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CN110062392A - The method and terminal device of carrier wave measurement - Google Patents

The method and terminal device of carrier wave measurement Download PDF

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Publication number
CN110062392A
CN110062392A CN201810055011.8A CN201810055011A CN110062392A CN 110062392 A CN110062392 A CN 110062392A CN 201810055011 A CN201810055011 A CN 201810055011A CN 110062392 A CN110062392 A CN 110062392A
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CN
China
Prior art keywords
measurement
carrier
carrier wave
configuration information
terminal device
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Granted
Application number
CN201810055011.8A
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Chinese (zh)
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CN110062392B (en
Inventor
李红
韩静
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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Priority to CN201810055011.8A priority Critical patent/CN110062392B/en
Priority to PCT/CN2019/072308 priority patent/WO2019141231A1/en
Publication of CN110062392A publication Critical patent/CN110062392A/en
Application granted granted Critical
Publication of CN110062392B publication Critical patent/CN110062392B/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA
    • H04W74/0808Non-scheduled access, e.g. ALOHA using carrier sensing, e.g. carrier sense multiple access [CSMA]
    • H04W74/0816Non-scheduled access, e.g. ALOHA using carrier sensing, e.g. carrier sense multiple access [CSMA] with collision avoidance

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

This application provides the methods and terminal device of a kind of measurement of carrier wave, this method comprises: first measurement configuration information, second measurement configuration information and first parameter of the terminal device according to first carrier, determine the first measurement demand on first carrier, second measurement configuration information includes applied to the measurement configuration information at least two carrier waves, and at least two carrier waves include the first carrier.Or first parameter according to effective detected carrier number of the terminal device determine.The terminal device measures on first carrier according to first measurement demand.The method of carrier wave measurement provided by the present application can need the relevant each measurement configuration information of each carrier wave measured to define the measurement index on the carrier wave according to the terminal device.Consider the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.Reduce the measurement delay of terminal device.Meanwhile avoiding and generating excessively high requirement to terminal device measurement capability, reduce the cost of terminal device.Improve user experience.

Description

The method and terminal device of carrier wave measurement
Technical field
This application involves the communications fields, more specifically, are related to the method and terminal device of a kind of carrier wave measurement.
Background technique
The terminal device for supporting new wireless (new radio, NR) standard communication, needs on the carrier wave other than server carrier Carry out cell identification and measurement.Server carrier is the carrier wave where the serving cell of terminal device access.Carrier wave is carried with service The carrier wave that wave mutually closes on.For example, the synchronization signal block of cell is searched on carrier wave and detected to terminal device (Synchronization Signal Block, SSB), to obtain the Physical Cell Identifier, timing information and base of the cell In the measurement result etc. of SSB.
For each carrier wave, the network equipment can all configure corresponding reference signal configuration information, be used for terminal device Notice information such as period of reference signal on the carrier wave.All carrier waves detected, network equipment meeting are needed for terminal device Configure a unified measurement interval pattern.The information that terminal device can include according to the measurement interval pattern, for example, surveying In the measurement interval that amount interval pattern includes, cell identification or measurement operation etc. are carried out to all carrier waves.Currently, for one It is to need to be measured according to measurement index as defined in agreement come all carrier waves for detecting needs for terminal device.But In the 5th third-generation mobile communication technology (5-Generation, 5G), there are no the relevant definition of measurement index is directed to, lead to terminal Equipment is likely to occur mistake in the measurement process for carrying out multiple carrier waves, influences normally to communicate.
Summary of the invention
The application provides the method and terminal device of a kind of carrier wave measurement.It can need to measure according to the terminal device every The relevant each measurement configuration information of a carrier wave defines the measurement index on the carrier wave.Consider different carrier waves measuring machine itself The fairness and competitiveness of meeting.Reduce the measurement delay of terminal device.Meanwhile it avoiding and terminal device measurement capability was generated High requirement reduces the cost of terminal device.Improve user experience.
In a first aspect, providing a kind of method of carrier wave measurement, comprising: terminal device is according to the first of first carrier the measurement Configuration information, the second measurement configuration information and the first parameter determine the first measurement demand on the first carrier, second survey Amount configuration information includes applied to the measurement configuration information at least two carrier waves, which includes first load Wave;Wherein, which determines according to the first measurement configuration information of the first carrier and second measurement configuration information, or Person's first parameter is determined according to effective detected carrier number of the terminal device;The terminal device according to first measurement demand, It is measured on the first carrier.
The method for the carrier wave measurement that first aspect provides, needs terminal device each carrier wave to be measured measured, The measurement demand (measurement index) of the carrier wave to be measured is according to the measurement configuration information on the carrier wave (first carrier) to be measured The carrier wave that (the first measurement configuration information), the terminal device need the multiple carrier waves (including the carrier wave to be measured) detected applicable is surveyed It measures configuration information (the second measurement configuration information) and parameter (the first parameter) determines.First parameter is according to the loading gage to be measured The measurement configuration information of wave and second measurement configuration information determine, and are corresponding with the carrier wave to be measured.Or this One parameter is determined according to effective detected carrier number of the terminal device.I.e. in the determination process of the measurement demand of the carrier wave to be measured In, fully considered the carrier wave to be measured configuration information and other measurement configuration informations relevant to the carrier wave to be measured. According to the actual conditions of each carrier wave, to determine corresponding measurement demand.Differentiation processing is realized to different carrier waves.It examines The fairness and competitiveness of the meeting of different carrier waves measuring machine itself are considered.On the basis for the measuring machine meeting for fully considering each carrier wave On, the measurement delay of terminal device can also be reduced.Meanwhile avoiding and generating excessively high requirement to terminal device measurement capability, Reduce the cost of terminal device.It ensure that terminal device can be communicated normally.Improve user experience.
In a kind of possible implementation of first aspect, which is according at least two carrier wave, often The first of a carrier wave surveys what configuration information was determined with second measurement configuration information.In this implementation, using this at least two In a carrier wave, survey configuration information corresponding with each carrier wave and second measurement configuration information determine first parameter, sufficiently examine The relevant various measurement configuration informations of the first carrier are considered.It ensures for different carrier waves, carries out differentiation processing.It realizes The corresponding parameter of different carrier waves can be different.Improve the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.
In a kind of possible implementation of first aspect, first parameter be according at least two carrier wave, with First measurement configuration information of the first carrier has the total number subcarriers of collision to determine.It in this implementation, can be more smart Really and true reflect that the first parameter be with the first carrier is corresponding.Improve the accuracy of the first parameter.So that first Parameter can more really reflect the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.
In a kind of possible implementation of first aspect, which includes measurement window, this second Metrical information includes measurement interval;Where then the collision includes: the measurement window on the carrier wave for including at least two carrier wave It is identical that measurement interval with the measurement where the measurement window on the first carrier is spaced at least one.In the implementation, utilize Above-mentioned method, which judges whether to generate, collides, and can quickly and accurately obtain result.It improves terminal device and determines the first parameter Efficiency.
In a kind of possible implementation of first aspect, which includes measurement window, this second Metrical information includes measurement interval;Then the collision includes: at least one measurement window and at least two carrier wave of the first carrier In include carrier wave at least one measurement window the same measurement interval in.In the implementation, benefit is with the aforedescribed process Judge whether to generate collision, can quickly and accurately obtain result.Improve the efficiency that terminal device determines the first parameter.
In a kind of possible implementation of first aspect, which includes measurement window, this second Metrical information includes measurement interval;Where the then collision includes the measurement window on carrier wave for including at least two carrier wave Measurement interval, it is all identical or all overlapping with the measurement interval where the measurement window on the first carrier.
In a kind of possible implementation of first aspect, which includes measurement window, this second Metrical information includes measurement interval;Where the then collision includes the measurement window on carrier wave for including at least two carrier wave Measurement interval, with the measurement interval where the measurement window on the first carrier, part is identical or part is overlapping.
In a kind of possible implementation of first aspect, the measurement window which includes includes surveying At least one of window initial position is measured, in measurement window duration and measurement window period;The measurement that second metrical information includes Interval includes measuring interval initial position, measures interval duration and measures at least one in gap periods.In the realization In mode, the first measurement demand that terminal device can be made to determine is more accurate and really reflects the first carrier Characteristic.Improve the accuracy of the first parameter and the first measurement demand.First measurement demand is more really embodied The fairness and competitiveness of different carrier waves measuring machine meeting itself out.
In a kind of possible implementation of first aspect, the terminal device is according to the first measuring configuration of first carrier Information, the second measurement configuration information and the first parameter determine the first measurement demand on the first carrier, comprising: the terminal Equipment determines first measurement according to the measurement window period, the measurement gap periods and first parameter on the first carrier Demand.In this implementation, allow the first measurement demand determined more accurate and really reflect this first The characteristic of carrier wave.Improve the accuracy of the first measurement demand.The first measurement demand is allowed more really to reflect difference The fairness and competitiveness of carrier wave measuring machine meeting itself.It, can be on the basis of fully considering the measuring machine meeting of each carrier wave Reduce the measurement delay of terminal device.Meanwhile avoiding and generating excessively high requirement to terminal device measurement capability, it reduces terminal and sets Standby cost.Improve user experience.
In a kind of possible implementation of first aspect, the terminal device is according to the measurement window on the first carrier Period, the measurement gap periods and first parameter determine first measurement demand, comprising: determine according to the following formula this One measurement demand,
S=R × Max (T1, T2) × A
Wherein, S is the value of the measurement index of first measurement demand, and R is constant, and T1 is the measurement window period, and T2 is should Gap periods are measured, the value of Max (T1, T2) is biggish value in T1 and T2, and A is first parameter.In this implementation, may be used Quick and precisely to obtain the first measurement demand, the efficiency that terminal device carries out carrier wave detection is improved.Improve user experience.
In a kind of possible implementation of first aspect, the first measurement configuration information of the first carrier be this first The first measurement configuration information of synchronization signal block SSB on carrier wave.
In a kind of possible implementation of first aspect, this method further include: the terminal device is sent out to the network equipment Give first parameter.In this implementation, after the network equipment receives first parameter.It can be according to first ginseng Number, first measurement configuration information different to different carrier waves or different terminal equipment configurations and the second measuring configuration letter Breath, so that the mode of the first measurement configuration information of configuration and the second measuring configuration is more flexible.More targetedly, convenient for raising The measurement efficiency of terminal device improves user experience.
Second aspect provides a kind of method of carrier wave measurement, comprising: terminal device determines first according to the first parameter The first measurement demand on carrier wave, first parameter are matched according to the first measurement configuration information of the first carrier and the second measurement Confidence breath determines or first parameter is determined according to effective detected carrier number of the terminal device;Wherein, which matches Confidence breath is applied to the measurement configuration information at least two carrier waves, which includes the first carrier, the end End equipment measures on the first carrier according to first measurement demand.
The method for the carrier wave measurement that second aspect provides, for each carrier wave to be measured, the measurement of the carrier wave to be measured Demand (measurement index) is determined according to the corresponding parameter (the first parameter) to be measured.First parameter is according to should be to Measurement carrier wave on measurement configuration information (the first measurement configuration information) and the terminal device needs detect multiple carrier waves (including The carrier wave to be measured) unify applicable carrier wave measurement configuration information (the second measurement configuration information) determination.And the first parameter is It is corresponding with the carrier wave to be measured.Or first parameter is determined according to effective detected carrier number of the terminal device.I.e. at this During the determination of the measurement demand of carrier wave to be measured, the configuration information of the carrier wave to be measured and to be measured with this has been fully considered Other relevant measurement configuration informations of loading gage wave.According to the actual conditions of each carrier wave, to determine corresponding measurement demand. Differentiation processing is realized to different carrier waves.Consider the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.Abundant On the basis of the measuring machine meeting for considering each carrier wave, the measurement delay of terminal device can also be reduced.Meanwhile it avoiding to terminal Device measuring ability generates excessively high requirement, reduces the cost of terminal device.
In a kind of possible implementation of second aspect, which is according at least two carrier wave, often The first of a carrier wave surveys what configuration information was determined with second measurement configuration information.
In a kind of possible implementation of second aspect, first parameter be according at least two carrier wave, with First measurement configuration information of the first carrier has the total number subcarriers of collision to determine.
In a kind of possible implementation of second aspect, which includes measurement window, this second Metrical information includes measurement interval;Where then the collision includes: the measurement window on the carrier wave for including at least two carrier wave It is identical that measurement interval with the measurement where measurement window on the first carrier is spaced at least one.
First measurement configuration information includes measurement window in a kind of possible implementation of second aspect, second survey Measuring information includes measurement interval;Then the collision includes: at least one measurement window and at least two carrier wave of the first carrier Including carrier wave at least one measurement window the same measurement interval in.
In a kind of possible implementation of second aspect, which includes measurement window, this second Metrical information includes measurement interval;Where the then collision includes the measurement window on carrier wave for including at least two carrier wave Measurement interval, it is all identical or all overlapping with the measurement interval where the measurement window on the first carrier.
In a kind of possible implementation of second aspect, which includes measurement window, this second Metrical information includes measurement interval;Where the then collision includes the measurement window on carrier wave for including at least two carrier wave Measurement interval, with the measurement interval where the measurement window on the first carrier, part is identical or part is overlapping.
In a kind of possible implementation of second aspect, the measurement window which includes includes surveying At least one of window initial position is measured, in measurement window duration and measurement window period;The measurement that second metrical information includes Interval includes measuring interval initial position, measures interval duration and measures at least one in gap periods.
In a kind of possible implementation of second aspect, which determines first survey on the first carrier Amount demand, comprising: first measurement demand is determined according to the following formula,
S=N × A
Wherein, S is the value of the measurement index of first measurement demand, and N is constant, and A is first parameter.
In a kind of possible implementation of second aspect, the first measurement configuration information of the first carrier be this first The first measurement configuration information of synchronization signal block SSB on carrier wave.
In a kind of possible implementation of second aspect, this method further include: the terminal device is sent out to the network equipment Give first parameter.
The third aspect provides a kind of terminal device, including processor, memory and transceiver, for supporting the terminal Equipment executes corresponding function in the above method.Processor, memory and transceiver are referred to by communication connection, memory storage It enables, transceiver under the driving of processor for executing specific signal transmitting and receiving, and the processor is for calling the instruction to realize The method for stating the carrier wave measurement in first aspect and its various implementations.
Fourth aspect provides a kind of terminal device, including processing module, memory module and transceiver module, for supporting The terminal device executes the function of terminal device in any possible implementation of above-mentioned first aspect or first aspect, function Corresponding software realization can also be executed by hardware by hardware realization, hardware or software include one or more Module corresponding with above-mentioned function.
5th aspect, provides a kind of terminal device, including processor, memory and transceiver, for supporting the terminal Equipment executes corresponding function in the above method.Processor, memory and transceiver are referred to by communication connection, memory storage It enables, transceiver under the driving of processor for executing specific signal transmitting and receiving, and the processor is for calling the instruction to realize The method for stating the carrier wave measurement in second aspect and its various implementations.
6th aspect, provides a kind of terminal device, including processing module, memory module and transceiver module, for supporting Terminal device executes the function of terminal device in any possible implementation of above-mentioned second aspect or second aspect, and function can By hardware realization, can also execute corresponding software realization by hardware, hardware or software include one or more with The corresponding module of above-mentioned function.
7th aspect, provides a kind of communication device, which can execute any one above-mentioned method right The method of carrier wave measurement described in it is required that.Communication device provided by the embodiments of the present application, can be according to the communication device needs The relevant each measurement configuration information of each carrier wave of measurement defines the measurement index on the carrier wave.Consider different carrier wave sheets The fairness and competitiveness of body measuring machine meeting.Reduce the measurement delay of terminal device.Meanwhile it avoiding and energy is measured to communication device Power generates excessively high requirement, reduces the cost of communication device.Improve user experience.
Eighth aspect, provides a kind of computer program product, and the computer program product includes: computer program generation Code, when the computer program code is run on computers, so that computer executes the method in above-mentioned various aspects.
9th aspect, provides a kind of computer-readable medium, and the computer-readable medium storage has program code, when When the computer program code is run on computers, so that computer executes the method in above-mentioned various aspects.
Tenth aspect, provides a kind of chip system, which includes processor, realizes for communication device above-mentioned Function involved in various aspects receives for example, generating, and sends, or data and/or letter involved in the processing above method Breath.In a kind of possible design, the chip system further includes memory, and the memory must for saving communication device The program instruction and data wanted.The chip system, can be made of chip, also may include chip and other discrete devices.
Detailed description of the invention
Fig. 1 is the schematic diagram of the communication system of the method measured suitable for the carrier wave of the application.
Fig. 2 is a kind of schematic diagram of possible structure of synchronization signal block.
Fig. 3 is the schematic diagram to the SMTC pattern of carrier wave configuration.
Fig. 4 is the schematic diagram to the measurement interval pattern of carrier wave configuration.
Fig. 5 is the schematic flow chart of the method for the carrier wave measurement of the application one embodiment.
Fig. 6 is the schematic flow chart of the method for the carrier wave measurement of the application another embodiment.
Fig. 7 is the schematic flow chart of the method for the carrier wave measurement of the application one embodiment.
Fig. 8 is the schematic flow chart of the method for the carrier wave measurement of the application another embodiment.
Fig. 9 is the schematic block diagram of the terminal device of the application one embodiment.
Figure 10 is the schematic block diagram of the terminal device of the application another embodiment.
Figure 11 is the schematic block diagram of the terminal device of the application one embodiment.
Figure 12 is the schematic block diagram of the terminal device of the application another embodiment.
Specific embodiment
Below in conjunction with attached drawing, the technical solution in the application is described.
The technical solution of the embodiment of the present application can be applied to various communication systems, such as: global system for mobile telecommunications (Global System of Mobile communication, GSM) system, CDMA (Code Division Multiple Access, CDMA) system, wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) system System, General Packet Radio Service (General Packet Radio Service, GPRS), long term evolution (Long Term Evolution, LTE) system, LTE frequency division duplex (Frequency Division Duplex, FDD) system, LTE time division duplex (Time Division Duplex, TDD), Universal Mobile Communication System (Universal Mobile Telecommunication System, UMTS), global interconnection inserting of microwave (Worldwide Interoperability For Microwave Access, WiMAX) communication system, following the 5th generation (5th Generation, 5G) system or new nothing Line (New Radio, NR) etc..
Terminal device in the embodiment of the present application can refer to user equipment, access terminal, subscriber unit, subscriber station, movement It stands, mobile station, remote station, remote terminal, mobile device, user terminal, terminal, wireless telecom equipment, user agent or user Device.Terminal device can also be cellular phone, wireless phone, session initiation protocol (Session Initiation Protocol, SIP) phone, wireless local loop (Wireless Local Loop, WLL) stand, personal digital assistant (Personal Digital Assistant, PDA), the handheld device with wireless communication function calculate equipment or are connected to Other processing equipments of radio modem, mobile unit, wearable device, terminal device in the following 5G network or not Carry out the terminal device etc. in the Public Land Mobile Network network (Public Land Mobile Network, PLMN) of evolution, The embodiment of the present application does not limit this.
The network equipment in the embodiment of the present application can be for the equipment with terminal equipment in communication, which can be with It is global system for mobile telecommunications (Global System of Mobile communication, GSM) system or CDMA (Code Division Multiple Access, CDMA) in base station (Base Transceiver Station, BTS), be also possible to In wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) system base station (NodeB, NB), can also be the evolved base station (Evolutional NodeB, eNB or eNodeB) in LTE system, can also be cloud without Wireless controller or the network equipment under line access network (Cloud Radio Access Network, CRAN) scene It can be relay station, access point, mobile unit, wearable device and the network equipment or the following evolution in future 5G network PLMN network in the network equipment etc., the embodiment of the present application does not limit.
The network equipment in the embodiment of the present application can be for the equipment with terminal equipment in communication, which can be with It is global system for mobile telecommunications (Global System of Mobile communication, GSM) system or CDMA (Code Division Multiple Access, CDMA) in base station (Base Transceiver Station, BTS), be also possible to In wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) system base station (NodeB, NB), can also be the evolved base station (Evolutional NodeB, eNB or eNodeB) in LTE system, can also be cloud without Wireless controller or the network equipment under line access network (Cloud Radio Access Network, CRAN) scene It can be relay station, access point, mobile unit, wearable device and the network equipment or the following evolution in future 5G network PLMN network in the network equipment etc., the embodiment of the present application does not limit.
Fig. 1 is the schematic diagram of the communication system of the method measured suitable for the carrier wave of the application.As shown in Figure 1, the communication System 100 includes the network equipment 102, and the network equipment 102 may include mutiple antennas for example, antenna 104,106,108,110,112 With 114.In addition, the network equipment 102 can additionally include transmitter chain and receiver chain, those of ordinary skill in the art can be managed Solution, they, which may each comprise, sends and receives relevant multiple components (such as processor, modulator, multiplexer, coding to signal Device, demultiplexer or antenna etc.).
The network equipment 102 can be communicated with multiple terminal devices (such as terminal device 116 and terminal device 122).However, It is appreciated that the network equipment 102 can be with any number of terminal equipment in communication similar to terminal device 116 or 122.Terminal Equipment 116 and 122 can be, such as cellular phone, smart phone, portable computer, handheld communication devices, hand-held calculate are set Standby, satellite radio, global positioning system, PDA and/or any other for what is communicated on wireless communication system 100 It is suitble to equipment.
As shown in Figure 1, terminal device 116 is communicated with antenna 112 and 114, wherein antenna 112 and 114 passes through forward link 118 send information to terminal device 116, and receive information from terminal device 116 by reverse link 120.In addition, terminal device 122 communicate with antenna 104 and 106, and wherein antenna 104 and 106 sends information to terminal device 122 by forward link 124, and Information is received from terminal device 122 by reverse link 126.
For example, in FDD system, for example, forward link 118 is available with different frequency bands used in reverse link 120, Forward link 124 is available with different frequency bands used in reverse link 126.
For another example in TDD system and full duplex (full duplex) system, forward link 118 and reverse link 120 Common frequency band can be used, common frequency band can be used in forward link 124 and reverse link 126.
The each antenna (or the antenna sets being made of mutiple antennas) and/or region for being designed to communication are known as network The sector of equipment 102.For example, antenna sets can be designed as to lead to the terminal device in the sector of 102 overlay area of the network equipment Letter.During the network equipment 102 is communicated with terminal device 116 and 122 respectively by forward link 118 and 124, net The transmitting antenna of network equipment 102 can improve the signal-to-noise ratio of forward link 118 and 124 using beam forming.In addition, being set with network The standby terminal device all to it individual antenna is compared by way of sending signal, utilizes beam forming in the network equipment 102 When into associated coverage, the terminal device 116 and 122 of random dispersion sends signal, mobile device in neighboring community can be by To less interference.
In given time, the network equipment 102, terminal device 116 or terminal device 122 can be radio communication transmitter And/or radio communication receiver.When sending out data, radio communication transmitter can encode data for passing It is defeated.Specifically, radio communication transmitter, which can obtain, (such as generates, receives from other communication devices or in memory save Deng) to be sent to by channel radio communication receiver certain amount data bit.This data bit may include In the transmission block (or multiple transmission blocks) of data, transmission block be can be segmented to generate multiple code blocks.
In addition, the communication system 100 can be PLMN network or equipment and equipment (device-to-device, D2D) Perhaps machine and machine (machine to machine M2M) network or other networks, Fig. 1 are the simplification illustrated to network Schematic diagram can also include other network equipments in network, not drawn in Fig. 1.
The terminal device for supporting the communication of NR standard, needs to carry out cell identification and measurement over a number of carriers.It should be understood that , these carrier waves can be same frequency carrier wave and are also possible to alien frequencies carrier wave.Server carrier refers to the serving cell of terminal device The carrier wave at place can also be referred to as same frequency carrier wave.The terminal device can be counted on the server carrier with serving cell According to transmitting-receiving etc..Alien frequencies carrier wave is the carrier wave except server carrier.Alien frequencies carrier wave and it may belong to identical standard with frequency carrier wave , for example, NR standard, LTE standard, GSM standard etc..Certainly, it is also possible to belong to different systems with frequency carrier wave and alien frequencies carrier wave Formula.Terminal device on alien frequencies carrier wave without the transmitting-receiving of data, but the synchronization signal block for carrying out cell searching, detecting cell SSB and the measurement of reference signal etc., to obtain the Physical Cell Identifier of the alien-frequency district, timing information and based on reference signal Measurement result etc..It can be same frequency (intra-frequency) carrier wave that existing protocol defines with frequency carrier wave.Alien frequencies carrier wave can To be alien frequencies (inter-frequency) carrier wave that existing protocol defines.
Synchronization signal block is known as synchronous (Synchronization Sigal, SS)/Physical Broadcast Channel block (physical Broadcast channel block, PBCH block) is a kind of signal structure, suitable for 5G and later logical In letter system.Fig. 2 is a kind of schematic diagram of possible structure of synchronization signal block, as shown in Fig. 2, it includes main same for synchronization signal block Walk signal (Primary Synchronization Sigal, PSS), secondary synchronization signal (Secondary Synchronization Signal, SSS) and Physical Broadcast Channel (Physical Broadcast Channel, PBCH). PSS and SSS main function is to aid in user equipment identification cell and synchronizes with cell, and PBCH then contains most basic System information such as System Frame Number, frame timing information etc..It is that it accesses the cell that user equipment, which is properly received synchronization signal block, Premise.
For each carrier wave, especially alien frequencies carrier wave, the network equipment can all configure corresponding reference signal configuration information, The information such as the period for measuring or receiving the reference signal on the carrier wave to terminal device notice.It is with synchronization signal block Example is illustrated, and the network equipment measures timing configured (SSB Measurement Timing to terminal equipment configuration SSB Configuration, SMTC).SMTC includes the SMTC period, and the SMTC period is the period that terminal device received or measured SSB, SMTC can also include position and length of SSB reception window etc..I.e. for different carrier waves, such as alien frequencies carrier wave or alien frequencies Carrier wave, the network equipment configure SMTC pattern (corresponding to SMTC) accordingly.Fig. 3 is 5 SMTC patterns for the configuration of 5 carrier waves Schematic diagram.It is illustrated by taking SSB as an example.SMTC pattern may include the information such as position in SMTC period, SSB reception window, such as Shown in Fig. 3, for carrier wave 1, the SMTC period is 20ms, i.e., the time interval between the reception window of two SSB is 20ms.For carrying Wave 2 to 5, SMTC period are respectively 40ms, 80ms, 160ms, 160ms.
It should be understood that Fig. 3 is only exemplary, simply to illustrate that the form of SMTC and including content.The SMTC may be used also To be other forms of expression, for example, indicating in the form of a table.Alternatively, the SMTC can also include other contents.The application This is not restricted for embodiment.
For some terminal device, which can be needed all or part of carrier wave that detect by the network equipment In (including same frequency carrier wave and/or alien frequencies carrier wave) or some frequency range all or part of carrier wave (including same frequency carry Wave and/or alien frequencies carrier wave) one unified measurement interval pattern (Measurement Gap Pattern, MGP) of configuration.MGP can To include measurement gap length (Measurement Gap Length, MGL) and measurement interval repetition period (Measurement Gap Repetition Period, MGPR) etc. information.The information that the terminal device can include according to the measurement interval pattern, For example, when it is a length of measurement interval (Measurement Gap) time span period in, to multiple carrier waves carry out cell knowledge Not or measurement operates etc..Fig. 4 is the schematic diagram for the measurement interval pattern of 5 carrier wave configurations.By taking synchronization signal block as an example It is illustrated.As shown in figure 4, measurement interval the repetition period be 40ms, for carrier wave 1 to 5, the SMTC period be respectively 20ms, 40ms,80ms,160ms,160ms.The measurement interval pattern is applied to carrier wave 1 to 5.Terminal device can be where measurement interval Period in (time span be measurement gap length), the operation such as measurement of SSB is carried out to carrier wave 1 to 5.For example, in label For that can be measured simultaneously to the reference signal on carrier wave 1,2 and 3 in 1 measurement interval.At the measurement interval marked as 2 It is interior, the reference signal on carrier wave 1,2 and 4 can be measured simultaneously.
In standard agreement, need to define the measurement behavior that some measurement indexes (measurement demand) carry out specification terminal device, Especially in different-frequency measure.For example, measurement index may include the cell identification time.Synchronization signal detection time, reference signal Index read access time etc..Terminal device carries out the measurement etc. of the signal on multiple carrier waves according to these measurement indexes.
Currently, for a terminal device, needing all carrier waves measured to define identical in LTE system Measurement index.But the period of the reference signal due to being configured on carrier wave each in NR is different.In the same period Interior, the chance that each carrier wave can be measured is different.For example, being illustrated for shown in Fig. 3.Carrier wave 1 to 5 configures The SMTC period be different.The SMTC period of carrier wave 1 is 20ms, and the SMTC period of carrier wave 5 is 160ms, and the value of MGPR is 40ms.Within the same period, it is assumed that carrier wave 1 is identical with the initial position of the reception window of carrier wave 5.For example, in the time of 160ms In section, carrier wave 1 can obtain No. 4 measuring machine meetings, and carrier wave 5 can only obtain No. 1 measuring machine meeting.In order to guarantee those with biggish There are enough measuring machine meetings on the carrier wave in SMTC period, just inevitably results in and define a very long measurement index.Such as.It is very long The cell identification time or measurement period etc..But very long measurement index be unfavorable for terminal device fast move performance. So that the degradation of terminal device, influences user experience.
In 5G, the measurement index with frequency carrier wave is it is assumed that average each SMTC period (or each MGPR) is interior, eventually The chance that end equipment measures at least once.Assuming that the measurement index of alien frequencies carrier wave is similar with above-mentioned definition.That is alien frequencies Measurement index is for each carrier wave, and in average each SMTC period (or each MGPR), terminal device is at least once The chance measured.Since alien frequencies carrier wave needs to measure over a number of carriers, as shown in figure 4, for an end For end equipment, in some identical measurement measurement interval (Measurement Gap), may be simultaneously present multiple carrier waves is needed It measures.For example, needing to measure the reference signal on carrier wave 1,2,3 simultaneously on measurement interval 1.That is some carrier wave Available measurement interval can generate conflict with the available measurement interval of other carrier waves.If terminal device is not supported simultaneously at two Or measured on more than two carrier waves, then, for some or two in carrier wave 1,2,3, it can not protect It demonstrate,proves and has the opportunity to measure in each SMTC period (or each MGRP).I.e. such measurement index needs terminal device full The certain Capability Requirement of foot, can improve the cost of terminal device in this way.
There is no the definition of alien frequencies carrier wave measurement demand in existing agreement, terminal device different-frequency measure behavior can not be constrained. It will affect performance when terminal device carries out the measurement of alien frequencies carrier wave, cause the different-frequency measure time delay of terminal device too long, influence end The normal communication of end equipment.
Based on the above issues, the embodiment of the present application provides a kind of method of carrier wave measurement, for a terminal device Speech can need the relevant each measurement configuration information of each carrier wave measured to define the survey on the carrier wave according to the terminal device Figureofmerit.Consider the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.It is measured on fully considering each carrier wave On the basis of equality of opportunity, the measurement delay of terminal device can also be reduced.Meanwhile it avoiding and terminal device measurement capability is produced Raw excessively high requirement, reduces the cost of terminal device.It ensure that terminal device can be communicated normally.Improve user's body It tests.It should be understood that the carrier wave measurement method can be applicable to same frequency carrier wave.
Below with reference to the method that carrier wave measurement provided by the present application is described in detail in Fig. 5, Fig. 5 is the application one embodiment The schematic flow chart of the method 200 of carrier wave measurement, this method 200 can be using in scenes shown in Fig. 1, naturally it is also possible to It applies in other communication scenes, this is not restricted for the embodiment of the present application.
As shown in figure 5, this method 200 includes:
S210, first measurement configuration information, second measurement configuration information and first of the terminal device according to first carrier Parameter determines the first measurement demand on the first carrier, which includes being applied at least two carrier waves On measurement configuration information, which includes the first carrier.
Wherein, first parameter is true according to the first measurement configuration information of the first carrier and second measurement configuration information Fixed or first parameter is determined according to effective detected carrier number of the terminal device.
S220, the terminal device measure on the first carrier according to first measurement demand.
The method of carrier wave measurement provided by the present application, needs terminal device each carrier wave to be measured measured, should The measurement demand (measurement index) of carrier wave to be measured is according to the measurement configuration information (on the carrier wave (first carrier) to be measured One measurement configuration information), the terminal device carrier wave measurement that needs multiple carrier waves (including the carrier wave to be measured) for detecting applicable Configuration information (the second measurement configuration information) and a parameter (the first parameter) determine.First parameter is to be measured according to this The measurement configuration information of carrier wave and second measurement configuration information determine, and are corresponding with the carrier wave to be measured.Or it should First parameter is determined according to effective detected carrier number of the terminal device.That is determining in the measurement demand of the carrier wave to be measured Cheng Zhong has fully considered the configuration information and other measuring configurations relevant to the carrier wave to be measured letter of the carrier wave to be measured Breath.According to the actual conditions of each carrier wave, to determine corresponding measurement demand.Different carrier waves is realized at differentiation Reason.Consider the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.In the measuring machine meeting for fully considering each carrier wave On the basis of, the measurement delay of terminal device can also be reduced.Meanwhile it avoiding and excessively high want is generated to terminal device measurement capability It asks, reduces the cost of terminal device.It ensure that terminal device can be communicated normally.Improve user experience.
Specifically, in S210, need to measure some carrier wave in terminal device (by taking first carrier as an example into Row explanation) when, need first to determine the first measurement demand of first carrier, which is properly termed as the first measurement index Deng the measurement behavior to the first carrier for the specification terminal device.
First measurement demand is according to the first measurement configuration information of first carrier, the second measurement configuration information and What one parameter determined.First measurement configuration information is measurement configuration information corresponding with the carrier wave, right for different carrier waves The first measurement configuration information answered can be same or different.For example, Fig. 3 or shown in Fig. 4,5 carrier waves have respectively The first measurement configuration information corresponding with oneself, this 5 first measurement configuration informations are all different.It should be understood that being carried respectively with 5 The corresponding measurement configuration information of wave can be known as the first measurement configuration information, but 5 the first measurement configuration informations include Content is actually different, alternatively, measurement configuration information corresponding from 5 carrier waves is properly termed as different measurements respectively respectively Configuration information.This is not restricted for the embodiment of the present application.For example, first measurement configuration information can be SMTC pattern etc..Often The corresponding SMTC pattern of a carrier wave can be all different.
Second measurement configuration information includes the configuration information applied to multiple carrier waves (at least two carrier waves), multiple carrier wave Including the first carrier.For example, shown in Fig. 4, the second measurement configuration information can be measurement interval pattern, be applied to carrier wave 1 To 5, which can be any one in carrier wave 1 to 5.It should be understood that multiple carrier wave, which can be the terminal device, to be needed All carrier waves in all carrier waves to be detected or some frequency range.This is not restricted for the embodiment of the present application.This One parameter is corresponding with the first carrier, is the first measurement configuration information and second measurement configuration information according to the first carrier Determining or first parameter is determined according to effective detected carrier number of the terminal device.Effective detected carrier number and the end The ability of end equipment is related.The corresponding effective detected carrier number of different terminal devices can be same or different.Also, it is each to carry The corresponding effective monitoring carrier number of wave is also possible to identical or different.The mistake determined in the first measurement demand of first carrier Cheng Zhong adequately considers various measurement configuration informations relevant to the first carrier.It ensures for different carrier waves, carries out Differentiation processing.
In the case that first parameter is determined according to effective detected carrier number of the terminal device, due to effectively detecting load Wave number is that the corresponding effective detected carrier number of terminal device related to the ability of terminal device, different may be different.Also, it is right In a terminal device, since the demand for different carrier waves is different, alternatively, in other words, different carrier waves are for the end The importance of end equipment is different.Therefore, the corresponding effective monitoring carrier number of each carrier wave can be identical or different.For Measurement in need carrier wave, corresponding same first parameter (carrier coefficient).Alternatively, being also possible to each load for needing to measure Corresponding first parameter of wave.This is not restricted for the embodiment of the present application.
In S220, which measures on the first carrier according to first measurement demand.For example, should Terminal device carries out the measurement etc. of reference signal according to the first determining measurement demand on first carrier.Terminal device according to Measurement demand corresponding with carrier wave to be measured carries out the measurement of signal, it is ensured that realizes at differentiation to different carrier waves Reason.Different measurement demands can be used in different carrier waves, adequately considers the fairness of different carrier waves measuring machine meeting itself And competitiveness.
It should be understood that in the embodiment of the present application, which can be alien frequencies carrier wave, be also possible to same frequency carrier wave.The At least two carrier waves of two measurement configuration informations application can all be same frequency carrier wave, can also all be alien frequencies carrier wave, alternatively, may be used also To include same frequency carrier wave and alien frequencies carrier wave etc., or, it is also possible to include other standard carrier waves etc..The embodiment of the present application is herein not It is restricted.
Optionally, as one embodiment, which is according at least two carrier wave the first of each carrier wave Survey what configuration information was determined with second measurement configuration information.
Specifically, the second measurement configuration information includes applied to the measurement configuration information at least two carrier waves.At this In at least two carrier waves, including the first carrier.Also, each carrier wave corresponds to a measurement and matches at least two carrier wave Confidence breath.For example, being illustrated for shown in Fig. 4.Second measurement configuration information includes applied to the survey on carrier wave 1 to 5 Measure configuration information.Second measurement configuration information can be measurement interval pattern.Each of carrier wave 1 to 5 carrier wave is all corresponding One SMTC pattern.5 SMTC patterns can be understood as the first measurement configuration information corresponding with each carrier wave.I.e. each load Corresponding first measurement configuration information of wave is different.It should be understood that each of carrier wave 1 to 5 corresponding measuring configuration of carrier wave Although information referred to as the first measurement configuration information, the content that this 5 first measurement configuration informations include, for example, the period Etc. being different.Alternatively, the corresponding measurement configuration information of each carrier wave can also be respectively designated as to different measuring configuration letters Breath, is distinguish with title.For example, the corresponding measurement configuration information of carrier wave 1 to 5 may be respectively referred to as: No. 1 carrier wave measurement Configuration information, No. 2 carrier wave measurement configuration informations, No. 3 carrier wave measurement configuration informations, No. 4 carrier wave measurement configuration informations, No. 5 carrier waves Measurement configuration information.This is not restricted for the embodiment of the present application.First parameter be according at least two carrier wave, and it is each What the corresponding measurement configuration information of carrier wave and second measurement configuration information determined.For example, being said for shown in Fig. 4 It is bright.First parameter is determined according to measurement interval drawing information, the corresponding SMTC drawing information of 5 carrier waves.Change sentence It talks about, the first parameter is according to the corresponding measurement configuration information of carrier wave each at least two carrier wave, is applied to multiple load What the second measurement configuration information of wave and the first measurement configuration information on the first carrier determined.In this embodiment, sharp With at least two carrier wave, survey configuration information corresponding with each carrier wave and second measurement configuration information determine first ginseng Number, has fully considered the relevant various measurement configuration informations of the first carrier.It ensures for different carrier waves, carries out differentiation Processing.Realizing the corresponding parameter of different carrier waves can be different.Improve the fairness of different carrier waves measuring machine meeting itself And competitiveness.
It should be understood that first parameter can also be determined according to other measurement configuration informations relevant to the first carrier.This Apply for that this is not restricted for embodiment.
Optionally, as one embodiment, which is according at least two carrier wave, with the first carrier First measurement configuration information has the total number subcarriers of collision to determine.
Specifically, being illustrated for as shown in Figure 4.Second measurement configuration information includes being applied to carrier wave 1 to 5 On measurement configuration information.Assuming that the first carrier is carrier wave 1, the measurement configuration information of carrier wave 1 can be the SMTC figure of carrier wave 1 Sample.As can be seen that since terminal needs to carry out the measurement on carrier wave 1 according to the second measurement configuration information.But the second measurement is matched Confidence ceases while being applied to carrier wave 2 to 5.Therefore, when being measured to carrier wave 1, it is more likely that can be with terminal device to carrier wave 2 Measurement to 5 generates conflict.For example, the signal on carrier wave 1 should be measured in the same time according to the second measurement configuration information, also The signal on carrier wave 2 and 3 is measured according to the second measurement configuration information.It may will be generated with first carrier within the same time Measurement conflict.In the i.e. same time, terminal device will also measure other carrier waves in addition to measuring the first carrier.Measurement can be generated Conflict.Therefore, the first parameter is that have collision with the first measurement configuration information of the first carrier according at least two carrier wave Total number subcarriers determine.What the total number subcarriers for having measurement to conflict in the i.e. same time, and including first carrier determined. It determines first parameter by means of which, can be more accurate and really reflects that the first parameter is and the first carrier It is corresponding.Improve the accuracy of the first parameter.The first parameter is allowed more really to reflect that different carrier waves itself are surveyed Measure the fairness and competitiveness of chance.
It should be understood that in application embodiment itself, the first parameter can also according to first measurement configuration information and the Two measurement configuration informations or other configuration informations relevant to the first carrier determine.The embodiment of the present application does not limit herein System.
Optionally, in the case that first parameter is determined according to effective detected carrier number of the terminal device, for example, As shown in Figure 4, if terminal has the ability to carry out SSB measurement, for carrier wave 1, first parameter to carrier wave 1 to 5 simultaneously It is to subtract 4 that can also be equal to, which has the total number subcarriers collided with carrier wave 1, i.e., for carrier wave 1, which can be 1. Alternatively, first parameter can also be that at least one is identical with the interval where the measurement window of carrier wave 1 for carrier wave 1 Total number subcarriers subtract 4.I.e. first parameter is 1.It should be understood that when first parameter is effective detection according to the terminal device In the case that carrier number determines, the minimum value of first parameter is 1.The first ginseng that the network equipment is reported according to the terminal device Number, measurement configuration information that can be different for different terminal equipment configurations.Improve the measurement performance and use of terminal device Family experience.
Optionally, as one embodiment.First measurement configuration information includes measurement window, which includes Measurement interval.Then the collision include: measurement interval where the measurement window on the carrier wave for including at least two carrier wave with should It is identical that the measurement where measurement window on first carrier is spaced at least one.
Specifically.For each carrier wave, which may include measurement window (reception window), measurement window It is network equipments configuration, for notifying period or position of the terminal device when being received on the carrier wave or measuring measurement window It sets.Second measurement configuration information includes measurement interval.Second measurement configuration information is also network equipments configuration, for leading to Know metrical information etc. of the terminal device when measuring multiple carrier waves.For example, terminal device can be logical in the second measurement configuration information In each the measurement interval (Measurement Gap) known, cell identification or measurement operation etc. are carried out to multiple carrier wave. Then at least two carrier wave, the collision with the first measurement configuration information of the first carrier includes: at least two carrier wave In include carrier wave on measurement window where measurement interval with the first carrier on measurement window where measurement interval at least Have one it is identical.I.e. in same measurement interval, including first carrier itself, the total number subcarriers that need to measure.Benefit Judge whether to generate collision with the aforedescribed process, can quickly and accurately obtain result.It improves terminal device and determines the first parameter Efficiency.
For example, being illustrated for shown in Fig. 4.The measurement gap periods that second measurement configuration information includes are 40ms, for carrier wave 1 to 5, the SMTC period is respectively 20ms, 40ms, 80ms, 160ms, 160ms.Assuming that the first carrier is to carry Wave 1, at least two carrier wave are 5 carrier waves.At least two carrier wave includes carrier wave 1.For carrier wave 1 itself, each SSB is connect Measurement interval where receiving window is identical as carrier wave 1 itself, it is believed that carrier wave 1 itself is collided with oneself.Second on carrier wave 2 Third SSB reception window is in same measurement interval on measurement interval and carrier wave 1 where SSB reception window.It is considered that carrying Wave 2 is also collided with carrier wave 1.The measurement interval where first SSB reception window on carrier wave 3 is received with first SSB on carrier wave 1 Window is in same measurement interval.It is considered that carrier wave 3 and carrier wave 1 collide.Where first SSB reception window on carrier wave 4 Measurement interval is with third SSB reception window on carrier wave 1 in same measurement interval.It is considered that carrier wave 4 and carrier wave 1 collide. The 7th SSB reception window is between the same measurement on measurement interval where first SSB reception window and carrier wave 1 on carrier wave 5 Every interior.It is considered that carrier wave 5 and carrier wave 1 collide.Therefore, in this 5 carrier waves, it is with the total number subcarriers collided with carrier wave 1 5.I.e. for carrier wave 1, the value of the first parameter is 5.
Similar, for carrier wave 2, { 0,1,2,3,4 ... } is divided between the measurement where SSB window on carrier wave 2.It carries Be divided between the measurement where SSB window on wave 3 0,2,4,8,10 ....Be divided between the measurement where SSB window on carrier wave 41, 5,9,13,17,…}.Be divided between the measurement where SSB window on carrier wave 5 3,7,11,15,19 ....Correspondingly, with carrier wave 2 Other carrier waves for having " colliding at SSB measurement interval " are carrier wave 1,3,4,5, and the value of first parameter corresponding with carrier wave 2 is 5.With It is carrier wave 1,2 that carrier wave 3, which has other carrier waves of " colliding at SSB measurement interval ", and the value of first parameter corresponding with carrier wave 3 is 3.With It is carrier wave 1,2 that carrier wave 4, which has other carrier waves of " colliding at SSB measurement interval ", and the value of first parameter corresponding with carrier wave 4 is 3.With It is 1,2 that carrier wave 5, which has other carrier waves of " colliding at SSB measurement interval ", and the value of first parameter corresponding with carrier wave 5 is 3.
Optionally, as one embodiment.First measurement configuration information includes measurement window, which includes Measurement interval;The then collision includes at least one measurement window on carrier wave for including at least two carrier wave, with first load At least one measurement window on wave, in same measurement interval.
Specifically.For each carrier wave in multiple carrier wave, which may include measurement window (reception window) information, measurement window are network equipments configurations, for notifying terminal device to receive or the period of measurement measurement window Or position etc..Second metrical information includes measurement interval etc..Second measurement configuration information is also network equipments configuration, is used for Notify metrical information etc. of the terminal device when measuring multiple carrier waves.Terminal device can be at each measurement interval In (Measurement Gap), cell identification or measurement operation etc. are carried out to multiple carrier wave.Then at least two carrier wave In, the collision with the first measurement configuration information of the first carrier includes: that the carrier wave at least two carrier wave includes at least One measurement window, at least one measurement window on the first carrier in same measurement interval.The i.e. same measurement interval Interior, other than the first carrier, there are also the measurement windows of other carrier waves in the measurement interval.
For example, being illustrated for as shown in Figure 4.Measurement gap periods are 40ms, for carrier wave 1 to 5, SMTC period Respectively 20ms, 40ms, 80ms, 160ms, 160ms.Assuming that the first carrier is carrier wave 1, which includes 5 Carrier wave.At least two carrier wave includes carrier wave 1, and for carrier wave 1, second SSB on first SSB measurement window and carrier wave 2 is connect Measurement where receiving window is spaced in the same measurement interval.It is considered that carrier wave 2 is also collided with carrier wave 1.First on carrier wave 3 First SSB reception window is in same measurement interval on measurement interval and carrier wave 1 where a SSB reception window.It is considered that Carrier wave 3 and carrier wave 1 collide.The measurement interval where first SSB reception window on carrier wave 4 is received with third SSB on carrier wave 1 Window is in same measurement interval.It is considered that carrier wave 4 and carrier wave 1 collide.Where first SSB reception window on carrier wave 5 Measurement interval is with the 7th SSB reception window on carrier wave 1 in same measurement interval.It is considered that carrier wave 5 and carrier wave 1 collide. Therefore, in this 5 carrier waves, having the total number subcarriers collided with carrier wave 1 is 5.It removes except carrier wave 1, there is punching with carrier wave 1 The carrier number hit (4) plus 1, obtain that there are the total number subcarriers collided with carrier wave 1, for carrier wave 1, the value of the first parameter is 5。
Optionally, as one embodiment.First measurement configuration information includes measurement window, which includes Measurement interval;The then collision includes the measurement interval where the measurement window on carrier wave for including at least two carrier wave, with this Measurement interval where measurement window on first carrier, it is all identical or all overlapping.
Specifically, measurement gap periods are 40ms, and for carrier wave 1 to 5, the SMTC period divides for example, as shown in Figure 4 It Wei not 20ms, 40ms, 80ms, 160ms, 160ms.Assuming that the first carrier is carrier wave 1, which includes 5 loads Wave.At least two carrier wave includes carrier wave 1, each SSB reception window on carrier wave 2, all reception window with the SSB on carrier wave 1 The time interval at place is all identical or all overlapping.I.e. in any one measurement interval, it is also required to when measuring carrier wave 1 Measure carrier wave 2.Therefore, carrier wave 2 and carrier wave 1 conflict.
Optionally, as one embodiment.First measurement configuration information includes measurement window, which includes Measurement interval;The then collision includes the measurement interval where the measurement window on carrier wave for including at least two carrier wave, with this Measurement interval where measurement window on first carrier, part is identical or part is overlapping.
Specifically, measurement gap periods are 40ms, and for carrier wave 1 to 5, the SMTC period divides for example, as shown in Figure 4 It Wei not 20ms, 40ms, 80ms, 160ms, 160ms.Assuming that the first carrier is carrier wave 1, which includes 5 loads Wave.Each SSB on carrier wave 3 connects the measurement interval where window, the only reception window at part measurement interval and the SSB on wave 1 The measurement interval at place is identical or part is overlapping.For example, in measurement interval where second SSB reception window on carrier wave 1, just The SSB reception window measurement on carrier wave 3 is not needed to carry out.I.e. only in the measurement interval where all SSB reception windows of carrier wave 1 Part measurement interval on, measure carrier wave 1 when be also required to measurement carrier wave 3.Therefore, carrier wave 3 and carrier wave 1 conflict.Similar, There is collision for carrier wave 4 and 5, and with carrier wave 1.
It should be understood that if the terminal is configured with measurement interval, this measurement interval simultaneously for the measurement of NR carrier wave with Different standard carrier wave measurement, then these different standard carrier waves are considered having " colliding at measurement interval " with other NR carrier waves.The different standard Carrier wave includes but is not limited to LTE, evolved universal terrestrial wireless access network (Evolved Universal Terrestrial Radio Access Network, UTRAN), GSM, high speed packet data (High Rate Packet Data, HRPD) etc..This Apply for that this is not restricted for embodiment.
It should also be understood that explanation or description to the collision, it can also be other relevant descriptions, but the essence collided It is in the same measurement interval, other than the first carrier, there are also the measurement windows of other carrier waves in the measurement interval domestic demand It measures.Therefore, there can also be its other similar description to the collision for this.The model in the application should all be covered In enclosing.This is not restricted for the embodiment of the present application.
Optionally, as one embodiment, the measurement window which includes includes measurement window start bit At least one of it sets, in measurement window duration and measurement window period.The measurement interval that second metrical information includes includes surveying At least one of in amount interval initial position, measurement interval duration and measurement gap periods.
Specifically, the network equipment can all configure corresponding measurement configuration information for each carrier wave, it is used for terminal Equipment notice measures on the carrier wave or the information such as the period of reception signal.Therefore, which further includes measurement window starting At least one of position, in measurement window duration and measurement window period.Terminal device is according to the measurement window on each carrier wave Initial position, the information such as measurement window duration, can really when need to measure, the length of time of measuring Be how many etc..Illustrated for shown in Fig. 3, which is equivalent to the initial position of SSB reception window, measurement The window duration is equivalent to the length of SSB reception window, and the measurement window period is equivalent to the SMTC period.The survey that second metrical information includes At least one of amount interval includes measurement interval initial position, in measurement interval duration and measurement gap periods.For leading to Know that terminal device can carry out the measurement etc. of signal in these measurement intervals to multiple carrier wave.It uses measurement interval initial position The position at measurement interval is determined in terminal device.Measurement interval duration is equivalent to measurement interval time length.Between measurement The phase is equivalent to the time span between every two measurement interval every other week.For example, as shown in Figure 4.Gap periods are measured (between measurement Every the repetition period) it is 40ms.When the first measurement configuration information and the second measurement configuration information include above content, can make The first measurement demand that terminal device is determined is more accurate and really reflects the characteristic of the first carrier.Improve the first ginseng Several and the first measurement demand accuracy.The first measurement demand more really to embody different carrier waves itself to survey Measure the fairness and competitiveness of chance.
It should be understood that the measurement window that the first measurement configuration information includes can also include other letters relevant to the measurement window Breath.The measurement interval that second metrical information includes is also to include other information relevant to the measurement interval, the application implementation This is not restricted for example.
Optionally, as one embodiment, in S210, which believes according to the first measuring configuration of first carrier Breath, the second measurement configuration information and the first parameter, determine the first measurement demand on the first carrier, comprising: the terminal is set It is standby that the first measurement need are determined according to the measurement window period, the measurement gap periods and first parameter on the first carrier It asks.
Specifically, since the first metrical information includes the measurement window period, since the second metrical information includes the measurement Gap periods.Therefore, terminal device can according on the first carrier the measurement window period, the measurement gap periods and should First parameter determines first measurement demand.Allow the first measurement demand determined more accurate and true in this way Reflect the characteristic of the first carrier.Improve the accuracy of the first measurement demand.Allow the first measurement demand more true Reflect the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.On the basis for the measuring machine meeting for fully considering each carrier wave On, the measurement delay of terminal device can also be reduced.Meanwhile avoiding and generating excessively high requirement to terminal device measurement capability, Reduce the cost of terminal device.Improve user experience.
Optionally, as one embodiment, the terminal device is according to the measurement window period on the first carrier, the measurement Gap periods and first parameter determine first measurement demand, comprising:
(1) determines first measurement demand according to the following formula,
S=R × Max (T1, T2) × A (1)
Wherein, S is the value of the measurement index of first measurement demand, and R is constant, and T1 is the measurement window period, and T2 is should Gap periods are measured, the value of Max (T1, T2) is biggish value in T1 and T2, and A is first parameter.
Refer to specifically, terminal device can calculate the corresponding measurement of the first measurement demand according to above-mentioned formula (1) Target value.R is constant (being equivalent to coefficient), and the value of R is positive number.T1 be the first measurement configuration information include with the first carrier Corresponding measurement window period, different carrier waves corresponding measurement window period can be different.T2 is second measuring configuration letter The measurement gap periods for multiple carrier wave that breath includes.The value of Max (T1, T2) is biggish value in T1 and T2, and A is and this Corresponding first parameter of first carrier.
It is illustrated for shown in Fig. 4.Assuming that first carrier is carrier wave 1, the measurement window period of first carrier is 20ms, the i.e. value of T1 are 20ms.T2 is the measurement gap periods for 5 carrier wave that second measurement configuration information includes, i.e., For carrier wave 1 to 5, the value of T2 is all 40ms.Then the value of Max (T1, T2) is 40ms.According to the correlation solution of above-mentioned first parameter It releases, it can be deduced that the first parameter corresponding with carrier wave is 5.R is predefined constant.Therefore, according to the value of above-mentioned each parameter, just The value of the measurement index of the first measurement demand on first carrier can be calculated.Similar, for carrier wave 2 to 5, can use Above-mentioned method calculates separately out the value of the measurement index of measurement demand corresponding with each carrier wave.
Optionally, in formula (1), R can indicate that the measuring machine needed can number.For example, if the first measurement demand (measurement index) is cell identification time/delay, then R expression is the required measuring machine meeting within the time of cell identification Number.If the first measurement demand is primary synchronization signal (Primary Synchronization Signal, PSS)/auxiliary synchronization The detection time of signal (Secondary Synchronization Signal, SSS), then R expression is PSS/SSS detection Required measuring machine can number in time.If measurement index is SSB index detection time, what is indicated is SSB index Measuring machine required for detection time can number.If the first measurement demand is SSB measurement period, what R was indicated is to obtain Required measuring machine can number in the time of SSB measurement result.It should be understood that R value can be phase for different carrier waves It is same or different.For different measurement indexes, R value can be identical or different.
Optionally, as one embodiment, the terminal device is according to the measurement window period on the first carrier, the measurement Gap periods and first parameter determine first measurement demand, comprising:
(2) determine first measurement demand according to the following formula,
S=Max (T1, T2) × A (2)
Wherein, S is the value of the measurement index of first measurement demand, and T1 is the measurement window period, and T2 is the measurement interval Period, the value of Max (T1, T2) are biggish value in T1 and T2, and A is first parameter.
Specifically, other than using value of the above-mentioned formula (1) to calculate the corresponding measurement index of the first measurement demand, The value of the corresponding measurement index of the first measurement demand can also be calculated using formula (2).A constant coefficient is not needed to correct The calculating formula.T1 is the measurement window period corresponding with the first carrier that the first measurement configuration information includes, and different carrier waves are corresponding The measurement window period can be it is different.Between the measurement for multiple carrier wave that T2 includes for second measurement configuration information Phase every other week.The value of Max (T1, T2) is biggish value in T1 and T2, and A is first parameter corresponding with the first carrier.It is counted Calculation method with it is above-mentioned similar.For sake of simplicity, not repeating herein.
The value that the measurement index of the first measurement demand is calculated using above-mentioned formula (1) and (2), can quick and precisely be obtained First measurement demand improves the efficiency that terminal device carries out carrier wave detection.Improve user experience.
It should be understood that other than the value for the measurement index for calculating the first measurement demand using above-mentioned formula (1) and (2), also It can use other formula, for example, S and Max (T1, T2), the relationship between A, R can also meet quadratic function, exponential function Etc. any possible form.This is not restricted for the embodiment of the present application.
Optionally, as one embodiment, the first measurement configuration information of the first carrier is synchronous on the first carrier The first measurement configuration information of block SSB.
Specifically, if the first measurement that the first measurement configuration information of first carrier is the SSB on the first carrier is matched Confidence breath, then such as 3 or shown in Fig. 4.First measurement configuration information can be the SMTC on the first carrier, and the first measurement is matched The measurement window that confidence breath includes can be SSB measurement window, and SSB measurement window may include SSB measurement window initial position, SBB measurement Window duration and SMTC period etc..The measurement interval that second measurement configuration information includes can be SSB measurement interval, between measurement The phase can be SSB measurement gap periods every other week.
It should be understood that the first measurement configuration information of the first carrier can also be other reference signals on the first carrier The first measurement configuration information, this is not restricted for the embodiment of the present application.
Optionally, as one embodiment, which includes: cell identification time or delay, reference signal Detection time, reference signal index detection time, reference signal measurement period, in wireless resource management RRM measurement period extremely It is one few.For example, the value of the measurement index of the first measurement demand calculated using above-mentioned formula (1) and (2) can be cell Value of recognition time, or a certain reference signal index detection time value etc..It should be understood that first measurement demand can be with Including other information or index.This is not restricted for the embodiment of the present application.
Optionally, as shown in fig. 6, this method 200 further include:
S230, the terminal device send first parameter to the network equipment.
Specifically, in the case that first parameter is determined according to effective detected carrier number of the terminal device, by It is that the corresponding effective detected carrier number of terminal device related to the ability of terminal device, different may in effective detected carrier number It is different.Also, for a terminal device, since the demand for different carrier waves is different, alternatively, in other words, it is different Carrier wave is different the importance of the terminal device.Therefore, the corresponding effective monitoring carrier number of each carrier wave can be identical Or it is different.Terminal device can be for the carrier wave of measurement in need only report same first parameter, be also possible to Report each corresponding first parameter of carrier wave for needing to measure.After the network equipment receives first parameter.It can basis First parameter, first measurement configuration information different to different carrier waves or different terminal equipment configurations and the second measurement Configuration information, so that the mode of the first measurement configuration information of configuration and the second measuring configuration is more flexible.More targetedly.
For example, as shown in Figure 4, if terminal has the ability to carry out SSB measurement to carrier wave 1 to 5 simultaneously, for carrier wave 1 Speech, which, which can also be equal to, with carrier wave 1 there are the total number subcarriers collided to subtract 4, i.e., for carrier wave 1, this first Parameter can be 1.Alternatively, first parameter can also be with the interval where the measurement window of carrier wave 1 extremely for carrier wave 1 A rare identical total number subcarriers subtract 4.I.e. first parameter is 1.It should be understood that when first parameter is set according to the terminal In the case that standby effective detected carrier number determines, the minimum value of first parameter is 1.The network equipment is according to the terminal device The first parameter reported, measurement configuration information that can be different for different terminal equipment configurations.Improve terminal device Measurement performance and user experience.
It should be understood that when first parameter is determined according to the total number subcarriers that the metrical information with the first carrier has collision In the case of, which can also send first parameter to the network equipment.This is not restricted for the embodiment of the present application.
Fig. 7 is the schematic flow chart of the method 300 of the carrier wave measurement of the application another embodiment, and this method 300 can In application scene shown in Fig. 1, naturally it is also possible to apply in other communication scenes, the embodiment of the present application does not limit herein System.
As shown in fig. 7, this method 300 includes:
S310, terminal device determine the first measurement demand on first carrier according to the first parameter, first parameter according to First measurement configuration information of first carrier and the determination of the second measurement configuration information or first parameter are according to the terminal device Effective detected carrier number determine.
Wherein, which is applied to the measurement configuration information at least two carrier waves, this at least two A carrier wave includes the first carrier.
S320, the terminal device measure on the first carrier according to first measurement demand.
The method of carrier wave measurement provided by the present application, for each carrier wave to be measured, the measurement of the carrier wave to be measured is needed Asking (measurement index) is determined according to the corresponding parameter (the first parameter) to be measured.First parameter is to be measured according to this Multiple carrier waves that measurement configuration information (the first measurement configuration information) on loading gage wave and the terminal device need to detect (including this Carrier wave to be measured) unify applicable carrier wave measurement configuration information (the second measurement configuration information) determination.And the first parameter be with The carrier wave to be measured is corresponding.Or first parameter is determined according to effective detected carrier number of the terminal device.Wait at this During the determination for measuring the measurement demand of carrier wave, the configuration information of the carrier wave to be measured and to be measured with this has been fully considered Other relevant measurement configuration informations of carrier wave.According to the actual conditions of each carrier wave, to determine corresponding measurement demand.It is right Different carrier waves realizes differentiation processing.Consider the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.Sufficiently examining On the basis of the measuring machine meeting for considering each carrier wave, the measurement delay of terminal device can also be reduced.Meanwhile it avoiding and terminal is set Standby measurement capability generates excessively high requirement, reduces the cost of terminal device.It ensure that terminal device can be communicated normally. Improve user experience.
Optionally, as one embodiment, first parameter be according at least two carrier wave, each carrier wave What the first survey configuration information and second measurement configuration information determined.
Optionally, as one embodiment, first parameter is according at least two carrier wave, with described first First measurement configuration information of carrier wave has the total number subcarriers of collision to determine.
Optionally, as one embodiment, first measurement configuration information includes measurement window, second metrical information It is spaced including measurement;Then the collision includes: the measurement where the measurement window on the carrier wave for including at least two carrier wave It is identical that interval with the measurement where measurement window on the first carrier is spaced at least one.
Optionally, as one embodiment, first measurement configuration information includes measurement window, second metrical information It is spaced including measurement;Then the collision includes: at least one measurement window and at least two carrier wave of the first carrier Including carrier wave at least one measurement window the same measurement interval in.
Optionally, as one embodiment, first measurement configuration information includes measurement window, second metrical information It is spaced including measurement;Then the collision includes the measurement where the measurement window on carrier wave for including at least two carrier wave Interval, it is all identical or all overlapping with the measurement interval where the measurement window on the first carrier.
Optionally, as one embodiment, first measurement configuration information includes measurement window, second metrical information It is spaced including measurement;Then the collision includes the measurement where the measurement window on carrier wave for including at least two carrier wave Interval, with the measurement interval where the measurement window on the first carrier, part is identical or part is overlapping.
Optionally, as one embodiment, the measurement window that first measurement configuration information includes includes measurement window starting At least one of position, in measurement window duration and measurement window period;The measurement interval packet that second metrical information includes At least one of measurement interval initial position is included, in measurement interval duration and measurement gap periods.
Specifically, in method 300, above-mentioned each embodiment is similar with each embodiment in method 200, similar Description can be referred to and be described accordingly in each embodiment of method 200.For sake of simplicity, not repeating herein.
Optionally, as one embodiment, in S320, which determines first measurement on the first carrier Demand, comprising:
(3) determine first measurement demand according to the following formula,
S=N × A (3)
Wherein, S is the value of the measurement index of first measurement demand, and N is constant, and A is first parameter.
Refer to specifically, terminal device can calculate the corresponding measurement of the first measurement demand according to above-mentioned formula (3) Target value.A be first parameter corresponding with the first carrier, the first parameter can by with the above-mentioned each reality of method 200 It applies method similar in example to obtain, not repeat herein.N is constant, and value is positive value.Corresponding first parameter of different carrier waves It can be different.
Optionally, N is the constant for indicating the time.Such as.The value of N is corresponding when can be one from the measurement of different reference signals Time constant.Either other time constants.This is not restricted for the embodiment of the present application.
Optionally, as shown in figure 8, this method 300 further include:
S330, the terminal device send first parameter to the network equipment.
Specifically, in the case that first parameter is determined according to effective detected carrier number of the terminal device.By It is that the corresponding effective detected carrier number of terminal device related to the ability of terminal device, different may in effective detected carrier number It is different.Also, for a terminal device, since the demand for different carrier waves is different, alternatively, in other words, it is different Carrier wave is different the importance of the terminal device.Therefore, the corresponding effective monitoring carrier number of each carrier wave can be identical Or it is different.Terminal device can be for the carrier wave of measurement in need only report same first parameter, be also possible to Report each corresponding first parameter of carrier wave for needing to measure.After the network equipment receives first parameter.It can basis First parameter, first measurement configuration information different to different carrier waves or different terminal equipment configurations and the second measurement Configuration information, so that the mode of the first measurement configuration information of configuration and the second measuring configuration is more flexible.More targetedly, just In the measurement efficiency for improving terminal device, user experience is improved.
For example, as shown in Figure 4, if terminal has the ability to carry out SSB measurement to carrier wave 1 to 5 simultaneously, for carrier wave 1 Speech, which, which can also be equal to, with carrier wave 1 there are the total number subcarriers collided to subtract 4, i.e., for carrier wave 1, this first Parameter can be 1.Alternatively, first parameter can also be with the interval where the measurement window of carrier wave 1 extremely for carrier wave 1 A rare identical total number subcarriers subtract 4.I.e. first parameter is 1.It should be understood that when first parameter is set according to the terminal In the case that standby effective detected carrier number determines, the minimum value of first parameter is 1.The network equipment is according to the terminal device The first parameter reported, measurement configuration information that can be different for different terminal equipment configurations.Improve terminal device Measurement performance and user experience.
It should be understood that when first parameter is determined according to the total number subcarriers that the metrical information with the first carrier has collision In the case of, which can also send first parameter to the network equipment.This is not restricted for the embodiment of the present application.
It should be understood that each concrete implementation mode can also realize that similar description can in method 300 in method 200 With reference to relevant description in method 200.For sake of simplicity, not repeating herein.
It should also be understood that first, second etc. is intended merely to indicate that multiple objects are different in each embodiment of the application 's.Such as first measurement configuration information and the second measurement configuration information be intended merely to represent different information.Without should be right Information itself generates any influence, and above-mentioned first, second waits and cause any restrictions to embodiments herein.
It should also be understood that above-mentioned be intended merely to that those skilled in the art is helped to more fully understand the embodiment of the present application, and have to Limit the range of the embodiment of the present application.Those skilled in the art are according to given above-mentioned example, it is clear that can carry out various etc. The modification or variation of valence for example, certain steps can be necessarily in the above method 200 and method 300, or can newly add Enter certain steps etc..The either combination of above-mentioned any two kinds or any various embodiments.Such modification, variation or combination Scheme afterwards is also fallen into the range of the embodiment of the present application.
It should also be understood that magnitude of the sequence numbers of the above procedures are not meant that the order of the execution order, the execution of each process Sequence should be determined by its function and internal logic, and the implementation process without coping with the embodiment of the present application constitutes any restriction.
Above in association with Fig. 1 to Fig. 8, the method that the carrier wave measurement of the embodiment of the present application is described in detail, below in conjunction with Fig. 9 To Figure 12, the terminal device of the embodiment of the present application is described in detail.
Fig. 9 is the schematic block diagram of the terminal device of the application one embodiment.Terminal device 400 shown in Fig. 9 can be with For executing corresponding in Fig. 5 and Fig. 6, the step of terminal device executes in method 200.Terminal device embodiment and method are implemented Example corresponds to each other, and similar description is referred to embodiment of the method, which includes: processor 410, memory 420 With transceiver 430, processor 410, memory 420 and transceiver 430 pass through communication connection, 420 store instruction of memory, processing Device 410 is used to execute the instruction of the storage of memory 420, and transceiver 430 is used to execute specific letter under the driving of processor 410 Number transmitting-receiving.
The processor 410, for determining the first measurement demand on first carrier, first parameter according to the first parameter To be the processor 410 determine according to the first measurement configuration information of the first carrier and the second measurement configuration information or this One parameter is determined according to effective detected carrier number of the terminal device;
Wherein, which is applied to the measurement configuration information at least two carrier waves, this at least two A carrier wave includes the first carrier,
The processor 410, is also used to: according to first measurement demand, measuring on the first carrier.
Terminal device provided by the present application needs the terminal device each carrier wave to be measured measured, this is to be measured The measurement demand (measurement index) of loading gage wave is according to measurement configuration information (the first measuring configuration letter on the carrier wave to be measured Breath), the terminal device need the unified applicable carrier wave measurement configuration information of multiple carrier waves (including the carrier wave to be measured) for detecting (the second measurement configuration information) and a parameter (the first parameter) determine.First parameter is the survey according to the carrier wave to be measured It measures configuration information and second measurement configuration information determines, and be corresponding with the carrier wave to be measured.Or first parameter It is determined according to effective detected carrier number of the terminal device.I.e. during the determination of the measurement demand of the carrier wave to be measured, fill Divide the configuration information for considering the carrier wave to be measured and other measurement configuration informations relevant to the carrier wave to be measured.According to each The actual conditions of a carrier wave, to determine corresponding measurement demand.Differentiation processing is realized to different carrier waves.It considers not With the fairness and competitiveness of the meeting of carrier wave measuring machine itself.On the basis of fully considering the measuring machine meeting of each carrier wave, may be used also To reduce the measurement delay of terminal device.Meanwhile avoiding and generating excessively high requirement to terminal device measurement capability, reduce terminal The cost of equipment.It ensure that terminal device can be communicated normally.Improve user experience.
Various components in terminal device 400 pass through communication connection, i.e. processor 410, memory 420 and transceiver 430 Between communicated with each other by internal connecting path, transmitting control and/or data-signal.The application above method embodiment can answer For in processor, or the step of above method embodiment is realized by processor.Processor may be a kind of ic core Piece, the processing capacity with signal.During realization, each step of above method embodiment can be by hard in processor The integrated logic circuit of part or the instruction of software form are completed.Above-mentioned processor can be central processing unit (central Processing unit, CPU), the combination of network processing unit (network processor, NP) or CPU and NP, number letter Number processor (digital signal processor, DSP), specific integrated circuit (application specific Integrated circuit, ASIC), ready-made programmable gate array (field programmable gate array, FPGA) Either other programmable logic device, discrete gate or transistor logic, discrete hardware components.It may be implemented or execute Disclosed each method, step and logic diagram in the application.General processor can be microprocessor or the processor It can be any conventional processor etc..It can be embodied directly at hardware decoding in conjunction with the step of method disclosed in the present application Reason device executes completion, or in decoding processor hardware and software module combine and execute completion.Software module can be located at Random access memory, flash memory, read-only memory, programmable read only memory or electrically erasable programmable memory, register etc. In the storage medium of this field maturation.The storage medium is located at memory, and processor reads the information in memory, hard in conjunction with it Part completes the step of above method.
Optionally, in another embodiment of the application, which is the processor according at least two load In wave, the first of each carrier wave surveys what configuration information was determined with second measurement configuration information.
Optionally, in another embodiment of the application, which is the processor according at least two load In wave, what the total number subcarriers for having collision with the first measurement configuration information of the first carrier determined.
Optionally, in another embodiment of the application, which includes measurement window, second survey Measuring information includes measurement interval;Then the collision includes: the survey where the measurement window on the carrier wave for including at least two carrier wave It is identical that amount interval with the measurement where measurement window on the first carrier is spaced at least one.
Optionally, in another embodiment of the application, stating the first measurement configuration information includes measurement window, second survey Measuring information includes measurement interval;Then the collision includes: at least one measurement window and at least two carrier wave of the first carrier Including carrier wave at least one measurement window the same measurement interval in.
Optionally, in another embodiment of the application, which includes measurement window, second survey Measuring information includes measurement interval;The then collision includes the survey where the measurement window on carrier wave for including at least two carrier wave Amount interval, it is all identical or all overlapping with the measurement interval where the measurement window on the first carrier.
Optionally, in another embodiment of the application, which includes measurement window, second survey Measuring information includes measurement interval;The then collision includes the survey where the measurement window on carrier wave for including at least two carrier wave Amount interval, with the measurement interval where the measurement window on the first carrier, part is identical or part is overlapping.
Optionally, in another embodiment of the application, the measurement window which includes includes surveying At least one of window initial position is measured, in measurement window duration and measurement window period;The measurement that second metrical information includes Interval includes measuring interval initial position, measures interval duration and measures at least one in gap periods.
Optionally, in another embodiment of the application, which is specifically used for: the terminal device is according to this The measurement window period, the measurement gap periods and first parameter on first carrier determine first measurement demand.
Optionally, in another embodiment of the application, which is specifically used for: determining according to the following formula First measurement demand,
S=R × Max (T1, T2) × A
Wherein, S is the value of the measurement index of first measurement demand, and R is constant, and T1 is the measurement window period, and T2 is should Gap periods are measured, the value of Max (T1, T2) is biggish value in T1 and T2, and A is first parameter.
Optionally, in another embodiment of the application, the first measurement configuration information of the first carrier be this first The first measurement configuration information of synchronization signal block SSB on carrier wave.
Optionally, in another embodiment of the application, which is used for, to the network equipment send this first Parameter.
It should be noted that in the embodiment of the present application, processor 410 can be by storing by processing modules implement, memory 420 Module realizes that transceiver 430 can be realized that as shown in Figure 10, terminal device 500 may include processing module by transceiver module 510, memory module 520 and transceiver module 530.
Terminal device 400 or terminal device shown in Fig. 10 500 shown in Fig. 9 can be realized in earlier figures 5 and Fig. 6, just The step of terminal device executes in method 200, similar description can be with reference to the descriptions in aforementioned corresponding method.To avoid weight Multiple, which is not described herein again.
Figure 11 is the schematic block diagram of the terminal device of the application another embodiment.Terminal device 600 shown in Figure 11 It can be used for executing corresponding in Fig. 7 and Fig. 8, the step of terminal device executes in method 300.Terminal device embodiment and method Embodiment corresponds to each other, and similar description is referred to embodiment of the method, which includes: processor 610, storage Device 620 and transceiver 630, processor 610, memory 620 and transceiver 630 are referred to by communication connection, the storage of memory 620 It enables, processor 610 is used to execute the instruction of the storage of memory 620, and transceiver 630 under the driving of processor 610 for executing Specific signal transmitting and receiving.
Processor 610, for determining the first measurement demand on first carrier, which is according to the first parameter According to this manage 610 first carrier of device the first measurement configuration information and the second measurement configuration information determine or this first Parameter is determined according to effective detected carrier number of the terminal device;
Wherein, which is applied to the measurement configuration information at least two carrier waves, this at least two A carrier wave includes the first carrier,
Processor 610 is also used to be measured on the first carrier according to first measurement demand.
Terminal device provided by the present application, for each carrier wave to be measured, the measurement demand (measurement of the carrier wave to be measured Index) it is to be determined according to the corresponding parameter (the first parameter) to be measured.First parameter is according to the carrier wave to be measured On measurement configuration information (the first measurement configuration information) and the terminal device multiple carrier waves for needing to detect (including this is to be measured Carrier wave) unify applicable carrier wave measurement configuration information (the second measurement configuration information) determination.And the first parameter is to be measured with this Loading gage wave is corresponding.Or first parameter is determined according to effective detected carrier number of the terminal device.I.e. in the loading gage to be measured During the determination of the measurement demand of wave, fully considered the carrier wave to be measured configuration information and with the carrier wave phase to be measured Other measurement configuration informations closed.According to the actual conditions of each carrier wave, to determine corresponding measurement demand.To different Carrier wave realizes differentiation processing.Consider the fairness and competitiveness of the meeting of different carrier waves measuring machine itself.It is each fully considering On the basis of the measuring machine meeting of carrier wave, the measurement delay of terminal device can also be reduced.Meanwhile it avoiding and terminal device is measured Ability generates excessively high requirement, reduces the cost of terminal device.It ensure that terminal device can be communicated normally.It improves and uses Family experience.
Various components in terminal device 600 pass through communication connection, i.e. processor 610, memory 620 and transceiver 630 Between communicated with each other by internal connecting path, transmitting control and/or data-signal.The application above method embodiment can answer For in processor, or the step of above method embodiment is realized by processor.Processor may be a kind of ic core Piece, the processing capacity with signal.During realization, each step of above method embodiment can be by hard in processor The integrated logic circuit of part or the instruction of software form are completed.Above-mentioned processor can be CPU, network processing unit NP or The combination of CPU and NP, DSP, ASIC, FPGA or other programmable logic device, discrete gate or transistor logic, point Vertical hardware component.It may be implemented or execute disclosed each method, step and the logic diagram in the application.General processor can To be that microprocessor or the processor are also possible to any conventional processor etc..In conjunction with the step of method disclosed in the present application Suddenly hardware decoding processor can be embodied directly in and execute completion, or in decoding processor hardware and software module combine Execute completion.Software module can be located at random access memory, and flash memory, read-only memory, programmable read only memory or electricity can In the storage medium of this fields such as erasable programmable storage, register maturation.The storage medium is located at memory, and processor is read Information in access to memory, in conjunction with the step of its hardware completion above method.
Optionally, in another embodiment of the application, which is the processor according at least two load In wave, the first of each carrier wave surveys what configuration information was determined with second measurement configuration information.
Optionally, in another embodiment of the application, which is the processor according at least two load In wave, what the total number subcarriers for having collision with the first measurement configuration information of the first carrier determined.
Optionally, in another embodiment of the application, which includes measurement window, second survey Measuring information includes measurement interval;Then the collision includes: the survey where the measurement window on the carrier wave for including at least two carrier wave It is identical that amount interval with the measurement where measurement window on the first carrier is spaced at least one.
Optionally, in another embodiment of the application, stating the first measurement configuration information includes measurement window, second survey Measuring information includes measurement interval;Then the collision includes: at least one measurement window and at least two carrier wave of the first carrier Including carrier wave at least one measurement window the same measurement interval in.
Optionally, in another embodiment of the application, which includes measurement window, second survey Measuring information includes measurement interval;The then collision includes the survey where the measurement window on carrier wave for including at least two carrier wave Amount interval, it is all identical or all overlapping with the measurement interval where the measurement window on the first carrier.
Optionally, in another embodiment of the application, which includes measurement window, second survey Measuring information includes measurement interval;The then collision includes the survey where the measurement window on carrier wave for including at least two carrier wave Amount interval, with the measurement interval where the measurement window on the first carrier, part is identical or part is overlapping.
Optionally, in another embodiment of the application, the measurement window which includes includes surveying At least one of window initial position is measured, in measurement window duration and measurement window period;The measurement that second metrical information includes Interval includes measuring interval initial position, measures interval duration and measures at least one in gap periods.
Optionally, in another embodiment of the application, which is specifically used for: the terminal device is according to this The measurement window period, the measurement gap periods and first parameter on first carrier determine first measurement demand.
Optionally, in another embodiment of the application, which is specifically used for: determining according to the following formula It should
First measurement demand, S=N × A
Wherein, S is the value of the measurement index of first measurement demand, and N is constant, and A is first parameter.
Optionally, in another embodiment of the application, N is the constant for indicating the time.
Optionally, in another embodiment of the application, which is used for, to the network equipment send this first Parameter.
It should be noted that in the embodiment of the present application, processor 610 can be by storing by processing modules implement, memory 620 Module realizes that transceiver 630 can be realized that as shown in figure 12, terminal device 700 may include processing module by transceiver module 710, memory module 720 and transceiver module 730.
Terminal device 700 shown in terminal device 600 or Figure 12 shown in Figure 11 can be realized in earlier figures 7 and Fig. 8, just The step of terminal device executes in method 300, similar description can be with reference to the descriptions in aforementioned corresponding method.To avoid weight Multiple, which is not described herein again.
The embodiment of the present application also provides a kind of communication device, which can execute any one above-mentioned method The method that carrier wave measures in claim.Communication device provided by the embodiments of the present application can need to survey according to the communication device The relevant each measurement configuration information of each carrier wave of amount defines the measurement index on the carrier wave.Consider different carrier waves itself The fairness and competitiveness of measuring machine meeting.On the basis of measuring equality of opportunity on fully considering each carrier wave, it can also reduce The measurement of communication device is delayed.Meanwhile avoiding and generating excessively high requirement to communication device measurement capability, reduce communication device Cost.It ensure that communication device can be communicated normally.Improve user experience.
The embodiment of the present application also provides a kind of computer-readable mediums, for storing computer program code, the calculating Machine program includes the instruction for executing the method that the carrier wave of the embodiment of the present application in the above method 200 and method 300 measures.It should Readable medium can be read-only memory (read-only memory, ROM) or random access memory (random access Memory, RAM), the embodiment of the present application is without limitation.
Present invention also provides a kind of computer program product, the computer program product includes instruction, when the finger Order is performed, so that the terminal device executes the operation for corresponding to the terminal device of the above method.
The embodiment of the present application also provides a kind of communication system, which includes above-mentioned provided by the embodiments of the present application Communication device, the method which can complete carrier wave measurement provided by the embodiments of the present application.
The embodiment of the present application also provides a kind of System on Chip/SoC, which includes: processing unit and communication unit, is somebody's turn to do Processing unit, such as can be processor, which for example can be input/output interface, pin or circuit etc..At this Managing unit can be performed computer instruction, so that the chip execution in the communication device is above-mentioned provided by the embodiments of the present application any The method of carrier wave measurement.
Optionally, which is stored in storage unit.
Optionally, which is the storage unit in the chip, such as register, caching, the storage unit may be used also To be the storage unit positioned at the chip exterior in the terminal, such as ROM or the other types of static information and instruction can be stored Static storage device, RAM etc..Wherein, the processor that any of the above-described place mentions, can be a CPU, microprocessor, ASIC, Or the integrated circuit that one or more programs for controlling the method for above-mentioned carrier wave measurement execute.
It should be understood that the terms "and/or" and " at least one of A or B ", only a kind of description affiliated partner Incidence relation, indicate may exist three kinds of relationships, for example, A and/or B, can indicate: individualism A exists simultaneously A and B, These three situations of individualism B.In addition, character "/" herein, typicallys represent the relationship that forward-backward correlation object is a kind of "or".
Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed Scope of the present application.
It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.
In several embodiments provided herein, it should be understood that disclosed systems, devices and methods, it can be with It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of device or unit It closes or communicates to connect, can be electrical property, mechanical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.
It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.
It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product It is stored in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially in other words The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a People's computer, server or network equipment etc.) execute each embodiment the method for the application all or part of the steps. And storage medium above-mentioned includes: that USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, ROM), arbitrary access are deposited The various media that can store program code such as reservoir (Random Access Memory, RAM), magnetic or disk.
The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any Those familiar with the art within the technical scope of the present application, can easily think of the change or the replacement, and should all contain Lid is within the scope of protection of this application.Therefore, the protection scope of the application should be based on the protection scope of the described claims.

Claims (32)

1. a kind of method of carrier wave measurement characterized by comprising
Terminal device is determined according to the first measurement configuration information, the second measurement configuration information and the first parameter of first carrier The first measurement demand on the first carrier, second measurement configuration information include applied to the survey at least two carrier waves Configuration information is measured, at least two carrier wave includes the first carrier;
Wherein, first parameter is according to the first measurement configuration information and second measurement configuration information of the first carrier Determining or described first parameter is determined according to effective detected carrier number of the terminal device;
The terminal device measures on the first carrier according to first measurement demand.
2. a kind of method of carrier wave measurement characterized by comprising
Terminal device determines the first measurement demand on first carrier, first parameter is according to according to the first parameter First measurement configuration information of first carrier and the determination of the second measurement configuration information or first parameter are according to the terminal Effective detected carrier number of equipment determines;
Wherein, second measurement configuration information is applied to the measurement configuration information at least two carrier waves described at least two A carrier wave includes the first carrier,
The terminal device measures on the first carrier according to first measurement demand.
3. method according to claim 1 or 2, which is characterized in that first parameter is carried according to described at least two In wave, the first of each carrier wave surveys what configuration information and second measurement configuration information determined.
4. according to the method in any one of claims 1 to 3, which is characterized in that first parameter is that basis is described extremely In few two carrier waves, what the total number subcarriers for having collision with the first measurement configuration information of the first carrier determined.
5. described according to the method described in claim 4, it is characterized in that, first measurement configuration information includes measurement window Second metrical information includes measurement interval;
Then the collision include: measurement interval where measurement window on the carrier wave for including at least two carrier wave with it is described It is identical that the measurement where measurement window on first carrier is spaced at least one.
6. described according to the method described in claim 4, it is characterized in that, first measurement configuration information includes measurement window Second metrical information includes measurement interval;
Then it is described collision include: the first carrier at least one measurement window and at least two carrier wave in include carrier wave On at least one measurement window the same measurement interval in.
7. described according to the method described in claim 4, it is characterized in that, first measurement configuration information includes measurement window Second metrical information includes measurement interval;
Then the collision includes the measurement interval where the measurement window on carrier wave for including at least two carrier wave, with institute The measurement interval where the measurement window on first carrier is stated, it is all identical or all overlapping.
8. described according to the method described in claim 4, it is characterized in that, first measurement configuration information includes measurement window Second metrical information includes measurement interval;
Then the collision includes the measurement interval where the measurement window on carrier wave for including at least two carrier wave, with institute The measurement interval where the measurement window on first carrier is stated, part is identical or part is overlapping.
9. method according to any one of claim 1 to 8, which is characterized in that first measurement configuration information includes Measurement window include measurement window initial position, in measurement window duration and measurement window period at least one of;
The measurement interval that second metrical information includes includes measurement interval initial position, measures interval duration and measurement At least one of in gap periods.
10. according to the method described in claim 9, it is characterized in that, the terminal device is according to the first of first carrier the measurement Configuration information, the second measurement configuration information and the first parameter determine the first measurement demand on the first carrier, comprising:
The terminal device is according to the measurement window period on the first carrier, the measurement gap periods and described One parameter determines first measurement demand.
11. according to the method described in claim 10, it is characterized in that, the terminal device is according to the institute on the first carrier It states measurement window period, the measurement gap periods and first parameter and determines first measurement demand, comprising:
First measurement demand is determined according to the following formula,
S=R × Max (T1, T2) × A
Wherein, S is the value of the measurement index of first measurement demand, and R is constant, and T1 is the measurement window period, and T2 is institute Measurement gap periods are stated, the value of Max (T1, T2) is biggish value in T1 and T2, and A is first parameter.
12. according to the method described in claim 9, it is characterized in that, the terminal device determines the institute on the first carrier State the first measurement demand, comprising:
First measurement demand is determined according to the following formula,
S=N × A
Wherein, S is the value of the measurement index of first measurement demand, and N is constant, and A is first parameter.
13. according to the method for claim 12, which is characterized in that N is the constant for indicating the time.
14. method according to any one of claim 1 to 13, which is characterized in that the first measurement of the first carrier Configuration information is the first measurement configuration information of synchronization signal block SSB on the first carrier.
15. according to claim 1 to method described in any one of 14, which is characterized in that the method also includes:
The terminal device sends first parameter to the network equipment.
16. a kind of terminal device, which is characterized in that including processor, transceiver and memory, the memory refers to for storing It enables, the processor is used to execute the instruction of the memory storage, receives or sends signal to control the transceiver;
The processor, for according to the first measurement configuration information of first carrier, the second measurement configuration information and the first ginseng Number, determines the first measurement demand on the first carrier, and second measurement configuration information includes being applied at least two to carry Measurement configuration information on wave, at least two carrier wave include the first carrier;
Wherein, first parameter is according to the first measurement configuration information for being first carrier described in the processor and described second Measurement configuration information determination or first parameter are determined according to effective detected carrier number of the terminal device;
The processor is also used to be measured on the first carrier according to first measurement demand.
17. a kind of terminal device, which is characterized in that including processor, transceiver and memory, the memory refers to for storing It enables, the processor is used to execute the instruction of the memory storage, receives or sends signal to control the transceiver;
The processor, for determining the first measurement demand on first carrier, first parameter is institute according to the first parameter Processor is stated according to the first measurement configuration information of the first carrier and the second measurement configuration information determination or described first Parameter is determined according to effective detected carrier number of the terminal device;
Wherein, second measurement configuration information is applied to the measurement configuration information at least two carrier waves described at least two A carrier wave includes the first carrier,
The processor, is also used to: according to first measurement demand, measuring on the first carrier.
18. terminal device according to claim 16 or 17, which is characterized in that first parameter is the processor root According at least two carrier wave, the first of each carrier wave surveys configuration information and second measurement configuration information determines.
19. terminal device described in any one of 6 to 18 according to claim 1, which is characterized in that first parameter is described Processor has the total number subcarriers of collision with the first measurement configuration information of the first carrier according at least two carrier wave Determining.
20. terminal device according to claim 19, which is characterized in that first measurement configuration information includes measurement Window, second metrical information include measurement interval;
Then the collision include: measurement interval where measurement window on the carrier wave for including at least two carrier wave with it is described It is identical that measurement on first carrier where measurement window is spaced at least one.
21. terminal device according to claim 19, which is characterized in that first measurement configuration information includes measurement Window, second metrical information include measurement interval;
Then it is described collision include: the first carrier at least one measurement window and at least two carrier wave in include carrier wave On at least one measurement window the same measurement interval in.
22. terminal device according to claim 19, which is characterized in that first measurement configuration information includes measurement Window, second metrical information include measurement interval;
Then the collision includes the measurement interval where the measurement window on carrier wave for including at least two carrier wave, with institute The measurement interval where the measurement window on first carrier is stated, it is all identical or all overlapping.
23. terminal device according to claim 19, which is characterized in that first measurement configuration information includes measurement Window, second metrical information include measurement interval;
Then the collision includes the measurement interval where the measurement window on carrier wave for including at least two carrier wave, with institute The measurement interval where the measurement window on first carrier is stated, part is identical or part is overlapping.
24. terminal device described in any one of 6 to 23 according to claim 1, which is characterized in that the first measuring configuration letter At least one of the measurement window that breath includes includes measurement window initial position, in measurement window duration and measurement window period;
The measurement interval that second metrical information includes includes measurement interval initial position, measures interval duration and measurement At least one of in gap periods.
25. terminal device according to claim 24, which is characterized in that the processor is specifically used for: the terminal is set Described in the standby measurement window period according on the first carrier, the measurement gap periods and first parameter determine First measurement demand.
26. terminal device according to claim 25, which is characterized in that the processor is specifically used for:
First measurement demand is determined according to the following formula,
S=R × Max (T1, T2) × A
Wherein, S is the value of the measurement index of first measurement demand, and R is constant, and T1 is the measurement window period, and T2 is institute Measurement gap periods are stated, the value of Max (T1, T2) is biggish value in T1 and T2, and A is first parameter.
27. terminal device according to claim 25, which is characterized in that the processor is specifically used for: according to following public affairs Formula determines first measurement demand,
S=N × A
Wherein, S is the value of the measurement index of first measurement demand, and N is constant, and A is first parameter.
28. terminal device according to claim 27, which is characterized in that N is the constant for indicating the time.
29. terminal device described in any one of 6 to 28 according to claim 1, which is characterized in that the first of the first carrier Measurement configuration information is the first measurement configuration information of synchronization signal block SSB on the first carrier.
30. terminal device described in any one of 6 to 29 according to claim 1, which is characterized in that the transceiver is used for, to The network equipment sends first parameter.
31. a kind of computer readable storage medium, for storing computer program, which is characterized in that the computer program is used In the instruction for executing the method measured according to claim 1 to carrier wave described in any one of 15.
32. a kind of System on Chip/SoC, including processing unit and communication unit, which can be performed computer instruction, so that should System on Chip/SoC executes the method measured according to claim 1 to carrier wave described in any one of 15.
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