号 组内的资源
1 #1
2 #4
3 #1,#6,#7,#8
4 #1,#2,#3,#5
由于资源组的组数为4组,则DCI可以设置2比特域(2bit)来表示组标识。其中,00表示组序号1,01表示组序号2,10表示组序号3,11表示组序号4。例如,DCI信令中包括11的组标识比特域,则用户设备激活组序号为4的资源组。由于配置的资源包括8套,可以在DCI中设置3比特域(3bit)来表示套标识。其中,000表示套序号1,001表示套序号2,010表示套序号3,011表示 套序号4,100表示套序号5,101表示套序号6,110表示套序号7,111表示套序号8。例如,DCI中包括11的组标识比特域和100的套标识比特域,则用户设备激活第4组资源组中的第5套传输资源。
在一些实施例中,如果激活信息中用于指示具体一个资源组的套标识比特域小于该组的资源套数,那么套标识比特域表示的数值按顺序一一对应组中按顺序排序的传输资源。例如,DCI采用了2bit来表示套标识。如果DCI指示激活第4组资源组,如表4所示,第4个资源组包括#1,#2,#3和#5的传输资源,则00表示第4个资源组中的套序号#1,01表示第4个资源组中的套序号#2,10表示第4个资源组中的套序号#3,11表示第4个资源组中的套序号#5。
在一些实施例中,激活信息除了包括需要激活的传输资源的组标识之后,还包括需要激活的传输资源的套标识。那么,用户设备在接收到激活信息之后,激活与组标识关联的资源组内的与套标识对应的传输资源。因此,本申请实施例可以激活资源组中的一套传输资源或多套传输资源。
在一些实施例中,分组信息中可以包括组内多套传输资源的偏移方式,激活信息中包括组内多套传输资源的偏移方式指示。分组信息可以通过第一指示信令或第二指示指令传送。如果第一指示信令或第二指示信令中指示的偏移方式仅包括一种,具有唯一性,则激活信息中可以不需要指示具体的偏移方式。如果第一指示信令或第二指示信令中指示的偏移方式包括多种,不具有唯一性,则激活信息中需要从中指示一种偏移方式。例如,通过RRC信令或MAC CE信令进行分组时配置多个可选的偏移方式,然后由DCI信令或MAC CE信令从中指示某一种偏移方式。如果RRC信令仅配置一种偏移方式,则MAC CE信令和DCI信令均可以不对偏移方式进行指示。如果RRC信令没有配置偏移方式,则可以通过MAC CE信令或DCI信令直接配置偏移方式。
在一些实施例中,基站向用户设备发送的第二指示信令中还可以包括用于修改参数配置信息的修改指示。即通过RRC信令或者MAC CE信令修改多套传输资源的参数配置信息。例如,传输数据的周期、功控参数以及重复传输次数K等参数。在一些场景下,RRC信令给UE配置了多套传输资源及多套传输资源的组合,激活的该多套资源一段时间后和用户的业务不匹配了。如果此时采用RRC信令进行传输资源的重新配置,一方面会增加额外的时延,另外一方面也会带来较大的信令开销,可以通过MAC CE信令来修改原来RRC信令配置的参数,可以更好地匹配当前用户的业务。其中,修改方式可以包括:在未分组的情况下,修改某一套传输资源的一个或多个参数;在资源分组或分集合的情况下,修改某一资源组(某一状态对应的集合)中某一套传输资源的一个或多个参数,修改某一资源组(某一状态对应的集合)中所有传输资源的一个或多个 参数,修改所有资源组(某一状态对应的集合)中某一套传输资源的一个或多个参数等。
在一些实施例中,如果RRC信令配置的参数配置信息有部分参数未配置,可以通过MAC CE信令进行配置。例如,RRC信令配置了多套传输资源但未配置组内多套传输资源之间的偏移方式,则可以按照前述的偏移的配置方式1或配置方式2,通过MAC CE信令按照对组内多套传输资源之间的偏移方式进行配置。
在一些实施例中,如果RRC信令配置需要激活的资源状态信息较多,激活信令中没有足够的bit域匹配RRC配置对应的状态信息,可以通过MAC CE从RRC配置的多个状态中选择部分状态指示给用户,激活信令激活MAC CE选择的部分资源状态信息。
在一些实施例中,基站如果通过RRC信令或MAC CE信令向用户设备发送分组信息,分组信息中包括至少一个资源组,资源组包括一套传输资源的参数配置信息、扩展资源套数和用于扩展传输资源的偏移方式。用户设备在获知该资源组中包括有扩展资源套数这个信息的情况下,可以按照该资源组的偏移方式对组内的一套传输资源进行逐位偏移,直至组内扩展得到的传输资源的套数满足扩展资源套数。扩展后的此资源组中的多套传输资源的参数配置是相同的,但不同套的传输资源之间存在一个偏移。
在一些实施例中,基站通过RRC信令向用户设备发送资源的参数配置信息,每套资源的参数配置信息都包含一个套标识,资源的参数配置信息中包含扩展资源套数N和用于扩展资源的偏移方式。第一套资源的资源位置有激活信令指示,后续N-1套资源分别相对第一套进行偏移,偏移的配置可以如前面描述的偏移的配置方式1。
在一些实施例中,基站通过RRC信令向用户设备发送资源的参数配置信息,每套资源的参数配置信息都包含一个套标识,资源的参数配置信息中包含多个偏移方式,用户在收到激活信令后,就将该套资源按照指示的多个偏移方式进行偏移,即配置的该套信息有多个相同或不同的时/频域资源的起点。
在一些实施例中,基站通过RRC信令向用户设备发送资源的参数配置信息,每套资源的参数配置信息都包含一个套标识,资源的参数配置信息中包含一个偏移方式和偏移的次数N,用户在收到激活信令后,就将该套资源按照前述的偏移的配置方式2进行偏移,即配置的该套信息有N+1个相同或不同的时/频域资源的起点。
在一些实施例中,如果RRC信令配置了包括多套传输资源,但没有配置扩 展资源套数N以及偏移方式,则可以通过MAC CE信令配置扩展资源套数N以及偏移方式,用户设备分别对此多套传输资源进行扩展,扩展成多个资源组。
在一些实施例中,上述向用户设备发送的配置信息还可以包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一套传输资源或至少一个资源组。
在一些实施例中,状态信息还可以包括与同一状态相关的各套传输资源或各套资源组分别对应的偏移方式、或与同一状态相关的所有传输资源共享的一个偏移方式。
在一些实施例中,本申请实施例可以通过第一指示指令或第二指示指令发送状态信息。其中的一种实施方式可以如下:向用户设备发送第一指示指令或第二指示指令,第一指示指令包括参数配置信息,第二指示指令包括状态信息。如此,在向用户设备发送传输资源的激活信息,激活信息可以包括需要激活的传输资源的状态标识。状态标识用于激活与此状态标识对应的传输资源。具体地,用户设备可以利用状态标识激活与状态标识相关的传输资源。与状态标识相关的传输资源可以包括:与状态标识相关的一套或多套传输资源、与状态标识相关的一组或多组传输资源。
以下描述与状态信息相关的资源配置与激活过程:
基站可以通过RRC信令为用户设备配置多套传输资源,例如:#1、#2、#3和#4。在配置多套传输资源也可以设置各套资源的状态,一套资源可以包括一个或多个状态。或者在后续通过RRC信令或MAC CE信令将原来配置的多套传输资源指示多个状态。同样地,可以通过RRC信令或MAC CE信令对传输资源的偏移方式进行配置。如果RRC信令没有为多套传输资源配置偏移方式,则可以通过MAC CE信令配置。
结合上述描述,可知每个状态下的集合包括一套或多套资源,集合内的每一套资源可以对应一种偏移方式或集合内所有资源对应一种偏移方式。其中,集合内的每一套资源所对应的偏移方式可以相同也可以不相同。如表5和表6所示。
表5
状态 资源配置1
0 #1+offset1,#1+offset2,#2+offset1,#2+offset2
1 #2+offset2
2 #3+offset1;#3+offset3
3 ……
表6
状态 资源配置2
0 #1,#2,#3,#4;+offset1
1 #1;+offset1
2 #2;+offset2
3 #3,#4;+offset4
其中,offset1,offset2,offset3,offset4表示偏移方式。
在一些实施例中,通过RRC信令为用户设备配置多组传输资源,每组中包括一套或多套传输资源,例如:#G1、#G2、#G3和#G4。组内资源之间的偏移方式可以配置好也可以没有配置好。如果组内资源之间的偏移方式没有配置,则可以通过MAC CE信令进行配置。类似上述为每套资源设置一个或多个状态的方式,也可以为每组资源设置一个或多个状态。即每个状态下的集合至少包括一个资源组。集合内的每一组资源可以对应一种偏移方式或集合内所有资源组对应一种偏移方式。其中,集合内的每一套资源所对应的偏移方式可以相同也可以不相同。如下表7和表8。
表7
状态 资源配置1
0 #G1+offset1,#G1+offset2,#G2+offset1,#G2+offset2
1 #G2+offset2
2 #G3+offset1,#G3+offset3
3 ……
表8
状态 资源配置2
0 #G1,#G2,#G3,#G4;+offset1
1 #G1;+offset1
2 #G2;+offset2
3 #G3,#G4;+offset4
如此,在RRC信令为用户设备配置了多个资源组的情况下,还可以通过MAC CE信令设置各个资源组的状态,以此重新组合多组资源。激活信息中可以通过一个状态标识,例如状态“0”,来激活状态“0”集合内的多个资源组,例如上表7和表8包含的#G1、#G2、#G3和#G4的资源组。
参见图7,本申请实施例提供一种资源配置的方法,可以应用于用户设备,包括步骤S210至步骤S230,如下:
S210:接收基站发送的传输资源的配置信息,配置信息中包括为用户设备分配的多套传输资源的参数配置信息。
S220:接收基站发送的传输资源的激活信息,激活信息中包括需要激活的传输资源的标识。
S230:利用标识激活传输资源。
在一些实施例中,配置信息还包括分组信息,分组信息中包括由多套传输资源组合的多个资源组,资源组中包括至少一套传输资源。
在一些实施例中,配置信息还包括多套传输资源的套标识信息,标识包括套标识。
在一些实施例中,本申请实施例提供的资源配置的方法,应用在用户设备中,还包括:接收基站发送的传输资源的去激活信息,去激活信息中包括需要去激活的传输资源的标识;根据标识对传输资源去激活。
在一些实施例中,激活信息或去激活信息中包含的标识可以包括套标识、组标识中的至少一个。
在一些实施例中,配置信息包括多套传输资源的参数配置信息和分组信息,上述步骤S210中可以包括:接收基站发送的第一指示信令,第一指示信令中包括参数配置信息和分组信息。用户设备可以通过RRC信令或MAC CE信令的组合接收参数配置信息和分组信息。
在一些实施例中,用户设备接收基站发送的激活信息,激活信息中包括需要激活的传输资源的组标识。用户设备利用组标识,激活与组标识关联的传输资源。用户设备可以通过DCI信令接收激活信息。
在一些实施例中,用户设备在激活之前还可以通过第二指示信令从已配置的多个资源组中选择部分或全部资源组,以方便后续激活。本实施例提供的方法还包括:接收基站发送的第二指示信令,第二指示信令中包括以下两项中一项:需要激活的传输资源的多个组标识,多个组标识和多个组标识分别映射的资源组;接收基站发送的激活信息,激活信息中包括第二指示信令中需要激活的传输资源的组标识;利用组标识,激活与组标识关联的传输资源。
在一些实施例中,用户设备可以先接收参数配置信息,后续再接收相应的分组信息。因此,上述步骤S210可以包括:接收基站发送的第一指示信令,第一指示信令中包括参数配置信息;接收基站发送的第二指示信令,第二指示信令中包括分组信息。具体地,通过RRC信令接收多套传输资源的参数配置信息,并通过MAC CE接收这多套传输资源的分组信息。分组信息中可以包括偏移方式。
进一步地,用户设备可以接收基站发送的激活信息,激活信息中包括需要激活的传输资源的组标识,并利用组标识,激活与组标识关联的传输资源。
在一些实施例中,在用户设备已配置多个资源组的情况下,激活信息中除了组标识还包括需要激活的传输资源的套标识。如此,用户设备激活与组标识关联的资源组内的与套标识对应的传输资源。
在一些实施例中,用户设备接收到的分组信息中可以包括组内多套传输资源的偏移方式。
在一些实施例中,用户设备接收到的激活信息中可以包括组内多套传输资源的偏移方式指示。
在一些实施例中,用户设备接收到的第二指示信令中还可以包括用于修改参数配置信息的修改指示。则用户设备可以根据第二指示信令中的修改指示,修改参数配置信息。
在一些实施例中,用户设备接收到的分组信息包括至少一个资源组,资源组包括一套传输资源的参数配置信息、扩展资源套数和用于扩展传输资源的偏移方式。用户设备可以基于资源组包含的信息进行资源扩展,使得资源组可以包括多套传输资源。具体地,本申请实施例应用在用户设备上的方法还包括:
按照资源组中的偏移方式,扩展资源组中包括的传输资源,直至组内扩展后的资源套数满足扩展资源套数。
在一些实施例中,参数配置信息中还包括扩展资源套数和用于扩展传输资源的偏移方式。
本申请实施例提出的方法可以应用于用户设备,其中的参数配置信息、分组信息以及激活信息在基站与用户设备之间的传输关系在上述实施例中已有介绍,在此不再赘述。
在一些实施例中,用户设备在利用组标识激活传输资源的同时,还可以从需要激活的资源组中,按照UE的需求从中选择一套传输资源。参见图8,本申请实施例应用在用户设备的方法还可以包括:
S51,从激活的多套传输资源中,选择一套传输资源。
S52,利用选择的传输资源,传输数据。
在一些实施例中,选择的标准可以包括多套传输资源中对齐时延最小的一套、多套传输资源中能够保证配置的多次重复传输次数且对齐时延最小的一套中的一个。对齐时延为业务到达后到业务能够传输之间的这段等待时延。
在一些实施例中,配置信息还包括状态信息,状态信息中包括多个状态和每个状态相关的至少一套传输资源或至少一个资源组。
在一些实施例中,用户设备接收基站发送的传输资源的配置信息,可以包括:接收用户设备发送的第一指示指令和第二指示指令,第一指示指令包括参数配置信息,第二指示指令包括状态信息。
用户设备接收基站发送的传输资源的激活信息,可以包括:接收基站发送的传输资源的激活信息,激活信息包括需要激活的传输资源的状态标识;利用状态标识激活与状态标识相关的传输资源。
在一些实施例中,状态信息还包括与状态相关的各元素分别对应的偏移方式、或与状态相关的所有传输资源共享的偏移方式,此元素包括传输资源或各套资源组。
参见图9-1至图9-4,其为本申请实施例提供的基站与用户设备的交互过程的流程示意图。以下仅为示例性地描述这几个实施方式的交互过程。
参见图9-1,本实施例采用RRC信令与DCI信令进行交互,包括如下步骤:
S310:基站向用户设备发送RRC信令,RRC信令中包括参数配置信息和分组信息。用户设备收到RRC信令,从中获知其可以准备使用的多套传输资源的参数配置信息以及这多套传输资源的分组信息。分组信息中可以包括多个可选择的组内多套资源之间的偏移方式。
S320:基站向用户设备发送DCI信令,DCI信令包括组标识,或者,DCI 信令包括组标识和套标识。DCI信令中可以指示具体的偏移方式。如果RRC没有配置偏移方式,则DCI可以直接配置偏移方式。如果RRC中仅包括一个偏移方式,则DCI可以不指示具体的偏移方式。
S330:用户设备根据DCI信令中包含的标识,激活相应的传输资源。如果DCI信令仅包括组标识,则激活与组标识关联的资源组中所有的传输资源。如果DCI信令包括组标识和套标识,则激活与组标识关联的资源组中的与套标识相对应的一套传输资源。
参见图9-2,本实施例采用RRC信令与DCI信令进行交互,包括如下步骤:
S410:基站向用户设备发送RRC信令,RRC信令中包括多套传输资源的参数配置信息以及此多套传输资源的套标识信息。用户设备收到RRC信令,从中获知其可以准备使用的多套传输资源的参数配置信息以及套标识信息。
S420:基站向用户设备发送DCI信令,DCI信令包括套标识。
S430:用户设备根据套标识从套标识信息确定相应的传输资源,按照该传输资源的参数配置信息激活此传输资源。
参见图9-3,本实施例采用RRC信令、MAC CE以及DCI信令进行交互,包括如下步骤:
S510:基站向用户设备发送RRC信令,RRC信令包括多套传输资源的参数配置信息和分组信息。用户设备收到RRC信令,从中获知其可以准备使用的多套传输资源的参数配置信息以及这多套传输资源的分组信息。分组信息中可以包括多个可选择的组内多套资源之间的偏移方式。
S520:基站向用户设备发送MAC CE信令,MAC CE信令包括需要激活的传输资源的至少一个组标识以及此组标识映射的RRC信令中配置的资源组。MAC CE信令中可以指示具体的偏移方式。如果RRC没有配置偏移方式,则MAC CE信令可以直接配置偏移方式。如果RRC中仅包括一个偏移方式,则MAC CE可以不指示具体的偏移方式。
S530:用户设备按照MAC CE信令将RRC信令中配置的资源组进行映射标识,确定MAC CE信令所指示的资源组。
S540:基站向用户设备发送DCI信令,DCI信令包括组标识,或者,DCI信令包括组标识和套标识。此组标识为MAC CE信令中包含的标识。
S550:用户设备按照DCI信息的标识,激活在MAC CE信令中指示的相应的资源组中的传输资源。如果DCI还包括套标识,则激活此资源组中与套标识相对应的一套传输资源。如果激活的资源组包括多套传输资源,则按照MAC CE 信令中指示的相应偏移方式或RRC配置的一个偏移方式,对此资源的多套传输资源进行偏移。
参见图9-4,本实施例采用RRC信令、MAC CE信令以及DCI信令进行交互,包括如下步骤:
S610:基站向用户设备发送RRC信令,RRC信令包括多套传输资源的参数配置信息。
S620:基站向用户设备发送MAC CE信令,MAC CE信令包括RRC信令中的多套传输资源的分组信息。例如,组标识以及与组标识关联的套标识。分组信息中可以包括包含多套资源的各资源组的偏移方式。
S630:基站向用户设备发送DCI信令,DCI信令包括组标识,或者,DCI信令包括组标识和套标识。
S640:用户设备根据DCI信令,激活相应的传输资源。如果DCI信令仅包括组标识,则激活与组标识关联的资源组中所有的传输资源。如果DCI信令包括组标识和套标识,则激活与组标识关联的资源组中的与套标识相对应的一套传输资源。如果激活的资源组包括多套传输资源,则按照MAC CE信令中配置的相应偏移方式,对此资源的多套传输资源进行偏移。
参见图10,本申请实施例提供的资源配置的装置的一个实施例的结构示意图,包括:第一发送模块110,用于向用户设备发送传输资源的配置信息,所述配置信息中包括为所述用户设备分配的多套传输资源的参数配置信息;第二发送模块120,用于向所述用户设备发送传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识,所述激活的传输资源的标识用于激活与所述传输资源。
在一些实施例中,所述配置信息中还包括分组信息,所述分组信息中包括由所述多套传输资源组合中的多个资源组,所述资源组中包括至少一套传输资源,所述资源组具有组标识,所述传输资源具有套标识。
在一些实施例中,所述配置信息还包括所述多套传输资源的套标识信息,所述标识包括套标识。
在一些实施例中,所述装置还包括:第三发送模块130,用于向所述用户设备发送传输资源的去激活信息,所述去激活信息中包括需要去激活的传输资源的标识,所述去激活的传输资源的标识用于对所述传输资源去激活。
在一些实施例中,所述标识包括套标识、组标识中的至少一个。
在一些实施例中,所述第一发送模块包括:第一信令发送单元,用于向所 述用户设备发送第一指示信令,所述第一指示信令中包括所述参数配置信息和所述分组信息。
在一些实施例中,所述第一发送模块还包括:第二信令发送单元,用于向所述用户设备发送第二指示信令,所述第二指示信令中包括以下两项中的一项:需要激活的传输资源的多个组标识,多个组标识和所述多个组标识分别映射的资源组;所述第二发送模块包括:激活信息发送单元,用于向所述用户设备发送激活信息,所述激活信息中包括所述第二指示信令中需要激活的传输资源的组标识,所述激活的传输资源的组标识用于激活与所述组标识关联的传输资源。
在一些实施例中,所述第一发送模块包括:第一信令发送单元,用于向所述用户设备发送第一指示信令,所述第一指示信令中包括所述参数配置信息;第二信令发送单元,用于向所述用户设备发送第二指示信令,所述第二指示信令中包括所述分组信息。
在一些实施例中,所述第二发送模块包括:激活信息发送单元,用于向所述用户设备发送激活信息,所述激活信息中包括需要激活的传输资源的组标识,所述激活的传输资源的组标识用于激活与所述组标识关联的传输资源。
在一些实施例中,所述激活信息中还包括需要激活的传输资源的套标识,所述激活的传输资源的套标识用于激活与所述组标识关联的资源组内的与所述套标识对应的传输资源。
在一些实施例中,所述分组信息中包括组内多套传输资源的偏移方式。
在一些实施例中,所述激活信息中包括组内多套传输资源的偏移方式指示。
在一些实施例中,所述第二指示信令中包括用于修改所述参数配置信息的修改指示。
在一些实施例中,所述分组信息中包括至少一个资源组,所述资源组包括一套所述传输资源的参数配置信息、扩展资源套数和用于扩展所述传输资源的偏移方式。
在一些实施例中,所述配置信息还包括扩展资源套数和用于扩展所述传输资源的偏移方式。
在一些实施例中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一套传输资源。
在一些实施例中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一个资源组。
在一些实施例中,所述状态信息还包括与所述状态相关的各元素分别对应 的偏移方式、或与所述状态相关的所有传输资源共享的偏移方式,所述元素包括传输资源或资源组。
在一些实施例中,所述第一发送模块包括:指令发送单元,用于向所述用户设备发送第一指示指令和第二指示指令,所述第一指示指令包括所述参数配置信息,所述第二指示指令包括所述状态信息;所述第二发送模块包括:激活信息发送单元,用于向所述用户设备发送传输资源的激活信息,所述激活信息包括需要激活的传输资源的状态标识,所述激活的传输资源的状态标识用于激活与所述状态标识相关的传输资源。
本实施例可以应用于基站。本实施例的配置信息以及激活信息的传输关系上述介绍的内容相同,在此不再赘述。
参见图11,本申请实施例提供的资源配置的装置的一个实施例的结构示意图,包括:第一接收模块210,用于接收基站发送的传输资源的配置信息,所述配置信息中包括为所述用户设备分配的多套传输资源的参数配置信息;第二接收模块220,用于接收基站发送的传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识;激活模块230,用于利用所述标识激活传输资源。
在一些实施例中,所述配置信息还包括分组信息,所述分组信息中包括由所述多套传输资源组合的多个资源组,所述资源组中包括至少一套传输资源,所述资源组具有组标识,所述传输资源具有套标识。
在一些实施例中,所述配置信息还包括所述多套传输资源的套标识信息,所述标识包括套标识。
在一些实施例中,所述装置还包括:第三接收模块240,用于接收所述基站发送的传输资源的去激活信息,所述去激活信息中包括需要去激活的传输资源的标识;去激活模块250,用于根据所述标识对传输资源去激活。
在一些实施例中,所述标识包括套标识、组标识中的至少一个。
在一些实施例中,所述第一接收模块包括:第一信令接收单元,用于接收所述基站发送的第一指示信令,所述第一指示信令中包括所述参数配置信息和所述分组信息。
在一些实施例中,所述第一接收模块还包括:第二信令接收单元,用于接收所述基站发送的第二指示信令,所述第二指示信令中包括以下两项中的一项:需要激活的传输资源的多个组标识,多个组标识和所述多个组标识分别映射的资源组。
所述第二接收模块包括:激活信息接收单元,用于接收所述基站发送的激活信息,所述激活信息中包括所述第二指示信令中需要激活的传输资源的组标 识;所述激活模块包括:第一激活单元,用于利用所述组标识,激活与所述组标识关联的传输资源。
在一些实施例中,所述第一接收模块包括:第一信令接收单元,用于接收所述基站发送的第一指示信令,所述第一指示信令中包括所述参数配置信息;第二信令接收单元,用于接收所述基站发送的第二指示信令,所述第二指示信令中包括所述分组信息。
在一些实施例中,所述第二接收模块包括:激活信息接收单元,用于接收所述基站发送的激活信息,所述激活信息中包括需要激活的传输资源的组标识;所述激活模块包括:第二激活单元,用于利用所述组标识,激活与所述组标识关联的传输资源。
在一些实施例中,所述激活信息中还包括需要激活的传输资源的套标识,所述激活模块包括:第三激活单元,用于激活与所述组标识关联的资源组内的与所述套标识对应的传输资源。
在一些实施例中,所述分组信息中包括组内多套传输资源的偏移方式。
在一些实施例中,所述激活信息中包括组内多套传输资源的偏移方式指示。
在一些实施例中,所述第二指示信令中包括用于修改所述参数配置信息的修改指示,所述装置还包括:参数修改模块,用于根据所述第二指示信令中的修改指示,修改所述参数配置信息。
在一些实施例中,所述分组信息中包括至少一个资源组,所述资源组包括一套所述传输资源的参数配置信息、扩展资源套数和用于扩展所述传输资源的偏移方式,所述装置还包括:资源扩展模块,用于按照所述资源组中的所述偏移方式,扩展所述资源组中包括的所述传输资源,直至组内扩展后的资源套数满足所述扩展资源套数。
在一些实施例中,所述参数配置信息还包括扩展资源套数和用于扩展所述传输资源的偏移方式,以所述装置还包括:资源扩展模块,用于按照所述偏移方式,扩展与激活信息中的套标识对应的传输资源,直至扩展后的资源套数满足所述扩展资源套数。
在一些实施例中,所述装置还包括:资源选择模块,用于在利用所述组标识激活传输资源之后,从激活的多套传输资源中,选择一套传输资源;数据传输模块,用于利用选择的传输资源,传输数据。
在一些实施例中,所述选择的传输资源包括所述多套传输资源中对齐时延最小的一套。
在一些实施例中,所述选择的传输资源包括所述多套传输资源中能够保证配置的多次重复传输次数且对齐时延最小的一套。
在一些实施例中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一套传输资源。
在一些实施例中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一个资源组。
在一些实施例中,所述第一接收模块包括:指令接收单元,用于接收所述用户设备发送的第一指示指令和第二指示指令,所述第一指示指令包括所述参数配置信息,所述第二指示指令包括所述状态信息;所述第二接收模块包括:激活信息接收单元,用于接收所述基站发送的传输资源的激活信息,所述激活信息包括需要激活的传输资源的状态标识;利用所述状态标识激活与所述状态标识相关的传输资源。
在一些实施例中,所述状态信息还包括与所述状态相关的各元素分别对应的偏移方式、或与所述状态相关的所有传输资源共享的偏移方式,所述元素包括传输资源或资源组。
本实施例可以应用于用户设备。本实施例的配置信息以及激活信息的传输关系上述介绍的内容相同,在此不再赘述。
图12为本申请实施例的资源配置的基站结构示意图,如图12所示,本申请实施例提供的基站70包括:存储器703与处理器704。所述基站70还可以包括接口701和总线702。所述接口701、存储器703与处理器704通过总线702相连接。所述存储器803用于存储指令。所述处理器704被配置为读取所述指令以执行上述应用于基站的方法实施例的技术方案,其实现原理和技术效果类似,此处不再赘述。
图13为本申请实施例的资源配置的用户设备结构示意图,如图13所示,本申请实施例提供的用户设备80包括:存储器803与处理器804。所述UE80还可以包括接口801和总线802。所述接口801、存储器803与处理器804通过总线802相连接。所述存储器803用于存储指令。所述处理器804被配置为读取所述指令以执行上述应用于UE的方法实施例的技术方案,其实现原理和技术效果类似,此处不再赘述。
图14为本申请实施例的通信系统的结构示意图,如图14所示,该系统包括:如上述实施例的用户设备80、以及上述实施例的基站70。
本申请提供一种存储介质,所述存储介质存储有计算机程序,所述计算机程序被处理器执行时实现上述实施例中的方法。
术语用户终端涵盖任何适合类型的无线用户设备,例如移动电话、便携数据处理装置、便携网络浏览器或车载移动台。
一般来说,本申请的多种实施例可以在硬件或专用电路、软件、逻辑或其任何组合中实现。例如,一些方面可以被实现在硬件中,而其它方面可以被实现在可以被控制器、微处理器或其它计算装置执行的固件或软件中,尽管本申请不限于此。
本申请的实施例可以通过移动装置的数据处理器执行计算机程序指令来实现,例如在处理器实体中,或者通过硬件,或者通过软件和硬件的组合。计算机程序指令可以是汇编指令、指令集架构(Instruction Set Architecture,ISA)指令、机器指令、机器相关指令、微代码、固件指令、状态设置数据、或者以一种或多种编程语言的任意组合编写的源代码或目标代码。
本申请附图中的任何逻辑流程的框图可以表示程序步骤,或者可以表示相互连接的逻辑电路、模块和功能,或者可以表示程序步骤与逻辑电路、模块和功能的组合。计算机程序可以存储在存储器上。存储器可以具有任何适合于本地技术环境的类型并且可以使用任何适合的数据存储技术实现,例如但不限于只读存储器(Read-Only Memory,ROM)、随机访问存储器(Random Access Memory,RAM)、光存储器装置和系统(数码多功能光碟(Digital Versatile Disc,DVD)或光盘(Compact Disk,CD))等。计算机可读介质可以包括非瞬时性存储介质。数据处理器可以是任何适合于本地技术环境的类型,例如但不限于通用计算机、专用计算机、微处理器、数字信号处理器(Digital Signal Processing,DSP)、专用集成电路(Application Specific Integrated Circuit,ASIC)、可编程逻辑器件(Field Programmable Gate Array,FPGA)以及基于多核处理器架构的处理器。

Claims (48)

  1. 一种资源配置的方法,包括:
    向接收侧发送传输资源的配置信息,所述配置信息中包括为所述接收侧分配的多套传输资源的参数配置信息;
    向所述接收侧发送传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识,所述需要激活的传输资源的标识用于激活所述传输资源。
  2. 如权利要求1所述的方法,其中,所述配置信息中还包括分组信息,所述分组信息中包括由所述多套传输资源组合的多个资源组,所述资源组中包括至少一套传输资源,所述资源组具有组标识,所述传输资源具有套标识。
  3. 如权利要求1所述的方法,其中,所述配置信息还包括所述多套传输资源的套标识信息,所述传输资源的标识包括套标识。
  4. 如权利要求1至3任一项所述的方法,还包括:
    向所述接收侧发送传输资源的去激活信息,所述去激活信息中包括需要去激活的传输资源的标识,所述需要去激活的传输资源的标识用于对所述传输资源去激活。
  5. 如权利要求2所述的方法,其中,所述传输资源的标识包括套标识、组标识中的至少一个。
  6. 如权利要求2所述的方法,其中,所述向接收侧发送传输资源的配置信息,包括:
    向所述接收侧发送第一指示信令,所述第一指示信令中包括所述参数配置信息和所述分组信息。
  7. 如权利要求6所述的方法,还包括:
    向所述接收侧发送第二指示信令,所述第二指示信令中包括以下两项中一项:需要激活的传输资源的多个组标识,多个组标识和所述多个组标识分别映射的资源组;
    所述向所述接收侧发送传输资源的激活信息,包括:
    向所述接收侧发送激活信息,所述激活信息中包括所述第二指示信令中需要激活的传输资源的组标识,所述需要激活的传输资源的组标识用于激活与所述组标识关联的传输资源。
  8. 如权利要求2所述的方法,其中,所述向接收侧发送传输资源的配置信息,包括:
    向所述接收侧发送第一指示信令,所述第一指示信令中包括所述参数配置 信息;
    向所述接收侧发送第二指示信令,所述第二指示信令中包括所述分组信息。
  9. 如权利要求6或8所述的方法,其中,所述向所述接收侧发送传输资源的激活信息,包括:
    向所述接收侧发送激活信息,所述激活信息中包括需要激活的传输资源的组标识,所述需要激活的传输资源的组标识用于激活与所述组标识关联的传输资源。
  10. 如权利要求9所述的方法,其中,所述激活信息中还包括需要激活的传输资源的套标识,所述需要激活的传输资源的套标识用于激活与所述组标识关联的资源组内的与所述套标识对应的传输资源。
  11. 如权利要求2所述的方法,其中,所述分组信息中包括组内多套传输资源的偏移方式。
  12. 如权利要求2所述的方法,其中,所述激活信息中包括组内多套传输资源的偏移方式指示。
  13. 如权利要求7或8所述的方法,其中,所述第二指示信令中包括用于修改所述参数配置信息的修改指示。
  14. 如权利要求2所述的方法,其中,所述分组信息中包括至少一个资源组,所述资源组包括一套传输资源的参数配置信息、扩展资源套数和用于扩展所述传输资源的偏移方式。
  15. 如权利要求3所述方法,其中,所述参数配置信息还包括扩展资源套数和用于扩展所述传输资源的偏移方式。
  16. 如权利要求1所述的方法,其中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一套传输资源。
  17. 如权利要求2所述的方式,其中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一个资源组。
  18. 如权利要求16或17所述的方法,其中,所述状态信息还包括与所述状态相关的多个元素分别对应的偏移方式、或与所述状态相关的所有传输资源共享的偏移方式,所述元素包括传输资源或资源组。
  19. 如权利要求16或17所述的方法,其中,所述向接收侧发送传输资源的配置信息,包括:
    向所述接收侧发送第一指示指令和第二指示指令,其中,所述第一指示指令包括所述参数配置信息,所述第二指示指令包括所述状态信息;
    所述向所述接收侧发送传输资源的激活信息,包括:
    向所述接收侧发送传输资源的激活信息,所述激活信息包括需要激活的传输资源的状态标识,所述需要激活的传输资源的状态标识用于激活与所述状态标识相关的传输资源。
  20. 一种资源配置的方法,,包括:
    接收发射侧发送的传输资源的配置信息,所述配置信息中包括为接收侧分配的多套传输资源的参数配置信息;
    接收所述发射侧发送的传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识;
    利用所述需要激活的传输资源的标识激活传输资源。
  21. 如权利要求20所述的方法,其中,所述配置信息还包括分组信息,所述分组信息中包括由所述多套传输资源组合的多个资源组,所述资源组中包括至少一套传输资源,所述资源组具有组标识,所述传输资源具有套标识。
  22. 如权利要求20所述的方法,其中,所述配置信息还包括所述多套传输资源的套标识信息,所述传输资源的标识包括套标识。
  23. 如权利要求20至22任一项所述的方法,还包括:
    接收所述发射侧发送的传输资源的去激活信息,所述去激活信息中包括需要去激活的传输资源的标识;
    根据所述需要去激活的传输资源的标识对传输资源去激活。
  24. 如权利要求21所述方法,其中,所述传输资源的标识包括套标识、组标识中的至少一个。
  25. 如权利要求21所述的方法,其中,所述接收发射侧发送的传输资源的配置信息,包括:
    接收所述发射侧发送的第一指示信令,所述第一指示信令中包括所述参数配置信息和所述分组信息。
  26. 如权利要求25所述的方法,还包括:
    接收所述发射侧发送的第二指示信令,所述第二指示信令中包括以下两项中一项:需要激活的传输资源的多个组标识,多个组标识和所述多个组标识分别映射的资源组;
    所述接收所述发射侧发送的传输资源的激活信息,包括:
    接收所述发射侧发送的激活信息,所述激活信息中包括所述第二指示信令 中需要激活的传输资源的组标识;
    所述利用所述需要激活的传输资源的标识激活传输资源,包括:
    利用所述组标识,激活与所述组标识关联的传输资源。
  27. 如权利要求21所述的方法,其中,所述接收发射侧发送的传输资源的配置信息,包括:
    接收所述发射侧发送的第一指示信令,所述第一指示信令中包括所述参数配置信息;
    接收所述发射侧发送的第二指示信令,所述第二指示信令中包括所述分组信息。
  28. 如权利要求25或27所述的方法,其中,所述接收所述发射侧发送的传输资源的激活信息,包括:
    接收所述发射侧发送的激活信息,所述激活信息中包括需要激活的传输资源的组标识;
    所述利用所述需要激活的传输资源的标识激活传输资源,包括:
    利用所述组标识,激活与所述组标识关联的传输资源。
  29. 如权利要求28所述的方法,其中,所述激活信息中还包括需要激活的传输资源的套标识;
    所述激活与所述组标识关联的传输资源,包括:
    激活与所述组标识关联的资源组内的与所述套标识对应的传输资源。
  30. 如权利要求21所述的方法,其中,所述分组信息中包括组内多套传输资源的偏移方式。
  31. 如权利要求21所述的方法,其中,所述激活信息中包括组内多套传输资源的偏移方式指示。
  32. 如权利要求26或27所述的方法,其中,所述第二指示信令中包括用于修改所述参数配置信息的修改指示;
    所述方法还包括:
    根据所述第二指示信令中的修改指示,修改所述参数配置信息。
  33. 如权利要求21所述的方法,其中,所述分组信息中包括至少一个资源组,所述资源组包括一套所述传输资源的参数配置信息、扩展资源套数和用于扩展所述传输资源的偏移方式;
    所述方法还包括:
    按照所述资源组中的偏移方式,扩展所述资源组中包括的所述传输资源,直至组内扩展后的资源套数满足所述扩展资源套数。
  34. 如权利要求21所述方法,其中,所述配置信息还包括扩展资源套数和用于扩展所述传输资源的偏移方式。
  35. 如权利要求26所述的方法,在所述利用所述组标识,激活与所述组标识关联的传输资源之后,还包括:
    从激活的多套传输资源中,选择一套传输资源;
    利用选择的传输资源,传输数据。
  36. 如权利要求35所述的方法,其中,所述选择的传输资源包括所述多套传输资源中对齐时延最小的一套传输资源。
  37. 如权利要求35所述的方法,其中,所述选择的传输资源包括所述多套传输资源中保证配置的多次重复传输次数且对齐时延最小的一套传输资源。
  38. 如权利要求20所述的方法,其中,所述配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一套传输资源。
  39. 如权利要求21所述的方法,其中,所述参数配置信息还包括状态信息,所述状态信息中包括多个状态和每个状态相关的至少一个资源组。
  40. 如权利要求38或39所述的方法,其中,所述接收发射侧发送的传输资源的配置信息,包括:
    接收所述接收侧发送的第一指示指令和第二指示指令,其中,所述第一指示指令包括所述参数配置信息,所述第二指示指令包括所述状态信息;
    所述接收所述发射侧发送的传输资源的激活信息,包括:
    接收所述发射侧发送的传输资源的激活信息,所述激活信息包括需要激活的传输资源的状态标识;
    利用所述状态标识激活与所述状态标识相关的传输资源。
  41. 如权利要求38或39所述的方法,其中,所述状态信息还包括与所述状态相关的多个元素分别对应的偏移方式、或与所述状态相关的所有传输资源共享的偏移方式,所述元素包括传输资源或资源组。
  42. 一种资源配置的装置,包括:
    第一发送模块,设置为向接收侧发送传输资源的配置信息,所述配置信息中包括为所述接收侧分配的多套传输资源的参数配置信息;
    第二发送模块,设置为向所述接收侧发送传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识,所述需要激活的传输资源的标识用于激活所述传输资源。
  43. 如权利要求42所述的装置,其中,所述配置信息中还包括分组信息,所述分组信息中包括由所述多套传输资源组合中的多个资源组,所述资源组中包括至少一套传输资源,所述资源组具有组标识,所述传输资源具有套标识。
  44. 一种资源配置的装置,包括:
    第一接收模块,设置为接收发射侧发送的传输资源的配置信息,所述配置信息中包括为接收侧分配的多套传输资源的参数配置信息;
    第二接收模块,设置为接收发射侧发送的传输资源的激活信息,所述激活信息中包括需要激活的传输资源的标识;
    激活模块,设置为利用所述需要激活的传输资源的标识激活传输资源。
  45. 如权利要求44所述的装置,其中,所述配置信息还包括分组信息,所述分组信息中包括由所述多套传输资源组合的多个资源组,所述资源组中包括至少一套传输资源,所述资源组具有组标识,所述传输资源具有套标识。
  46. 一种数据传输的基站,包括:处理器及存储器;
    所述存储器设置为存储指令;
    所述处理器设置为读取所述指令以执行如权利要求1至19中任一所述的资源配置的方法。
  47. 一种数据传输的用户设备,包括:处理器及存储器;
    所述存储器设置为存储指令;
    所述处理器设置为读取所述指令以执行如权利要求20至41中任一所述的资源配置的方法。
  48. 一种存储介质,存储有计算机程序,所述计算机程序被处理器执行时实现权利要求1-41任一项所述的资源配置的方法。
PCT/CN2020/081372 2019-03-29 2020-03-26 资源配置的方法、装置、用户设备、基站及存储介质 WO2020200029A1 (zh)

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