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CN109691175B - Method and apparatus for measuring synchronization signal block - Google Patents

Method and apparatus for measuring synchronization signal block Download PDF

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Publication number
CN109691175B
CN109691175B CN201780050355.3A CN201780050355A CN109691175B CN 109691175 B CN109691175 B CN 109691175B CN 201780050355 A CN201780050355 A CN 201780050355A CN 109691175 B CN109691175 B CN 109691175B
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synchronization signal
signal block
trigger condition
measurement result
cell
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CN109691175A (en
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刘建华
张治�
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Abstract

The application provides a method and equipment for measuring a synchronous signal block, wherein the method comprises the following steps: the method comprises the steps that the terminal equipment measures at least one synchronous signal block in a plurality of synchronous signal blocks transmitted in a first cell to obtain a first measuring result, wherein the first cell is a service cell of the terminal equipment; and the terminal equipment executes the operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, wherein the target trigger condition is one of a plurality of trigger conditions, and the operation corresponding to each trigger condition is different. The method for measuring the synchronous signal blocks can meet the measurement requirement of a communication system, in which the network equipment sends a plurality of synchronous signal blocks to the terminal equipment in one broadband member carrier, on the synchronous signal blocks.

Description

Method and apparatus for measuring synchronization signal block
Technical Field
The embodiments of the present application relate to the field of communications, and more particularly, to a method and apparatus for measuring a synchronization signal.
Background
Long Term Evolution (LTE) systems support single Carrier operation and Carrier Aggregation (CA) operation. For single carrier operation, only one Primary Synchronization Signal (PSS) and one Secondary Synchronization Signal (SSS) exist in the system bandwidth as viewed from the frequency domain. For carrier aggregation operation, the maximum bandwidth of the component carrier of the LTE system is 20MHz, and only one PSS/SSS channel exists in each component carrier in the frequency domain. In particular, 6 Physical Resource Blocks (PRBs) occupied by PSS/SSS of the LTE system are located at the center of the system bandwidth.
Currently, a third Generation Partnership Project (3 GPP) has agreed that a network device sends a terminal a SS Burst Set (Burst Set) including a plurality of SS blocks (blocks), each of which includes a PSS, a SSs, and a Physical Broadcast Channel (PBCH). And the frequency position of the SS block in the system bandwidth is not limited to the central frequency point position of the system bandwidth. The terminal searches SSblock in the system bandwidth to obtain time-frequency synchronization, obtains PBCH information and carries out Radio Resource Management (RRM) measurement.
For a New Radio (NR) system, a wideband component carrier with a large bandwidth, such as a wideband component carrier with a bandwidth of 400MHz or even 1GHz, may be supported. Terminal devices with various working bandwidths can be distributed in the same broadband member carrier, for example, if the system bandwidth is 400MHz, terminal devices with 400MHz bandwidths can be distributed, and terminal devices with 100MHz, 40MHz, and 10MHz bandwidths can also be distributed. A terminal device with a smaller operating bandwidth may not have an SS block within its operating bandwidth if there is only one SS blcok location within the wideband component carrier. And for a wideband component carrier with very large bandwidth, the propagation characteristics of different frequency locations may have large differences. This requires the network device in the NR system to transmit multiple blocks of synchronization signals to the terminal device within the wideband component carrier.
Therefore, it is desirable to provide a method for measuring a synchronization signal block, which satisfies the requirement of a communication system in which a network device sends a plurality of synchronization signal blocks to a terminal device within one wideband component carrier for measuring the synchronization signal block.
Disclosure of Invention
The application provides a method and equipment for measuring a synchronous signal block, which can meet the measurement requirement of a communication system, in which network equipment sends a plurality of synchronous signal blocks to terminal equipment in a broadband member carrier, on the synchronous signal block.
In a first aspect, a method for measuring a synchronization signal block is provided, including: the method comprises the steps that the terminal equipment measures at least one synchronous signal block in a plurality of synchronous signal blocks transmitted in a first cell to obtain a first measuring result, wherein the first cell is a service cell of the terminal equipment; and the terminal equipment executes the operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, wherein the target trigger condition is one of a plurality of trigger conditions, and the operation corresponding to each trigger condition is different.
According to the method for measuring the synchronization signal blocks, the terminal device executes the operation corresponding to the target trigger condition according to the measurement result of at least one synchronization signal block in the plurality of synchronization signal blocks transmitted in the serving cell and the target trigger condition, and the measurement requirement of the communication system, in which the network device sends the plurality of synchronization signal blocks to the terminal device in one broadband component carrier, on the synchronization signal blocks can be met. And by setting a proper trigger condition, the measurement of the terminal equipment to the adjacent cells is reduced, the switching among the cells is reduced, and the performance of the communication system is improved.
With reference to the first aspect, in an implementation manner of the first aspect, the measuring at least one synchronization signal block of a plurality of synchronization signal blocks transmitted in a first cell includes: and measuring a first target synchronous signal block in the plurality of synchronous signal blocks, wherein the first target synchronous signal block is a synchronous signal block used when the terminal equipment carries out time-frequency synchronization.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the method further includes: the terminal equipment receives first indication information sent by network equipment, wherein the first indication information is used for indicating a first target synchronous signal block in the plurality of synchronous signal blocks;
wherein the measuring at least one of the plurality of synchronization signal blocks transmitted in the first cell comprises: and measuring the first target synchronous signal block.
That is, the terminal device may measure a synchronization signal block configured by the network device to obtain a first measurement result, and execute an operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the target trigger condition is a first trigger condition;
wherein the executing, according to the first measurement result and a target trigger condition, an operation corresponding to the target trigger condition includes: if the terminal device determines that the first measurement result meets the first trigger condition, the terminal device measures at least one second target synchronization signal block in the plurality of synchronization signal blocks to obtain a second measurement result, or reports the second measurement result obtained by measuring the at least one second target synchronization signal block;
if the terminal device determines that the second measurement result meets a second trigger condition, the terminal device measures a synchronization signal block in a second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell, wherein the second cell is a neighboring cell of the first cell.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the method further includes: the terminal equipment determines a third measurement result according to the first measurement result and the second measurement result; and if the terminal equipment determines that the third measurement result meets a third trigger condition, the terminal equipment measures the synchronous signal blocks in the second cell or reports the measurement result obtained by measuring the synchronous signal blocks in the second cell.
That is, the terminal device may comprehensively consider the first measurement result and the second measurement result, determine the signal quality of the serving cell according to the first measurement result and the second measurement result, and trigger measurement of the synchronization signal block of the neighboring cell or report the measurement result obtained by measuring the synchronization signal block of the neighboring cell after determining that the signal quality of the serving cell is poor and reaches a certain trigger condition.
With reference to the first aspect and the foregoing other implementation manners of the first aspect, in another implementation manner of the first aspect, the target trigger condition is a fourth trigger condition;
wherein the executing, according to the first measurement result and a target trigger condition, an operation corresponding to the target trigger condition includes: if the terminal device determines that the first measurement result meets the fourth trigger condition, the terminal device measures at least one second synchronization signal block in the plurality of synchronization signal blocks and a synchronization signal block in a second cell; or, if the terminal device determines that the first measurement result meets the fourth trigger condition, the terminal device reports a measurement result obtained by measuring at least one second synchronization signal block of the plurality of synchronization signal blocks and a synchronization signal block of the second cell, where the second cell is a neighboring cell of the first cell.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the at least one second target synchronization signal is all synchronization signal blocks except the first target synchronization signal block in the plurality of synchronization signal blocks.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the method further includes: and the terminal equipment receives second indication information sent by the network equipment, wherein the second indication information is used for indicating the at least one second target synchronization signal block.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the method further includes: and the terminal equipment determines the synchronous signal block of which the corresponding frequency domain position is within the working bandwidth of the terminal equipment as the at least one second target synchronous signal block.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the target trigger condition is a fifth trigger condition;
wherein, the executing the operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition comprises: if the terminal device determines that the first measurement result meets the fifth trigger condition, the terminal device measures a synchronization signal block in a second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell.
Therefore, by setting a proper fifth trigger condition, the measurement of the adjacent cells is reduced, the switching among the cells is reduced, and the system performance is improved.
With reference to the first aspect and the foregoing implementation manner of the first aspect, in another implementation manner of the first aspect, the at least one synchronization signal block is a synchronization signal block used when the terminal device performs time-frequency synchronization; or, the at least one synchronization signal block is all of the plurality of synchronization signal blocks; or, the at least one synchronization signal block is a synchronization signal block determined by the terminal device according to third indication information sent by the network device; or, the at least one synchronization signal block is a synchronization signal block of which the corresponding frequency domain position is within the operating bandwidth of the terminal device.
In a second aspect, a terminal device is provided, configured to perform the method of the first aspect or any possible implementation manner of the first aspect. In particular, the terminal device comprises functional modules for performing the method of the first aspect or any possible implementation manner of the first aspect.
In a third aspect, a terminal device is provided that includes a processor, a memory, and a transceiver. The processor, the memory and the transceiver communicate with each other via an internal connection path to transmit control and/or data signals, so that the terminal device performs the method of the first aspect or any possible implementation manner of the first aspect.
In a fourth aspect, a computer-readable medium is provided for storing a computer program comprising instructions for performing the first aspect or any possible implementation manner of the first aspect.
In a fifth aspect, there is provided a computer program product comprising instructions which, when executed by a computer, cause the computer to perform the method of measuring a synchronization signal block of the first aspect or any possible implementation manner of the first aspect. In particular, the computer program product may be run on the terminal device of the second or third aspect described above.
Drawings
Fig. 1 is a schematic flow chart of a method of measuring a synchronization signal block according to an embodiment of the present application.
Fig. 2 is a diagram illustrating transmission of multiple synchronization signal blocks in a cell according to an embodiment of the present application.
Fig. 3 is a schematic block diagram of a terminal device according to an embodiment of the present application.
Fig. 4 is a schematic block diagram of a terminal device according to another embodiment of the present application.
Detailed Description
The technical solutions in the embodiments of the present application will be clear and fully described below with reference to the accompanying drawings in the embodiments of the present application.
It should be understood that the technical solutions of the embodiments of the present application may be applied to various communication systems, for example: a Global System for Mobile communications (GSM) System, a Code Division Multiple Access (CDMA) System, a Wideband Code Division Multiple Access (WCDMA) System, a General Packet Radio Service (GPRS), a Long Term Evolution (Long Term Evolution, LTE) System, an LTE Frequency Division Duplex (FDD) System, an LTE Time Division Duplex (TDD), a Universal Mobile Telecommunications System (UMTS) or a Worldwide Interoperability for Microwave Access (WiMAX) communication System, a 5G System, or a New Radio (NR) System.
In the embodiment of the present application, the Terminal device may include, but is not limited to, a Mobile Station (MS), a Mobile Terminal (Mobile Terminal), a Mobile phone (Mobile Telephone), a User Equipment (UE), a handset (handset), a portable device (portable Equipment), a vehicle (vehicle), and the like, and the Terminal device may communicate with one or more core networks through a Radio Access Network (RAN), for example, the Terminal device may be a Mobile phone (or referred to as a "cellular" phone), a computer with a wireless communication function, and the Terminal device may also be a portable, pocket, handheld, computer-embedded, or vehicle-mounted Mobile apparatus.
The network device according to the embodiment of the present application is a device deployed in a radio access network to provide a wireless communication function for a terminal device. The network device may be a base station, and the base station may include various macro base stations, micro base stations, relay stations, access points, and the like. In systems employing different radio access technologies, the names of devices having a base station function may differ. For example, in an LTE network, referred to as an Evolved node B (eNB or eNodeB), in a third Generation (3rd Generation, 3G) network, referred to as a node B (node B), and so on.
In the embodiment of the present application, the terminal device measures a Synchronization Signal (SS) block (block), including but not limited to measuring Reference Signal Received Power (RSRP), and measuring Received Signal Strength indicator (Received Signal Strength Indication).
Fig. 1 illustrates a method of measuring a synchronization signal block according to an embodiment of the present application. As shown in fig. 1, the method 100 includes:
s110, a terminal device measures at least one synchronous signal block in a plurality of synchronous signal blocks transmitted in a first cell to obtain a first measurement result, wherein the first cell is a service cell of the terminal device;
and S120, the terminal device executes an operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, wherein the target trigger condition is one of a plurality of trigger conditions, and the operation corresponding to each trigger condition is different.
Optionally, in S110, the terminal device measures a synchronization signal block used in time-frequency synchronization to obtain a first measurement result. Under the condition, the terminal equipment only needs to measure the current SS block at first, so that higher implementation complexity caused by measuring a plurality of SS blocks is avoided.
Optionally, in S110, the at least one synchronization signal block measured by the terminal device is a first target synchronization signal block configured by the network device. For example, the terminal device receives first indication information sent by the network device, where the first indication information is used to indicate the first target synchronization signal block. And it is understood that this first target synchronization signal block indicated by the first indication information may be a synchronization signal block that the terminal device needs to use when performing time-frequency synchronization.
For example, as shown in fig. 2, the bandwidth of the wideband component carrier in the serving cell is 400MHz, and 4 SS blocks need to be transmitted in the wideband component carrier, namely, a synchronization signal block 1(SS block1), a synchronization signal block 2(SSblock2), a synchronization signal block 3(SS block3), and a synchronization signal block 4(SS block4), and the 4 SS blocks are uniformly distributed at a frequency interval of 100 MHz. If the terminal device detects SS block1, the terminal device uses SS block1 to perform time-frequency synchronization and measures SS block 1. Or the first indication information received by the terminal device indicates SS block2, the terminal device measures SS block 2.
Optionally, in S120, if the terminal device determines that the first measurement result meets the first trigger condition, the terminal device measures other SS blocks in the serving cell to obtain a second measurement result, or the terminal device reports the second measurement result obtained by measuring other SS blocks in the serving cell. And if the terminal equipment determines that the second measurement result meets the second trigger condition, the terminal equipment measures the synchronous signal blocks in the adjacent cell or reports the measurement result obtained by measuring the synchronous signal blocks in the adjacent cell. Or the terminal device determines a third measurement result according to the first measurement result and the second measurement result, and if the terminal device determines that the third measurement result meets a third trigger condition, the terminal device measures the synchronization signal blocks in the neighboring cell or reports the measurement result obtained by measuring the synchronization signal blocks in the neighboring cell.
Specifically, in some embodiments, if the terminal device does not measure other SS blocks in the serving cell before determining that the first measurement result satisfies the first trigger condition, the terminal device measures other SS blocks in the serving cell to obtain a second measurement result, and the terminal device may further select to report the second measurement result to the network device after the measurement. If the terminal device measures other SS blocks in the serving cell to obtain a second measurement result before determining that the first measurement result satisfies the first trigger condition, the terminal device directly reports the second measurement result to the network device when determining that the first measurement result satisfies the first trigger condition. Further, when the terminal device determines that the second measurement result satisfies the second trigger condition, or the terminal device determines that a third measurement result obtained from the first measurement result and the second measurement result satisfies the third trigger condition, the terminal device measures the synchronization signal block in the neighboring cell or reports the measurement result of the synchronization signal block in the neighboring cell.
Therefore, the terminal equipment comprehensively judges the signal quality of the serving cell according to the measurement results of the plurality of SS blocks in the serving cell, the judgment result is more reliable, the measurement of the adjacent cell, the report of the measurement result of the adjacent cell or the cell switching is prevented from being started in advance under the condition that the signal on the frequency domain resource of the cell is good, and the performance of the communication system is improved.
For example, the first trigger condition is an event X1 (the first measurement result is worse than a first preset threshold), when the sum of the first measurement result and the first configuration value is smaller than the first preset threshold, the terminal device considers that the first measurement result satisfies the event X1, and when the difference between the first measurement result and the first configuration value is larger than the first preset threshold, the terminal device considers that the first measurement result does not satisfy the event X1. Similarly, the second trigger condition is event X2 (the second measurement result is worse than the second preset threshold), when the sum of the second measurement result and the second configuration value is smaller than the second preset threshold, the terminal device considers that the second measurement result satisfies event X2, and when the difference between the second measurement result and the second configuration value is larger than the second preset threshold, the terminal device considers that the second measurement result does not satisfy event X2. Or, the third trigger condition is an event X3 (the third measurement result is worse than a third preset threshold), when the sum of the second measurement result and the second configuration value is smaller than the third preset threshold, the terminal device regards that the third measurement result satisfies the event X3, and when the difference between the third measurement result and the third configuration value is larger than the third preset threshold, the terminal device regards that the third measurement result does not satisfy the event X3. Also, the third measurement result may be an average value of the first measurement result and the second measurement result, or the third measurement result may be a maximum value, a minimum value, or an intermediate value among the first measurement result and the second measurement result.
Optionally, in S120, if the terminal device determines that the first measurement result satisfies the fourth trigger condition, the terminal device measures other synchronization signal blocks in the serving cell and synchronization signal blocks in the neighboring cell, or the terminal device reports, to the network device, a measurement result obtained by measuring other synchronization signal blocks in the serving cell and synchronization signal blocks in the neighboring cell.
For example, the network device and the terminal device may preset or protocol a parameter, or the network device may configure a parameter for the terminal device through signaling. The fourth trigger condition is that the first measurement is worse than this parameter. And if the first measurement result is better than the parameter, the terminal equipment considers that the first measurement result does not satisfy the fourth trigger condition, and if the first measurement result is worse than the parameter, the terminal equipment considers that the first measurement result satisfies the fourth trigger condition.
In all the above embodiments, optionally, the other synchronization signal blocks in the serving cell may be all the synchronization signal blocks except the first target synchronization signal block among the plurality of synchronization signal blocks transmitted in the serving cell. Taking the above 4 ssblocks as an example, if the first target synchronization signal block is SS block2, the other synchronization signal blocks in the serving cell are SSblock1, SS block3, and SS block 4.
Alternatively, the other synchronization signal blocks in the serving cell may be synchronization signal blocks in a network-specified set of synchronization signals. The network device sends second indication information to the terminal device, where the second indication information indicates other synchronization signal blocks in the serving cell, and for example, may specifically indicate the number of the synchronization signal block on the frequency domain, or specifically indicate the frequency domain resource carrying the synchronization signal block.
Or, the other synchronization signal blocks in the serving cell are synchronization signal blocks of which the corresponding frequency domain positions in the multiple synchronization signal blocks transmitted in the serving cell are within the operating bandwidth of the terminal device. Taking the above 4 SS blocks as an example, assuming that the operating bandwidth of the terminal device is 250MHz, the frequency domain locations carrying SS block1, SS block2, and SS block3 are within the operating bandwidth of the terminal device, and the first target synchronization signal block is SS block1, then the other synchronization signal blocks in the serving cell are SSblock2 and SS block 3. Alternatively, the operating bandwidth of the terminal device may be understood as the bandwidth that the network device configures the terminal device to be able to use, or the maximum bandwidth that the terminal device can support.
Optionally, in S120, if the terminal device determines that the first measurement result meets the fifth trigger condition, the terminal device measures the synchronization signal block in the neighboring cell or reports a measurement result obtained by measuring the synchronization signal block in the neighboring cell. In this case, the first measurement result is a measurement result obtained by measuring, by the terminal device, a synchronization signal block used when performing frequency domain synchronization; or the first measurement result is a measurement result obtained by measuring all the synchronous signal blocks in the plurality of synchronous signal blocks transmitted in the serving cell by the terminal equipment; or the first measurement result is a measurement result obtained by measuring a synchronization signal block specified by the network device by the terminal device, where the network device may send third indication information to the terminal device, and the third indication information indicates the synchronization signal block that the terminal device needs to measure; or the first measurement result is a measurement result obtained by the terminal device measuring all the synchronous signal blocks in the working bandwidth.
It should be noted that, the multiple trigger conditions in the embodiment of the present application may be specified by a protocol, may be agreed in advance by the network device and the terminal device, and may be notified to the terminal device by the network device through a signaling.
The method for measuring the synchronization signal block according to the embodiment of the present application is described in detail above with reference to fig. 1 and 2. A terminal device according to an embodiment of the present application will be described in detail below with reference to fig. 3. As shown in fig. 3, the terminal device 10 includes: a processing module 11 and a transceiver module 12;
the processing module 11 is configured to measure at least one synchronization signal block in a plurality of synchronization signal blocks transmitted in a first cell, to obtain a first measurement result, where the first cell is a serving cell of the terminal device;
the processing module 11 is configured to execute an operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, where the target trigger condition is one of multiple trigger conditions, and the operation corresponding to each trigger condition is different.
Therefore, the terminal device according to the embodiment of the application executes the operation corresponding to the target trigger condition according to the measurement result of at least one synchronization signal block in the plurality of synchronization signal blocks transmitted in the serving cell and the target trigger condition, and can meet the measurement requirement of the synchronization signal block for the communication system in which the network device transmits the plurality of synchronization signal blocks to the terminal device in one broadband component carrier. And by setting a proper trigger condition, the measurement of adjacent cells is reduced, the switching among the cells is reduced, and the performance of a communication system is improved.
In this embodiment of the application, optionally, the processing module 11 is specifically configured to: and measuring a first target synchronous signal block in the plurality of synchronous signal blocks, wherein the first target synchronous signal block is a synchronous signal block used when the terminal equipment carries out time-frequency synchronization.
In this embodiment of the present application, optionally, the transceiver module 12 is configured to: receiving first indication information sent by a network device, wherein the first indication information is used for indicating a first target synchronization signal block in the plurality of synchronization signal blocks;
the processing module 11 is specifically configured to: and measuring the first target synchronous signal block.
In this embodiment of the present application, optionally, the target trigger condition is a first trigger condition;
wherein, the processing module 11 is specifically configured to: if the first measurement result meets the first trigger condition, measuring at least one second target synchronization signal block in the plurality of synchronization signal blocks to obtain a second measurement result, or reporting the second measurement result obtained by measuring the at least one second target synchronization signal block;
and if the second measurement result meets a second trigger condition, measuring the synchronous signal block in a second cell, or reporting a measurement result obtained by measuring the synchronous signal block in the second cell, wherein the second cell is a neighboring cell of the first cell.
In this embodiment of the application, optionally, the processing module 11 is further configured to: determining a third measurement result according to the first measurement result and the second measurement result;
and if the third measurement result meets a third trigger condition, the terminal device measures the synchronization signal block in the second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell.
In this embodiment of the present application, optionally, the target trigger condition is a fourth trigger condition;
wherein, the processing module 11 is specifically configured to:
if the first measurement result is determined to meet the fourth trigger condition, measuring at least one second synchronization signal block in the plurality of synchronization signal blocks and a synchronization signal block in a second cell; or,
if it is determined that the first measurement result meets the fourth trigger condition, reporting a measurement result obtained by measuring at least one second synchronization signal block of the plurality of synchronization signal blocks and a synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell.
In this embodiment of the present application, optionally, the at least one second target synchronization signal is all synchronization signal blocks except the first target synchronization signal block in the plurality of synchronization signal blocks.
In this embodiment of the present application, optionally, the transceiver module 12 is further configured to: and receiving second indication information sent by the network equipment, wherein the second indication information is used for indicating the at least one second target synchronization signal block.
In this embodiment of the application, optionally, the processing module 11 is further configured to: and determining a synchronization signal block of the plurality of synchronization signal blocks, the corresponding frequency domain position of which is within the working bandwidth of the terminal device, as the at least one second target synchronization signal block.
In this embodiment of the present application, optionally, the target trigger condition is a fifth trigger condition;
wherein, the processing module 11 is specifically configured to: if it is determined that the first measurement result meets the fifth trigger condition, the terminal device measures a synchronization signal block in a second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell.
In this embodiment of the present application, optionally, the at least one synchronization signal block is a synchronization signal block used when the terminal device performs time-frequency synchronization; or, the at least one synchronization signal block is all of the plurality of synchronization signal blocks; or, the at least one synchronization signal block is a synchronization signal block determined by the processing module according to third indication information sent by the network device; or, the at least one synchronization signal block is a synchronization signal block of which the corresponding frequency domain position is within the operating bandwidth of the terminal device.
The terminal device according to the embodiment of the present application may refer to the flow corresponding to the method 100 of the embodiment of the present application, and each unit/module and the other operations and/or functions in the terminal device are respectively for implementing the corresponding flow in the method 100, and for brevity, no further description is repeated here
Fig. 4 shows a terminal device according to another embodiment of the present application. As shown in fig. 4, the terminal device 100 includes a processor 110 and a transceiver 120, the processor 110 is connected to the transceiver 120, and optionally, the terminal device 100 further includes a memory 130, and the memory 130 is connected to the processor 110. Wherein the processor 110, the memory 130, and the transceiver 120 may communicate with each other through internal connection paths. The processor 110 is configured to measure at least one synchronization signal block in a plurality of synchronization signal blocks transmitted in a first cell, to obtain a first measurement result, where the first cell is a serving cell of the terminal device; the processor 110 is further configured to execute an operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, where the target trigger condition is one of multiple trigger conditions, and the operation corresponding to each trigger condition is different.
Therefore, the terminal device according to the embodiment of the application executes the operation corresponding to the target trigger condition according to the measurement result of at least one synchronization signal block in the plurality of synchronization signal blocks transmitted in the serving cell and the target trigger condition, and can meet the measurement requirement of the synchronization signal block for the communication system in which the network device transmits the plurality of synchronization signal blocks to the terminal device in one broadband component carrier. And by setting a proper trigger condition, the measurement of adjacent cells is reduced, the switching among the cells is reduced, and the performance of a communication system is improved.
The terminal device 100 according to the embodiment of the present application may refer to the terminal device 10 corresponding to the embodiment of the present application, and each unit/module and the other operations and/or functions in the terminal device are respectively for implementing a corresponding flow in the method 100, and for brevity, no further description is provided here.
It should be understood that the processor of the embodiments of the present application may be an integrated circuit chip having signal processing capabilities. In implementation, the steps of the above method embodiments may be performed by integrated logic circuits of hardware in a processor or instructions in the form of software. The processor may be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, discrete hardware component. The various methods, steps and logic blocks disclosed in the embodiments of the present invention may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of the method disclosed in connection with the embodiments of the present invention may be directly implemented by a hardware decoding processor, or implemented by a combination of hardware and software modules in the decoding processor. The software module may be located in ram, flash memory, rom, prom, or eprom, registers, etc. storage media as is well known in the art. The storage medium is located in a memory, and a processor reads information in the memory and completes the steps of the method in combination with hardware of the processor.
It will be appreciated that the memory in embodiments of the invention may be either volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory. The non-volatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (EEPROM), or a flash Memory. Volatile Memory can be Random Access Memory (RAM), which acts as external cache Memory. By way of example, but not limitation, many forms of RAM are available, such as Static random access memory (Static RAM, SRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic random access memory (Synchronous DRAM, SDRAM), Double Data rate Synchronous Dynamic random access memory (DDR SDRAM), Enhanced Synchronous SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), and direct memory bus RAM (DR RAM). It should be noted that the memory of the systems and methods described herein is intended to comprise, without being limited to, these and any other suitable types of memory.
The embodiment of the present application further provides a computer program product including instructions, and when a computer runs the instructions of the computer program product, the computer executes the method for measuring a synchronization signal block of the above method embodiment. In particular, the computer program product may be run on the terminal device described above.
Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.
It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.
In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.
The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (18)

1. A method of measuring a synchronization signal block, comprising:
the method comprises the steps that the terminal equipment measures at least one synchronous signal block in a plurality of synchronous signal blocks transmitted in a first cell to obtain a first measuring result, wherein the first cell is a service cell of the terminal equipment;
the terminal equipment executes operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, wherein the target trigger condition is one of a plurality of trigger conditions, and the operation corresponding to each trigger condition is different;
wherein,
the target trigger condition is a first trigger condition, and the first trigger condition is that the first measurement result is smaller than a first preset threshold value;
the executing operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition comprises:
if the terminal device determines that the first measurement result meets the first trigger condition, the terminal device measures at least one second target synchronization signal block in the plurality of synchronization signal blocks to obtain a second measurement result, or reports the second measurement result obtained by measuring the at least one second target synchronization signal block;
or,
the target trigger condition is a fourth trigger condition, and the fourth trigger condition is that the first measurement result is smaller than a preset parameter;
the executing operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition comprises:
if the terminal device determines that the first measurement result meets the fourth trigger condition, the terminal device measures at least one second synchronization signal block in the plurality of synchronization signal blocks and a synchronization signal block in a second cell; or, if the terminal device determines that the first measurement result meets the fourth trigger condition, the terminal device reports a measurement result obtained by measuring at least one second synchronization signal block of the plurality of synchronization signal blocks and a synchronization signal block of the second cell, where the second cell is a neighboring cell of the first cell;
or,
the target trigger condition is a fifth trigger condition;
the executing operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition comprises:
if the terminal device determines that the first measurement result meets the fifth trigger condition, the terminal device measures a synchronization signal block in a second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell.
2. The method of claim 1, wherein measuring at least one of the plurality of synchronization signal blocks transmitted in the first cell comprises:
and measuring a first target synchronous signal block in the plurality of synchronous signal blocks, wherein the first target synchronous signal block is a synchronous signal block used when the terminal equipment carries out time-frequency synchronization.
3. The method of claim 1, further comprising:
the terminal equipment receives first indication information sent by network equipment, wherein the first indication information is used for indicating a first target synchronous signal block in the plurality of synchronous signal blocks;
wherein the measuring at least one of the plurality of synchronization signal blocks transmitted in the first cell comprises:
and measuring the first target synchronous signal block.
4. The method of claim 2 or 3, wherein when the target trigger condition is a first trigger condition,
if the terminal device determines that the second measurement result meets a second trigger condition, where the second trigger condition is that the second measurement result is smaller than a second preset threshold, the terminal device measures a synchronization signal block in a second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell.
5. The method of claim 4, further comprising:
the terminal equipment determines a third measurement result according to the first measurement result and the second measurement result;
if the terminal device determines that the third measurement result meets a third trigger condition, where the third trigger condition is that the third measurement result is smaller than a third preset threshold, the terminal device measures the synchronization signal block in the second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell.
6. The method of claim 4, wherein the at least one second target synchronization signal is all synchronization signal blocks of the plurality of synchronization signal blocks except the first target synchronization signal block.
7. The method of claim 4, further comprising:
and the terminal equipment receives second indication information sent by the network equipment, wherein the second indication information is used for indicating the at least one second target synchronization signal block.
8. The method of claim 4, further comprising:
and the terminal equipment determines the synchronous signal block of which the corresponding frequency domain position is within the working bandwidth of the terminal equipment as the at least one second target synchronous signal block.
9. The method according to claim 1, wherein the at least one synchronization signal block is a synchronization signal block used when the terminal device performs time-frequency synchronization; or,
the at least one synchronization signal block is all of the plurality of synchronization signal blocks; or,
the at least one synchronous signal block is a synchronous signal block determined by the terminal equipment according to third indication information sent by the network equipment; or,
the at least one synchronization signal block is a synchronization signal block of which the corresponding frequency domain position is within the working bandwidth of the terminal device.
10. A terminal device, comprising: the device comprises a processing module and a transmitting-receiving module;
the processing module is configured to measure at least one synchronization signal block in a plurality of synchronization signal blocks transmitted in a first cell to obtain a first measurement result, where the first cell is a serving cell of the terminal device;
the processing module is further configured to execute an operation corresponding to the target trigger condition according to the first measurement result and the target trigger condition, where the target trigger condition is one of multiple trigger conditions, and the operation corresponding to each trigger condition is different;
wherein,
the target trigger condition is a first trigger condition, and the first trigger condition is that the first measurement result is smaller than a first preset threshold value;
the processing module is specifically configured to:
if the first measurement result meets the first trigger condition, measuring at least one second target synchronization signal block in the plurality of synchronization signal blocks to obtain a second measurement result, or reporting the second measurement result obtained by measuring the at least one second target synchronization signal block;
or,
the target trigger condition is a fourth trigger condition, and the fourth trigger condition is that the first measurement result is smaller than a preset parameter;
the processing module is specifically configured to:
if the first measurement result is determined to meet the fourth trigger condition, measuring at least one second synchronization signal block in the plurality of synchronization signal blocks and a synchronization signal block in a second cell; or, if it is determined that the first measurement result meets the fourth trigger condition, reporting a measurement result obtained by measuring at least one second synchronization signal block of the plurality of synchronization signal blocks and a synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell;
or,
the target trigger condition is a fifth trigger condition;
the processing module is specifically configured to:
if it is determined that the first measurement result meets the fifth trigger condition, the terminal device measures a synchronization signal block in a second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell, where the second cell is a neighboring cell of the first cell.
11. The terminal device of claim 10, wherein the processing module is specifically configured to:
and measuring a first target synchronous signal block in the plurality of synchronous signal blocks, wherein the first target synchronous signal block is a synchronous signal block used when the terminal equipment carries out time-frequency synchronization.
12. The terminal device of claim 10, wherein the transceiver module is configured to:
receiving first indication information sent by a network device, wherein the first indication information is used for indicating a first target synchronization signal block in the plurality of synchronization signal blocks;
the processing module is specifically configured to: and measuring the first target synchronous signal block.
13. The terminal device according to claim 11 or 12, wherein when the target trigger condition is a first trigger condition,
and if the second measurement result is determined to meet a second trigger condition, wherein the second trigger condition is that the second measurement result is smaller than a second preset threshold value, measuring a synchronization signal block in a second cell, or reporting a measurement result obtained by measuring the synchronization signal block in the second cell, wherein the second cell is a neighboring cell of the first cell.
14. The terminal device of claim 13, wherein the processing module is further configured to:
determining a third measurement result according to the first measurement result and the second measurement result;
if it is determined that the third measurement result meets a third trigger condition, where the third trigger condition is that the third measurement result is smaller than a third preset threshold, the terminal device measures the synchronization signal block in the second cell, or reports a measurement result obtained by measuring the synchronization signal block in the second cell.
15. The terminal device of claim 13, wherein the at least one second target synchronization signal is all synchronization signal blocks of the plurality of synchronization signal blocks except the first target synchronization signal block.
16. The terminal device of claim 13, wherein the transceiver module is further configured to:
and receiving second indication information sent by the network equipment, wherein the second indication information is used for indicating the at least one second target synchronization signal block.
17. The terminal device of claim 13, wherein the processing module is further configured to:
and determining a synchronization signal block of the plurality of synchronization signal blocks, the corresponding frequency domain position of which is within the working bandwidth of the terminal device, as the at least one second target synchronization signal block.
18. The terminal device according to claim 10, wherein the at least one synchronization signal block is a synchronization signal block used when the terminal device performs time-frequency synchronization; or,
the at least one synchronization signal block is all of the plurality of synchronization signal blocks; or,
the at least one synchronous signal block is a synchronous signal block determined by the processing module according to third indication information sent by the network equipment; or,
the at least one synchronization signal block is a synchronization signal block of which the corresponding frequency domain position is within the working bandwidth of the terminal device.
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