CN109691164A - Method, terminal device and the network equipment of wireless resource management measurement - Google Patents

Abstract

The embodiment of the present invention provides method, terminal device and the network equipment of a kind of wireless resource management measurement, this method comprises: terminal device receives the configuration information for the measurement gap GAP for first object measurement frequency point that the network equipment is sent, the configuration information of measurement GAP is for determining the length of measurement GAP；Terminal device determines the length of measurement GAP according to the configuration information of measurement GAP；Terminal device carries out wireless resource management RRM measurement at least one cell in first object measurement frequency point in measurement GAP according to the length of measurement GAP.In embodiments of the present invention, terminal device measures the configuration information of GAP by receiving, can according to actual needs, and the flexible length for determining measurement GAP helps to reduce measuring the influence that GAP transmits data.

Description

Method, terminal device and the network equipment of wireless resource management measurement Technical field

This application involves the communications fields, and more particularly, to method, terminal device and the network equipment of a kind of measurement of wireless resource management.

Background technique

In Long Term Evolution (Long Term Evolution, LTE in), terminal device in connected state is when sending and receiving data information, it may need to carry out the switching of the cell between alien frequencies or different system, when carrying out the cell switching between alien frequencies or different system, terminal device can the channel quality whithin a period of time to alien frequencies or different system cell measure, during this period of time, terminal device stops sending and receiving data information in current area, in the prior art, it is determined as to measure gap GAP this period for carrying out the channel quality measurement of alien frequencies or different system cell, and measurement GAP general provision is 6ms.

6ms as defined in measurement GAP is the reference signal in order to guarantee to have a full complete cycle in measurement GAP, terminal device can measure the reference signal, the period of the reference signal is 5ms, however, the transmission duration of actual transmissions reference signal is less than 5ms under normal circumstances in measurement GAP, at this point, if also setting 6ms for measurement GAP, the time that will lead to alien frequencies or different system cell channel quality measurement is longer, influences data transmission of the terminal device in current area.

Summary of the invention

The embodiment of the present invention provides method, terminal device and the network equipment of a kind of wireless resource management measurement, the configuration information for measuring GAP that terminal device is sent by receiving the network equipment, it can determine the length of measurement GAP, facilitate terminal device according to actual needs, the length for flexibly determining measurement GAP reduces the influence that measurement GAP transmits data.

First aspect, a kind of method of radio resource measurement is provided, this method comprises: terminal device receives the configuration information for the measurement gap GAP for first object measurement frequency point that the network equipment is sent, the configuration information of the measurement GAP is for determining the length of measurement GAP；The terminal device determines the length of the measurement GAP according to the configuration information of the measurement GAP；The terminal device carries out wireless resource management RRM measurement at least one cell in the first object measurement frequency point in the measurement GAP according to the length of the measurement GAP.

In embodiments of the present invention, terminal device, can be according to reality by the configuration information of measurement GAP Border needs, and the flexible length for determining measurement GAP helps to shorten the time for carrying out alien frequencies or isosystem measurement, reduces the influence that measurement GAP transmits data.

With reference to first aspect, in the first implementation of first aspect, the configuration information for measuring GAP includes the configuration information of the length information of the measurement GAP or the reference signal of at least one cell in the first object measurement frequency point.

With reference to first aspect, or the first implementation of first aspect, in second of implementation of first aspect, the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point, the terminal device is according to the configuration information for measuring GAP, determine the length of the measurement GAP, include: configuration information of the terminal device according to the reference signal of at least one cell in the first object measurement frequency point, determines the first transmission duration of transmission of reference signals；The terminal device determines the length of the measurement GAP according to the first transmission duration.

With reference to first aspect, or any one of the first of first aspect and second of implementation, in the third implementation of first aspect, the terminal device is according to the configuration information of the reference signal of at least one cell in the first object measurement frequency point, determine the first transmission duration of transmission of reference signals, it include: that the terminal device determines the first reference signal configuration information in the configuration information of the reference signal of multiple cells in the first object measurement frequency point, the first reference signal configuration information is the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition；The terminal device determines the first transmission duration according to the first reference signal configuration information.

In embodiments of the present invention, the configuration information that terminal device can first choose the reference signal for transmitting the transmission duration that duration meets preset condition determines the first transmission duration further according to the configuration information of the reference signal, so as to reduce Signalling exchange, the energy consumption of terminal device is reduced.

With reference to first aspect, or the first of first aspect is any one of to the third implementation, in the 4th kind of implementation of first aspect, the terminal device is according to the configuration information of the reference signal of at least one cell in the first object measurement frequency point, determine the first transmission duration of transmission of reference signals, include: configuration information of the terminal device according to the reference signal of multiple cells in the first object measurement frequency point, determines the transmission duration of each intra-cell transmission reference signal in multiple cells in the first object measurement frequency point；The terminal device will meet the transmission duration of preset condition in the transmission duration of the reference signal of multiple cells in the first object measurement frequency point, be determined as the first transmission duration.

With reference to first aspect, or the first implementation of first aspect is any one of to the 4th kind of implementation, in the 5th kind of implementation of first aspect, a length of transmission duration with maximum value when the transmission of the preset condition is met in the transmission duration of the reference signal.

With reference to first aspect, or the first implementation of first aspect is any one of to the 5th kind of implementation, in the 6th kind of implementation of first aspect, the terminal device is according to the first transmission duration, determine the length of the measurement GAP, include: the terminal device according to the first transmission duration and time margin, determines that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin.

With reference to first aspect, or the first implementation of first aspect is any one of to the 6th kind of implementation, in the 7th kind of implementation of first aspect, the method also includes: the terminal device determines time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.

With reference to first aspect, or the first implementation of first aspect is any one of to the 7th kind of implementation, in the 8th kind of implementation of first aspect, the method also includes: the terminal device receives the synchronous regime that the network equipment is sent and indicates that information, the synchronous regime instruction information are used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.

Any one of with reference to first aspect or the first implementation of first aspect is to the 8th kind of implementation, and in the 9th kind of implementation of first aspect, time synchronizing relation described in the method includes at least that symbol level is synchronous or timeslot-level synchronization.

Any one of with reference to first aspect or the first implementation of first aspect is to the 9th kind of implementation, and in the tenth kind of implementation on the one hand, the reference signal is synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.

Second aspect, a kind of method of wireless resource management measurement is provided, this method comprises: the network equipment sends the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, the configuration information of the measurement GAP is used to determine the length of the measurement GAP, in order to which the terminal device is according to the length of the measurement GAP, wireless resource management RRM measurement is carried out at least one cell in first object measurement frequency point in the measurement GAP.

In embodiments of the present invention, the network equipment sends the configuration information of measurement GAP to terminal device, in order to which terminal device is according to the configuration information of measurement GAP, determine the length of measurement GAP, it can make terminal device according to actual needs, the length for flexibly determining measurement GAP, shortens the time of alien frequencies or isosystem measurement, reduces the influence that measurement GAP transmits data.

In conjunction with second aspect, in the first implementation of second aspect, the configuration information of the measurement GAP includes the configuration information of the length information of the measurement GAP or the reference signal of at least one cell in the first object measurement frequency point.

In conjunction with second aspect, or the first implementation of second aspect, in second of implementation of second aspect, the configuration information of the measurement GAP includes the length information of the measurement GAP, before the network equipment sends the configuration information for the measurement gap GAP of first object measurement frequency point to terminal device, the method also includes: the network equipment determines the first transmission duration of transmission of reference signals；The network equipment determines the length information of the measurement GAP according to the first transmission duration.

In conjunction with second aspect, or any one of the first of second aspect and second of implementation, in the third implementation of second aspect, the network equipment is according to the first transmission duration, determine the length information of the measurement GAP, include: the network equipment according to the first transmission duration and time margin, determines that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin.

In conjunction with second aspect, or the first of second aspect is any one of to the third implementation, in the 4th kind of implementation of second aspect, the method also includes: the network equipment determines time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.

In conjunction with second aspect, or the first of second aspect is any one of to the 4th kind of implementation, in the 5th kind of implementation of second aspect, the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point, the network equipment sends the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, it include: that the network equipment determines the first reference signal configuration information in the configuration information of the reference signal of multiple cells on the first object frequency point, the first reference signal configuration information is the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition；The network equipment sends the first reference signal configuration information to the terminal device.

In embodiments of the present invention, the network equipment can first select to transmit the configuration information of the reference signal for the transmission that duration meets preset condition, the configuration information of the reference signal is sent to terminal device again, so as to reduce the interaction between signaling, reduces the energy consumption of terminal device.

In conjunction with any one of the first of second aspect or second aspect to the 5th kind of implementation, in the 6th kind of implementation of second aspect, the transmission duration of the reference signal meets a length of transmission duration with maximum value when the transmission of preset condition.

In conjunction with second aspect, or the first of second aspect is any one of to the 6th kind of implementation, in the 7th kind of implementation of second aspect, the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point, the network equipment sends the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, comprising: the network equipment sends the configuration information of the reference signal of each cell in multiple cells on the first object frequency point to the terminal device.

In conjunction with second aspect, or the first of second aspect is any one of to the 7th kind of implementation, in the 8th kind of implementation of second aspect, the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point, the method also includes: the network equipment sends synchronous regime to the terminal device and indicates that information, the synchronous regime instruction information are used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.

In conjunction with any one of the first of second aspect or second aspect to the 8th kind of implementation, in the 9th kind of implementation of second aspect, the time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.

In conjunction with any one of the first of second aspect or second aspect to the 9th kind of implementation, in the tenth kind of implementation of second aspect, the reference signal is synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.

The third aspect provides a kind of terminal device, including one or more modules for executing each method embodiment in first aspect.

Fourth aspect provides a kind of network equipment, including one or more modules for executing each method embodiment in second aspect.

5th aspect provides a kind of terminal device, including memory, processor, method of the memory for storing program code, in each implementation of the processor for calling said program code to realize above-mentioned first aspect and the first aspect.

6th aspect provides a kind of network equipment, including memory, processor, method of the memory for storing program code, in each implementation of the processor for calling said program code to realize above-mentioned second aspect and the second aspect.

7th aspect, a kind of computer-readable medium is provided, the computer-readable medium is used to store the program code that can be executed by terminal device, and said program code includes the instruction for executing the method in each implementation of above-mentioned first aspect and the first aspect.

Eighth aspect, provides a kind of computer-readable medium, and the computer-readable medium can for storing The program code executed by the network equipment, said program code includes the instruction for executing the method in each implementation of above-mentioned second aspect and the second aspect.

9th aspect, provide a kind of System on Chip/SoC, the System on Chip/SoC includes input/output interface, at least one processor, at least one processor and bus, the at least one processor is used for store code, at least one processor is used to call the code of at least one processor, to carry out the operation of the method for above-mentioned various aspects.

Detailed description of the invention

Fig. 1 is the schematic frame diagram of the wireless communication system of the embodiment of the present invention.

Fig. 2 is the schematic flow chart of the method for the wireless resource management measurement of the embodiment of the present invention.

Fig. 3 is the another schematic flow chart of the method for the wireless resource management measurement of the embodiment of the present invention.

Fig. 4 is the schematic diagram of the terminal device of the embodiment of the present invention.

Fig. 5 is the another schematic diagram of the terminal device of the embodiment of the present invention.

Fig. 6 is the schematic diagram of the network equipment of the embodiment of the present invention.

Fig. 7 is another schematic diagram of the network equipment of the embodiment of the present invention.

Fig. 8 is the another schematic diagram of the network equipment of the embodiment of the present invention.

Specific embodiment

Below in conjunction with attached drawing, the technical solution of the embodiment of the present invention is introduced.

The technical solution of the embodiment of the present invention can be applied to various communication systems, such as: global system for mobile telecommunications (Global System of Mobile communication, referred to as " GSM ") system, CDMA (Code Division Multiple Access, referred to as " CDMA ") system, wideband code division multiple access (Wideband Code Division Multiple Access, referred to as " WCDMA ") system, General Packet Radio Service (General Packet Radio Service, referred to as " GPRS "), long term evolution (Long Term E Volution, referred to as " LTE ") system, LTE frequency division duplex (Frequency Division Duplex, referred to as " FDD ") system, LTE time division duplex (Time Division Duplex, referred to as " TDD "), Universal Mobile Communication System (Universal Mobile Telecommunication System, referred to as " UMTS "), global interconnection inserting of microwave (Worldwide Interoperability for Microwave Access, referred to as " WiMAX ") communication system or 5G system (be referred to as new wireless (N Ew Radio, NR) system etc..

Fig. 1 show the wireless communication system 100 of application of the embodiment of the present invention.The wireless communication system 100 It may include the network equipment 110.The network equipment 110 can be the equipment with terminal equipment in communication.The network equipment 110 can provide communication overlay for specific geographic area, and can be communicated with the terminal device being located in the overlay area.Optionally, the network equipment 110 can be base station (the Base Transceiver Station in gsm system or cdma system, BTS), base station (the NodeB being also possible in WCDMA system, NB), it can also be evolved base station (the Evolutional NodeB in LTE system, eNB or eNodeB), either cloud Radio Access Network (Cloud Radio Access Network, CRAN the wireless controller in), or the network equipment can be relay station, access point, mobile unit, wearable device, public land mobile network (the Public Land Mo of network side equipment or the following evolution in 5G network Bile Network, PLMN) in the network equipment etc..

The wireless communication system 100 further includes at least one terminal device 120 in 110 coverage area of the network equipment.Terminal device 120 can be mobile or fixed.Optionally, terminal device 120 can refer to the accession to terminal, user equipment (User Equipment, UE), subscriber unit, subscriber station, movement station, mobile station, remote station, remote terminal, mobile device, user terminal, terminal, wireless telecom equipment, user agent or user apparatus.Access terminal can be cellular phone, wireless phone, session initiation protocol (Session Initiation Protocol, SIP) phone, wireless local loop (Wireless Local Loop, WLL it) stands, the terminal device in the PLMN of personal digital assistant (Personal Digital Assistant, PDA), the handheld device with wireless communication function, the other processing equipments for calculating equipment or being connected to radio modem, mobile unit, wearable device, the terminal device in 5G network or the following evolution etc..

Optionally, terminal direct-connected (Device to Device, D2D) communication can be carried out between terminal device 120.

Optionally, 5G system or network can also be known as new wireless (New Radio, NR) system or network.

Wireless communication system 100 as shown in Figure 1, the wireless communication system 100 includes a network equipment and two terminal devices, optionally, the wireless communication system 100 may include multiple network equipments and each network equipment coverage area in may include other quantity terminal device, the embodiment of the present application do not limit this.

In existing LTE technology, during terminal device carries out data transmission, terminal device may may require that the switching for carrying out alien frequencies or different system cell, at this time, terminal device needs to stop the transmission of the data of current frequency point, whithin a period of time, carries out the measurement (hereinafter referred to as alien frequencies or isosystem measurement) of the channel quality of alien frequencies or different system cell, currently, this period for carrying out alien frequencies or isosystem measurement is claimed To measure GAP, stipulated that the length of measurement GAP is 6ms, setting 6ms for the length of measurement GAP is the reference signal in order to guarantee to have a complete cycle (5ms) in measurement GAP, in order to which terminal device measures reference signal, but, the transmission duration of the reference signal of actual transmissions is not that can all reach maximum transmitted duration under normal circumstances, at this time, if the length for measuring GAP is also determined as 6ms, the time that will lead to alien frequencies or different system cell channel quality measurement is longer, influences data transmission of the terminal device in current area.

For above-mentioned background technique, the embodiment of the present invention provides a kind of method of wireless resource management measurement, the configuration information for the measurement GAP that terminal device is sent by the measurement network equipment, it can flexibly determine the length of measurement GAP, the time of alien frequencies or isosystem measurement can be shortened, reduce the influence that measurement GAP transmits data.

Fig. 2 show the schematic flow chart of the method 200 of the wireless resource management measurement of the embodiment of the present invention, and this method 200 may include content some or all of in following part.

210, terminal device receives the configuration information for the measurement gap GAP for first object measurement frequency point that the network equipment is sent, and the configuration information of measurement GAP is for determining the length of measurement GAP.

220, terminal device determines the length of measurement GAP according to the configuration information of measurement GAP.

230, terminal device carries out wireless resource management (Radio Resource Management, RRM) measurement at least one cell in the first object measurement frequency point in measurement GAP according to the length of the measurement GAP.

In embodiments of the present invention, terminal device can be according to the configuration information for the measurement GAP that the network equipment is sent, determine the length of measurement GAP, facilitate terminal device according to actual needs, flexibly determine the length of measurement GAP, the time of measuring that terminal device carries out alien frequencies or isosystem measurement can be shortened, reduce the influence that measurement GAP transmits data.

It should be understood that, the first object measurement frequency point can be any frequency point different from the frequency point that terminal device is presently in, terminal device carries out alien frequencies or isosystem measurement in the first object measurement frequency point, when terminal device carries out alien frequencies or isosystem measurement, terminal device, which stops at, sends and receives data information on the frequency point being presently in.

Optionally, in some embodiments, the configuration information for measuring GAP may include the length information for measuring GAP, or may include the configuration information of the reference signal of at least one cell in first object measurement frequency point.

It should be understood that when the configuration information for measuring GAP includes measuring the length information of GAP, that is to say, that the network equipment directly notifies terminal device to carry out the length for measuring GAP needed for alien frequencies or isosystem measurement Degree, terminal device only need to carry out RRM according to the length of measurement GAP in measurement GAP.

When the configuration information for measuring GAP includes the configuration information of the reference signal of at least one cell in first object measurement frequency point, the configuration information of the reference signal determines the length of measurement GAP for terminal device according to the configuration information of the reference signal, that is, information needed for the length for determining measurement GAP is sent to terminal device by measuring the configuration information of GAP by the network equipment, the information for sending terminal device according to the network equipment determines the length of measurement GAP.

Optionally, in some embodiments, the configuration information of the reference signal can serve to indicate that the running time-frequency resource information of reference signal, can also include the quantity of the reference signal of currently practical transmission.

Optionally, in some embodiments, the RRM measurement can be Reference Signal Received Power (Reference Signal Receiving Power, RSRP it) measures, it is also possible to Reference Signal Received Quality (Reference Signal Receiving Quality, RSRQ) measurement or other kinds of measurement, the embodiment of the present invention are not construed as limiting this.

Optionally, in some embodiments, the reference signal can be synchronization signal block (Synchronous Signal Block, SS Block), it is also possible to channel state information reference signals (Channel Status Information Reference Signal, CSI-RS), perhaps simultaneously comprising above two reference signal or other reference signals.

It should be understood that the embodiment of the present invention is only illustrated reference signal by taking above-mentioned two kinds of reference signals as an example, but it's not limited to that for the embodiment of the present invention.

When reference signal is SS Block, the network equipment sends SS burst set to terminal device, it include multiple SS Block in the SS burst set, it include primary synchronization signal (Primary Synchronization Signal in each SS Block, PSS), secondary synchronization signal (Secondary Synchronization Signal,) and Physical Broadcast Channel (Physical Broadcast Channel SSS, PBCH) signal, terminal device is based on the demodulated reference signal (Demodulatio in the SSS and/or PBCH in SS Block N Reference Signal, DMRS) carry out RRM measurement.

Optionally, in some embodiments, when the configuration information for measuring GAP includes the configuration information of the reference signal of at least one cell in first object measurement frequency point, terminal device can be according to the configuration information of the reference signal of at least one cell, determine the first transmission duration of reference signal, further according to the first transmission duration, the length of measurement GAP is determined.

It should be understood that the first transmission duration can meet the transmission duration of preset condition in the transmission duration for the reference signal of multiple cells on first object frequency point.

Optionally, in terminal device according to the configuration information of the reference signal of at least one cell, when determining the first transmission duration of reference signal, it can be the configuration information for meeting the corresponding reference signal of transmission duration of preset condition in the transmission duration for choosing reference signal in the configuration information of the reference signal of multiple cells, the configuration information of the reference signal of the selection can be determined as to the first reference signal configuration information, further according to the first reference signal configuration information, the first transmission duration is determined.

Optionally, in terminal device according to the configuration information of the reference signal of at least one cell on first object frequency point, when determining the first transmission duration of reference signal, the configuration information for the reference signal that the received network equipment of terminal device is sent can be the configuration information for the first reference signal chosen in the configuration information of reference signal of the network equipment in multiple cells, the transmission duration of the corresponding reference signal of the configuration information of first reference signal meets the transmission duration of preset condition, that is, when the network equipment sends the configuration information of reference signal to terminal device, first the configuration information of reference signal can be selected, after the configuration information for choosing the reference signal met the requirements, the configuration information of the reference signal met the requirements is sent to terminal device again, so as to avoid terminal device according to each reference signal Configuration information the transmission duration of the reference signal of each cell is calculated, improve terminal device and determine the efficiency of reference signal transmission duration, and reduce signaling overheads.

Optionally, terminal device can also be according to the configuration information of the reference signal for multiple cells that the network equipment received is sent, it determines the transmission duration of the reference signal of each of multiple cell cell, then the transmission duration for meeting preset condition in the transmission duration of reference signal is determined as the first transmission duration.

Optionally, the transmission duration for meeting preset condition in the transmission duration of the reference signal can be the transmission duration with maximum value, it is also possible to the transmission duration more than or equal to preset threshold, when a length of multiple when being greater than or equal to the transmission of preset threshold, a transmission duration can be arbitrarily chosen in this multiple transmission duration as the first transmission duration, a transmission duration can also be chosen according to pre-defined rule as the first transmission duration, the embodiment of the present invention is not construed as limiting this.

Below by taking reference signal is SS Block as an example, to the configuration information according to reference signal, determine that the length of measurement GAP is illustrated.

In the prior art, in different frequency ranges, the maximum quantity of transmission of reference signals is different, as shown in table 1, in the frequency range less than 3GHz, the maximum quantity of the reference signal of transmission is 4, in the frequency range of 3GHz to 6GHz, the maximum quantity of the reference signal of transmission is 8, in the frequency range of 6GHz to 56.2GHz, the maximum quantity of the reference signal of transmission is 64, in order to meet maximum quantity reference signal transmission, required transmission duration when generally setting the quantity maximum of transmission of reference signals for the transmission duration of transmission of reference signals, however, the quantity for the reference signal transmitted when actual transmissions reference signal is not One to establish a capital be maximum quantity, the quantity for the reference signal in most cases transmitted may be both less than the maximum quantity of transmission of reference signals, at this point, in embodiments of the present invention, the configuration information for the reference signal that terminal device can be sent according to the network equipment, determines the transmission duration of reference signal.

The maximum quantity of 1 reference signal of table

Frequency range	Reference signal maximum quantity
Less than 3GHz	4
3GHz-6GHz	8
6GHz-56.2GHz	64

Terminal device can obtain the initial time of the reference signal transmission of each cell and/or end time in multiple cells in the first object measurement frequency point from the configuration information of the reference signal of multiple cells in the first object measurement frequency point that the network equipment is sent, or the quantity of the reference signal of actual transmissions in each cell can also be obtained, according to these information, terminal device can determine the transmission duration of the reference signal of each cell in multiple cells in the first object measurement frequency point, or the configuration information of the longest reference signal of transmission duration of reference signal is chosen in the configuration information of the reference signal from multiple cells, then meet the configuration information of the corresponding reference signal of transmission duration of preset condition according to the transmission duration or transmission duration that meet preset condition in the transmission duration of the reference signal of each cell, determine One transmission duration determines the length of measurement GAP then further according to the first transmission duration.

It should be understood that, the transmission duration that the configuration information of the received reference signal of terminal device is also possible to the reference signal of network equipment selection meets the configuration information of the corresponding reference signal of transmission duration of preset condition, the quantity of the reference signal of the initial time of the transmission for the reference signal that terminal device includes according to the reference signal configuration information, end time or actual transmissions, determine the first transmission duration, further according to the first transmission duration, the length of measurement GAP is determined.

Optionally, the quantity that terminal device obtains the reference signal of actual transmissions in cell can be the network equipment and notify terminal device by way of indicating information, the selection rule of the position of the reference signal of actual transmissions in the time domain can also be carried in the instruction information, the selection rule can be preset rule, which can be a field in the configuration information of reference signal.

Such as, it is 3GHz frequency range below in the frequency range for carrying out different-frequency measure, reference signal is SS Block, when being transmitted using the subcarrier spacing of 15KHz, in this case, the greatest maximum number of transmissions of reference signal is 4, a length of 2ms when transmission, however, it is 2 in the quantity of the reference signal of actual transmissions, and the reference signal of the actual transmissions is the reference signal of first time-domain position on the time-domain position of 4 reference signals of former transmission and the transmission of second time-domain position, the network equipment can be sent out to terminal device Send instruction information, the instruction information includes that the reference signal quantity of actual transmissions is 2, the selection rule of reference signal is the reference signal transmitted on first time-domain position and second time-domain position chosen on the time-domain position of 4 reference signals of former transmission, at this point, terminal device according to the instruction information can determine transmission reference signal transmission when a length of 1ms.

Optionally, the quantity that terminal device obtains the reference signal of actual transmissions in cell is also possible to the network equipment and is indicated to terminal device by way of bit.

Such as, it is 3GHz frequency range below in the frequency range for carrying out different-frequency measure, reference signal is SS Block, when being transmitted using the subcarrier spacing of 15KHz, in this case, the greatest maximum number of transmissions of reference signal is 4, a length of 2ms when transmission, however, the quantity of the reference signal of actual transmissions is 2 at this time, the network equipment can send the field of one " 1100 " to terminal device, first time-domain position and second time-domain position transmission of reference signals of the instruction terminal equipment on the time-domain position of 4 reference signals of former transmission, pass through the field, terminal device can know that the reference signal of actual transmissions occupies the first two time-domain position of the time-domain position of 4 reference signals of former transmission, therefore, terminal device can determine a length of 1ms when the transmission of transmission of reference signals；When the field that the network equipment is sent to terminal device is " 0101 ", second time-domain position and four time-domain position transmission of reference signals of the field instruction terminal equipment on the time-domain position of 4 reference signals of former transmission, if the transmission start time of the reference signal carried in the configuration information of reference signal is the first time-domain position of the time-domain position of 4 reference signals of former transmission, terminal device can determine that the transmission duration of reference signal is still 2ms at this time.

Therefore, terminal device can determine the transmission duration of the reference signal in cell according to the information such as the information such as the position of the quantity of the reference signal of actual transmissions and the reference signal of transmission in the time domain and the initial time of transmission of reference signals.

It should be understood that the length of measurement GAP can be the first transmission duration, the first transmission duration can also be greater than.

Optionally, in some embodiments, due to may not point-device synchronization between the cell in the first object measurement frequency point, therefore, duration is transmitted when each cell transmission reference signal, and there is a certain error, influence in order to compensate for the error to the length of measurement GAP, it can be after the first transmission duration be determined, increase a time margin in the first transmission duration and obtain measurement GAP, to guarantee that determining measurement GAP can cover the transmission duration of all cell transmission reference signals in the first object measurement frequency point.

Optionally, which can be preset, after terminal device has determined the first transmission duration according to the configuration information of reference signal, increase the preset time in the first transmission duration Surplus can both obtain the length of measurement GAP.

Optionally, which can also determine time margin according to the time synchronizing relation between multiple cells in first object measurement frequency point.

The time synchronizing relation at least may include symbol level it is synchronous with it is timeslot-level synchronous, the synchronous symbol level is that the transmission duration of transmission of reference signals between every two cell in multiple cells differs the duration of a symbol, and timeslot-level synchronization is that the transmission duration for the reference signal transmitted between every two cell in multiple cells differs the duration of a time slot.

Optionally, when time synchronizing relation between cells is that symbol level is synchronous, determining time margin is less than the time margin determined when the time synchronizing relation between cell is timeslot-level synchronous, such as, when time synchronizing relation between cells is that symbol level is synchronous, it can determine that time margin is 0.2ms, when time synchronizing relation between cells is timeslot-level synchronous, can determine that time margin is 1ms.

Optionally, in some embodiments, the synchronous regime that terminal device receives that the network equipment is sent indicates that information, synchronous regime instruction information are used to indicate the time synchronizing relation between multiple cells on the first object frequency point.

Optionally, in some embodiments, the network equipment can also be by way of bit to the time synchronizing relation between terminal device indicating cell, such as, the network equipment can be by way of 1 bit field or 2 bit fields to the time synchronizing relation between terminal device indicating cell, the network equipment can indicate that the time synchronizing relation between cell is synchronous for symbol level with " 0 ", " 1 " indicates that the synchronized relation between cell is timeslot-level synchronization, or it can also indicate that the time synchronizing relation between cell is synchronous for symbol level with " 00 ", " 01 " indicates that the synchronized relation between cell is timeslot-level synchronization, " 10 " indicate asynchronous etc. between cell.

Optionally, in some embodiments, when asynchronous between multiple cells in first object measurement frequency point, measurement GAP can be set to the 6ms of default.

Therefore, when determining the length of measurement GAP, it can determine whether synchronize between multiple cells in first object measurement frequency point first, when being synchronized between multiple cells or being similar to synchronous, it can be according to the configuration information and time margin of reference signal, the length for determining measurement GAP, when asynchronous between multiple cells, then directly can set 6ms for the length for measuring GAP.

When the length of determining measurement GAP is less than 6ms, terminal device can send or receive data information on the time except the length of the measurement GAP of the determination, to reduce the influence that measurement GAP transmits data.

Being in reference signal includes SS Block, and when including CSI-RS, in the length for determining measurement GAP When spending, it needs to be determined that whether there is time interval between transmission SS Block and transmission CSI-RS, time interval if it exists, the length of measurement GAP, which should be, transmits the sum of transmission duration, time margin and the time interval of above-mentioned two reference signal that above-mentioned two reference signal respectively needs.

Such as, in the cell A on the first measurement target frequency point, according to the configuration information of reference signal, determine a length of T1 when the transmission of transmission of reference signals SS Block, a length of T2 when the transmission of transmission of reference signals CSI-RS, transmission intercal between reference signal SS Block and reference signal CSI-RS is T0, time margin is T3, assuming that only including cell A on the first measurement target frequency point, it can so determine that measurement GAP is T1+T2+T3+T0, the length for measuring GAP needs to cover reference signal SS Block and reference signal CSI-RS, when further including other cells on the first measurement target frequency point, the transmission duration of above-mentioned two reference signal of each cell can be calculated separately, it calculates separately again above-mentioned two with reference to letter Number the first transmission duration, the first of above-mentioned two reference signal is transmitted the sum of transmission intercal and time margin between duration and reference signal and is determined as measuring the length of GAP.

Above embodiments are illustrated the length for how being determined measurement GAP so that the configuration information of the reference signal of at least one cell in the first object measurement frequency point that terminal device is sent according to the network equipment determines the length of measurement GAP as an example, if terminal device directly receives the length information of measurement GAP, how to determine that the movement of the length of measurement GAP will be executed by the network equipment.

The network equipment can be according to the transmission situation of the reference signal of each cell on first object frequency point, determine the transmission duration of the reference signal of each cell, and determine the first transmission duration, a length of transmission duration for meeting preset condition when first transmission, further according to the first transmission duration, it determines the length of measurement GAP, and the length of measurement GAP is sent to terminal device.

Optionally, in some embodiments, the configuration information of the reference signal of multiple cells of the network equipment in the first object measurement frequency point that terminal device is sent can not also be carried in the configuration information of measurement GAP, that is, the network equipment can directly send the configuration information of reference signal to terminal device, when it needs to be determined that measuring the length of GAP, terminal device can be according to the content carried in the configuration information of the reference signal, determine the length of measurement GAP, the method for determining the length of measurement GAP is same as mentioned above, for sake of simplicity, details are not described herein.

Fig. 3 show the schematic flow chart of the method 300 of the wireless resource management measurement of the embodiment of the present invention, it is only illustrated by taking the configuration information for the reference signal that the configuration information for measuring GAP is at least one cell in first object measurement frequency point as an example in this method 300, as shown in figure 3, this method 300 may include content some or all of in following part.

310, the network equipment sends the configuration information of measurement GAP to terminal device, measures matching for GAP Confidence breath is the configuration information of the reference signal of at least one cell in first object measurement frequency point.

Optionally, the configuration information for the reference signal that the network equipment is sent to terminal device can be the configuration information of the reference signal of multiple cells on first object frequency point.

Optionally, the transmission duration that the network equipment can also choose reference signal from the configuration information of multiple reference signals meets the corresponding first reference signal configuration information of transmission duration of preset condition, and the configuration information of first reference signal is sent to terminal device.

320, terminal device determines the first transmission duration according to the configuration information of reference signal.

Optionally, in terminal device according to the configuration information of reference signal, when determining the first transmission duration of reference signal, terminal device can choose the configuration information for meeting the corresponding reference signal of transmission duration of preset condition in the transmission duration of reference signal in the configuration information of the reference signal of multiple cells, the configuration information of the reference signal can be determined as to the first reference signal configuration information, further according to the first reference signal configuration information, the first transmission duration is determined.

Optionally, in the configuration information of signal under the configuration information for the reference signal that the network equipment is sent to terminal device is the first reference, terminal device can determine the first transmission duration directly according to the configuration information of first reference signal.

Optionally, terminal device can also be according to the configuration information of the reference signal for multiple cells that the network equipment received is sent, it determines the transmission duration of the reference signal of each of multiple cell cell, then the transmission duration for meeting preset condition in the transmission duration of multiple reference signals is determined as the first transmission duration.

Optionally, the transmission duration for meeting preset condition in the transmission duration of the reference signal can be the transmission duration with maximum value, it is also possible to the transmission duration more than or equal to preset threshold, when a length of multiple when being greater than or equal to the transmission of preset threshold, a transmission duration can be arbitrarily chosen in this multiple transmission duration as the first transmission duration, a transmission duration can also be chosen according to pre-defined rule as the first transmission duration, the embodiment of the present invention is not construed as limiting this.

330, the network equipment sends synchronous regime to terminal device and indicates information.

Optionally, synchronous regime instruction information is used to indicate the time synchronizing relation between multiple cells in first object measurement frequency point.

Optionally, which can also be that the network equipment is indicated to terminal device by way of bit.

340, terminal device determines time margin according to the time synchronizing relation between multiple cells in first object measurement frequency point.

It should be understood that the time margin is also possible to preset, the embodiment of the present invention is only illustrated for determining time margin according to time synchronizing relation, but the embodiment of the present invention is not limited to this.

Optionally, the time synchronizing relation at least may include symbol level it is synchronous with it is timeslot-level synchronous.

350, terminal device determines the length of measurement GAP according to the first transmission duration and time margin.

Optionally, the length of measurement GAP is the first transmission the sum of duration and time margin.

Optionally, when it is multiple for measuring the reference signal transmitted in GAP, the length for measuring GAP is the sum of the first transmission duration, time margin and Transmission Time Interval of each reference signal.

360, terminal device carries out RRM measurement according to the length of measurement GAP in measurement GAP.

It should be understood that, the RRM measurement can be Reference Signal Received Power (Reference Signal Receiving Power, RSRP it) measures, it is also possible to Reference Signal Received Quality (Reference Signal Receiving Quality, RSRQ it) measures, or other kinds of measurement, the embodiment of the present invention are not construed as limiting this.

Optionally, in some embodiments, the reference signal can be synchronization signal block (Synchronous Signal Block, SS Block), it is also possible to channel state information reference signals (Channel Status Information Reference Signal, it CSI-RS), or simultaneously include above two reference signal, or other reference signals.

In embodiments of the present invention, the configuration information for the measurement GAP that terminal device is sent by the network equipment, it can determine the length of measurement GAP, facilitate terminal device according to actual needs, flexibly determine the length of measurement GAP, the time of measuring that terminal device carries out the channel quality measurement of alien frequencies or different system cell can be shortened, reduce the influence that measurement GAP transmits data.

Above in association with Fig. 2 and Fig. 3, embodiment of the method for the invention is described in detail, below in conjunction with Fig. 4 to Fig. 8, the embodiment of the terminal device of the present invention is described in detail embodiment and the embodiment of the network equipment, it should be understood that, the embodiment of terminal device is mutually referred to embodiment of the method to corresponding, similar description with embodiment of the method with the embodiment of the network equipment.

Fig. 4 show the schematic block diagram of the terminal device 400 of the embodiment of the present invention, as shown in figure 4, the terminal device 400 may include with module some or all of in lower module.

Receiving module 410, the configuration information of the measurement gap GAP for first object measurement frequency point for receiving network equipment transmission, measures the configuration information of GAP for determining the length of measurement GAP.

Determining module 420 determines the length of the measurement GAP for the configuration information according to the measurement GAP.

Processing module 430 is right in the measurement GAP for the length according to the measurement GAP At least one cell in the first object measurement frequency point carries out wireless resource management RRM measurement.

In embodiments of the present invention, terminal device 400 can be according to the configuration information for the measurement GAP that the network equipment is sent, determine the length of measurement GAP, facilitate terminal device according to actual needs, flexibly determine the length of measurement GAP, the time of measuring that terminal device carries out alien frequencies or isosystem measurement can be shortened, reduce the influence that measurement GAP transmits data.

It should be understood that, the first object measurement frequency point can be any frequency point different from the frequency point that terminal device is presently in, terminal device carries out alien frequencies or isosystem measurement in the first object measurement frequency point, when terminal device carries out alien frequencies or isosystem measurement, terminal device, which stops at, sends and receives data information on the frequency point being presently in.

Optionally, in some embodiments, the configuration information for measuring GAP may include the length information for measuring GAP, or may include the configuration information of the reference signal of at least one cell in first object measurement frequency point.

It should be understood that, when the configuration information for measuring GAP includes measuring the length information of GAP, that is the network equipment directly notifies terminal device to carry out the length for measuring GAP needed for alien frequencies or isosystem measurement, and terminal device only need to carry out RRM according to the length of measurement GAP in measurement GAP.

When the configuration information for measuring GAP includes the configuration information of the reference signal of at least one cell in first object measurement frequency point, the configuration information of the reference signal determines the length of measurement GAP for terminal device according to the configuration information of the reference signal, that is, information needed for the length for determining measurement GAP is sent to terminal device by measuring the configuration information of GAP by the network equipment, the information for sending terminal device according to the network equipment determines the length of measurement GAP.

Optionally, in some embodiments, the configuration information of the reference signal can serve to indicate that the running time-frequency resource information of reference signal, can also include the quantity of the reference signal of currently practical transmission.

Optionally, in some embodiments, the RRM measurement can be Reference Signal Received Power (Reference Signal Receiving Power, RSRP it) measures, it is also possible to Reference Signal Received Quality (Reference Signal Receiving Quality, RSRQ) measurement or other kinds of measurement, the embodiment of the present invention are not construed as limiting this.

Optionally, in some embodiments, the reference signal can be synchronization signal block (Synchronous Signal Block, SS Block), it is also possible to channel state information reference signals (Channel Status Information Reference Signal, CSI-RS), perhaps simultaneously comprising above two reference signal or other reference signals.

It should be understood that the embodiment of the present invention is only illustrated reference signal by taking above-mentioned two kinds of reference signals as an example, but it's not limited to that for the embodiment of the present invention.

Optionally, in some embodiments, determining module 420 is specifically used for the configuration information of the reference signal according at least one cell in the first object measurement frequency point, determines the first transmission duration of transmission of reference signals.

Optionally, in some embodiments, which is also used to determine the length of the measurement GAP according to the first transmission duration.

Optionally, in some embodiments, determining module 420 is also used to choose the configuration information for meeting the corresponding reference signal of transmission duration of preset condition in the transmission duration of reference signal in the configuration information of the reference signal of multiple cells, the configuration information of the reference signal of the selection can be determined as to the first reference signal configuration information, further according to the first reference signal configuration information, the first transmission duration is determined.

Optionally, in some embodiments, the configuration information of the reference signal for multiple cells that determining module 420 is also used to be sent according to the network equipment received, it determines the transmission duration of the reference signal of each of multiple cell cell, then the transmission duration for meeting preset condition in the transmission duration of reference signal is determined as the first transmission duration.

Optionally, the transmission duration for meeting preset condition in the transmission duration of the reference signal can be the transmission duration with maximum value, it is also possible to the transmission duration more than or equal to preset threshold, when a length of multiple when being greater than or equal to the transmission of preset threshold, a transmission duration can be arbitrarily chosen in this multiple transmission duration as the first transmission duration, a transmission duration can also be chosen according to pre-defined rule as the first transmission duration, the embodiment of the present invention is not construed as limiting this.

Optionally, in some embodiments, determining module 420 is also used to determine that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin according to the first transmission duration and time margin.

Optionally, in some embodiments, determining module 420 is also used to determine time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.

Optionally, in some embodiments, receiving module 410 is also used to receive the synchronous regime instruction information that the network equipment is sent, and synchronous regime instruction information is used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.

Optionally, in some embodiments, time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.

Optionally, in some embodiments, reference signal can for synchronization signal block SS Blcok and/or Channel state information reference signals CSI-RS.

It should be understood that, terminal device 400 in the embodiment of the present invention can correspond to the terminal device in embodiment of the method, the above and other operation and/or function of modules in the terminal device 400 realizes the corresponding process in each method in Fig. 2 and Fig. 3 respectively, for sake of simplicity, details are not described herein.

Fig. 5 is the schematic diagram of terminal device 500 according to an embodiment of the present invention.As shown in figure 5, the terminal device 500 includes memory 510 and processor 520, communicated with each other between the memory 510 and processor 520 by internal connecting path, transmitting control and/or data-signal.

The memory 510 is for storing program code；

The processor 520 is for calling said program code to realize the method in the various embodiments described above of the present invention.

In embodiments of the present invention, processor 520 can be central processing unit (Central Processing Unit, CPU), the combination of network processing unit (Network Processor, NP) or CPU and NP.Processor can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit (Application-Specific Integrated Circuit, ASIC), programmable logic device (Programmable Logic Device, PLD) or combinations thereof.

The embodiment of the invention provides a kind of computer-readable mediums, and for storing computer program code, which includes the instruction for executing the method that the wireless resource management of the embodiment of the present invention in above-mentioned Fig. 2 and Fig. 3 measures.The readable medium can be read-only memory (Read-Only Memory, ROM) or random access memory (Random Access Memory, RAM), and the embodiment of the present invention is without limitation.

It should be understood that, terminal device 500 according to an embodiment of the present invention can correspond to the terminal device in embodiment of the method, and the above and other operation and/or function of the modules in the terminal device 500 realizes the corresponding process of each method in Fig. 2 and Fig. 3 respectively, for sake of simplicity, details are not described herein.

It is the schematic block diagram of the network equipment 600 of the embodiment of the present invention described in Fig. 6, as shown in fig. 6, the network equipment 600 may include with module some or all of in lower module.

Sending module 610, for sending the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, the configuration information of the measurement GAP is used to determine the length of the measurement GAP.

The network equipment 600 sends the configuration information of measurement GAP to terminal device, terminal device is set to obtain the length of measurement GAP, in order to which terminal device is according to the length of measurement GAP, wireless resource management is carried out at least one cell in first object measurement frequency point in measurement GAP and measures RRM.

In embodiments of the present invention, the measurement GAP that terminal device can be sent according to the network equipment 600 Configuration information, determine the length of measurement GAP, facilitate terminal device according to actual needs, flexibly determine the length of measurement GAP, the time of measuring that terminal device carries out alien frequencies or isosystem measurement can be shortened, reduce the influence that measurement GAP transmits data.

It should be understood that, the first object measurement frequency point can be any frequency point different from the frequency point that terminal device is presently in, terminal device carries out alien frequencies or isosystem measurement in the first object measurement frequency point, when terminal device carries out alien frequencies or isosystem measurement, terminal device, which stops at, sends and receives data information on the frequency point being presently in.

Optionally, in some embodiments, the configuration information for measuring GAP may include the length information for measuring GAP, or may include the configuration information of the reference signal of at least one cell in first object measurement frequency point.

It should be understood that, when the configuration information for measuring GAP includes measuring the length information of GAP, that is the network equipment directly notifies terminal device to carry out the length for measuring GAP needed for alien frequencies or isosystem measurement, and terminal device only need to carry out RRM according to the length of measurement GAP in measurement GAP.

When the configuration information for measuring GAP includes the configuration information of the reference signal of at least one cell in first object measurement frequency point, the configuration information of the reference signal determines the length of measurement GAP for terminal device according to the configuration information of the reference signal, that is, information needed for the length for determining measurement GAP is sent to terminal device by measuring the configuration information of GAP by the network equipment, the information for sending terminal device according to the network equipment determines the length of measurement GAP.

Optionally, in some embodiments, the configuration information of the reference signal can serve to indicate that the running time-frequency resource information of reference signal, can also include the quantity of the reference signal of currently practical transmission.

Optionally, in some embodiments, the RRM measurement can be Reference Signal Received Power (Reference Signal Receiving Power, RSRP it) measures, it is also possible to Reference Signal Received Quality (Reference Signal Receiving Quality, RSRQ) measurement or other kinds of measurement, the embodiment of the present invention are not construed as limiting this.

Optionally, in some embodiments, the reference signal can be synchronization signal block (Synchronous Signal Block, SS Block), it is also possible to channel state information reference signals (Channel Status Information Reference Signal, CSI-RS), perhaps simultaneously comprising above two reference signal or other reference signals.

It should be understood that the embodiment of the present invention is only illustrated reference signal by taking above-mentioned two kinds of reference signals as an example, but it's not limited to that for the embodiment of the present invention.

Optionally, as shown in fig. 7, the network equipment 600 further includes determining module 620, which is used to determine the first transmission duration of transmission of reference signals.

Optionally, which is also used to determine the length of the measurement GAP according to the first transmission duration.

Optionally, which is also used to determine that the length of measurement GAP, the length of measurement GAP are equal to the first transmission the sum of duration and the time margin according to the first transmission duration and time margin.

Optionally, which is also used to determine time margin according to the time synchronizing relation between multiple cells in first object measurement frequency point.

Optionally, the determining module 620 is also used to determine that the first reference signal configuration information, the first reference signal configuration information are the configuration information that the transmission duration of the reference signal of multiple cells in first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition in the configuration information of the reference signal of multiple cells on the first object frequency point.

Optionally, sending module 610 is also used to send the first reference signal configuration information to the terminal device, which is the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition.

Optionally, the transmission duration of reference signal meets a length of transmission duration with maximum value when the transmission of preset condition.

Optionally, sending module 610 is also used to send the configuration information of the reference signal of each cell in multiple cells on first object frequency point to terminal device.

Optionally, sending module 610 is also used to send synchronous regime instruction information to terminal device, and synchronous regime instruction information is used to indicate the time synchronizing relation between multiple cells in first object measurement frequency point.

Optionally, time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.

Optionally, reference signal can be synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.

Fig. 8 is the schematic diagram of the network equipment 800 according to an embodiment of the present invention.As shown in figure 8, the network equipment 800 includes memory 810 and processor 820, communicated with each other between the memory 810 and processor 820 by internal connecting path, transmitting control and/or data-signal.

The memory 810 is for storing program code；

The processor 820 is for calling said program code to realize in the various embodiments described above of the present invention Method.

In embodiments of the present invention, processor 820 can be central processing unit (Central Processing Unit, CPU), the combination of network processing unit (Network Processor, NP) or CPU and NP.Processor can further include hardware chip.Above-mentioned hardware chip can be specific integrated circuit (Application-Specific Integrated Circuit, ASIC), programmable logic device (Programmable Logic Device, PLD) or combinations thereof.

The embodiment of the invention provides a kind of computer-readable mediums, and for storing computer program code, which includes the instruction for executing the method that the wireless resource management of the embodiment of the present invention in above-mentioned Fig. 2 and Fig. 3 measures.The readable medium can be read-only memory (Read-Only Memory, ROM) or random access memory (Random Access Memory, RAM), and the embodiment of the present invention is without limitation.

It should be understood that, the network equipment 800 according to an embodiment of the present invention can correspond to the terminal device in embodiment of the method, and the above and other operation and/or function of the modules in the network equipment 800 realizes the corresponding process of each method in Fig. 2 and Fig. 3 respectively, for sake of simplicity, details are not described herein.

It should be understood that the terms "and/or" is only a kind of incidence relation for describing affiliated partner, 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 unit described in conjunction with the examples disclosed in the embodiments of the present disclosure and algorithm steps, can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Professional technician can use different methods to achieve the described function each specific application, but such implementation should not be considered as beyond the scope of the present invention.

It is apparent to those skilled in the art that for convenience and simplicity of description, system, the specific work process of device and unit of foregoing description can refer to corresponding processes in the foregoing method embodiment, details are not described herein.

In several embodiments provided herein, it should be understood that disclosed systems, devices and methods may be implemented in other ways.Such as, the apparatus embodiments described above are merely exemplary, such as, the division of the unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed is mutual Coupling, direct-coupling or communication connection can be through some interfaces, the indirect coupling or communication connection of device or unit can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, and component shown as a unit may or may not be physical unit, it can and it is in one place, or may be distributed over multiple network units.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.

In addition, the functional units in various embodiments of the present invention may be integrated into one processing unit, it is also possible to each unit and physically exists alone, can also be integrated in one unit with two or more units.

In the above-described embodiments, it can be realized wholly or partly by software, hardware, firmware or any combination thereof.When implemented in software, it can entirely or partly realize in the form of a computer program product.The computer program product includes one or more computer instructions.When loading on computers and executing the computer program instructions, entirely or partly generate according to process or function described in the embodiment of the present invention.The computer can be general purpose computer, special purpose computer, computer network or other programmable devices.The computer instruction may be stored in a computer readable storage medium, or it is transmitted from a computer readable storage medium to another computer readable storage medium, for example, the computer instruction can be transmitted from a web-site, computer, server or data center by wired (such as coaxial cable, optical fiber, Digital Subscriber Line (DSL)) or wireless (such as infrared, wireless, microwave etc.) mode to another web-site, computer, server or data center.The computer readable storage medium can be any usable medium that computer can access or include the data storage devices such as one or more usable mediums integrated server, data center.The usable medium can be magnetic medium, (for example, floppy disk, hard disk, tape), optical medium (for example, DVD) or semiconductor medium (such as solid state hard disk Solid State Disk, SSD) etc..

It is described above; only a specific embodiment of the invention, but scope of protection of the present invention is not limited thereto, and anyone skilled in the art is in the technical scope disclosed by the present invention; it can easily think of the change or the replacement, should be covered by the protection scope of the present invention.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (44)

1. A kind of method of wireless resource management RRM measurement, which is characterized in that the described method includes:

   Terminal device receives the configuration information for the measurement gap GAP for first object measurement frequency point that the network equipment is sent, and the configuration information of the measurement GAP is for determining the length of measurement GAP；

   The terminal device determines the length of the measurement GAP according to the configuration information of the measurement GAP；

   The terminal device carries out RRM measurement at least one cell in the first object measurement frequency point in the measurement GAP according to the length of the measurement GAP.
2. The method according to claim 1, wherein the configuration information of the measurement GAP includes the configuration information of the length information of the measurement GAP or the reference signal of at least one cell in the first object measurement frequency point.
3. According to the method described in claim 2, it is characterized in that, the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point,

   The terminal device determines the length of the measurement GAP according to the configuration information of the measurement GAP, comprising:

   The terminal device determines the first transmission duration of transmission of reference signals according to the configuration information of the reference signal of at least one cell in the first object measurement frequency point；

   The terminal device determines the length of the measurement GAP according to the first transmission duration.
4. According to the method described in claim 3, it is characterized in that, the terminal device determines the first transmission duration of transmission of reference signals according to the configuration information of the reference signal of at least one cell in the first object measurement frequency point, comprising:

   The terminal device determines that the first reference signal configuration information, the first reference signal configuration information are the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition in the configuration information of the reference signal of multiple cells in the first object measurement frequency point；

   The terminal device determines the first transmission duration according to the first reference signal configuration information.
5. According to the method described in claim 3, it is characterized in that, the terminal device determines the first transmission duration of transmission of reference signals according to the configuration information of the reference signal of at least one cell in the first object measurement frequency point, comprising:

   The terminal device is according to the reference signals of multiple cells in the first object measurement frequency point Configuration information determines the transmission duration of each intra-cell transmission reference signal in multiple cells in the first object measurement frequency point；

   The terminal device will meet the transmission duration of preset condition in the transmission duration of the reference signal of multiple cells in the first object measurement frequency point, be determined as the first transmission duration.
6. Method according to claim 4 or 5, which is characterized in that meet a length of transmission duration with maximum value when the transmission of the preset condition in the transmission duration of the reference signal.
7. Method according to any one of claim 3 to 6, which is characterized in that the terminal device determines the length of the measurement GAP according to the first transmission duration, comprising:

   The terminal device determines that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin according to the first transmission duration and time margin.
8. The method according to any one of claim 3 to 7, which is characterized in that the method also includes:

   The terminal device determines time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.
9. The method according to any one of claim 3 to 8, which is characterized in that the method also includes:

   The terminal device receives the synchronous regime instruction information that the network equipment is sent, and the synchronous regime instruction information is used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.
10. Method according to claim 8 or claim 9, which is characterized in that the time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.
11. The method according to any one of claim 2 to 10, which is characterized in that the reference signal is synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.
12. A kind of method of wireless resource management RRM measurement, which is characterized in that the described method includes:

    The network equipment sends the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, the configuration information of the measurement GAP is used to determine the length of the measurement GAP, in order to which the terminal device is according to the length of the measurement GAP, RRM measurement is carried out at least one cell in first object measurement frequency point in the measurement GAP.
13. According to the method for claim 12, which is characterized in that the configuration information of the measurement GAP includes the configuration information of the length information of the measurement GAP or the reference signal of at least one cell in the first object measurement frequency point.
14. According to the method for claim 13, which is characterized in that the configuration information of the measurement GAP includes the length information of the measurement GAP,

    Before the network equipment sends the configuration information for the measurement gap GAP of first object measurement frequency point to terminal device, the method also includes:

    The network equipment determines the first transmission duration of transmission of reference signals；

    The network equipment determines the length information of the measurement GAP according to the first transmission duration.
15. According to the method for claim 14, which is characterized in that the network equipment determines the length information of the measurement GAP according to the first transmission duration, comprising:

    The network equipment determines that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin according to the first transmission duration and time margin.
16. Method according to claim 14 or 15, which is characterized in that the method also includes: the network equipment determines time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.
17. According to the method for claim 13, which is characterized in that the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point,

    The network equipment sends the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, comprising:

    The network equipment determines that the first reference signal configuration information, the first reference signal configuration information are the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition in the configuration information of the reference signal of multiple cells on the first object frequency point；

    The network equipment sends the first reference signal configuration information to the terminal device.
18. According to the method for claim 17, which is characterized in that meet a length of transmission duration with maximum value when the transmission of preset condition in the transmission duration of the reference signal.
19. According to the method for claim 13, which is characterized in that the configuration information of the measurement GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point,

    The network equipment sends the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, comprising:

    The network equipment sends the configuration information of the reference signal of each cell in multiple cells on the first object frequency point to the terminal device.
20. Method described in any one of 7 to 19 according to claim 1, which is characterized in that the survey The configuration information of amount GAP includes the configuration information of the reference signal of at least one cell in the first object measurement frequency point,

    The method also includes:

    The network equipment sends synchronous regime to the terminal device and indicates that information, the synchronous regime instruction information are used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.
21. Method described in 6 or 20 according to claim 1, which is characterized in that the time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.
22. Method described in any one of 3 to 21 according to claim 1, which is characterized in that the reference signal is synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.
23. A kind of terminal device, which is characterized in that the terminal device includes:

    Receiving module, the configuration information of the measurement gap GAP for first object measurement frequency point for receiving network equipment transmission, the configuration information of the measurement GAP is for determining the length of measurement GAP；

    Determining module determines the length of the measurement GAP for the configuration information according to the measurement GAP；

    Processing module carries out wireless resource management RRM measurement at least one cell in the first object measurement frequency point in the measurement GAP for the length according to the measurement GAP.
24. Terminal device according to claim 23, which is characterized in that the configuration information of the measurement GAP includes the configuration information of the length information of the measurement GAP or the reference signal of at least one cell in the first object measurement frequency point.
25. Terminal device according to claim 24, which is characterized in that the determining module is specifically used for:

    According to the configuration information of the reference signal of at least one cell in the first object measurement frequency point, the first transmission duration of transmission of reference signals is determined；

    According to the first transmission duration, the length of the measurement GAP is determined.
26. Terminal device according to claim 25, which is characterized in that the determining module is also used to:

    Determine that the first reference signal configuration information, the first reference signal configuration information are the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition in the configuration information of the reference signal of multiple cells in the first object measurement frequency point；

    According to the first reference signal configuration information, the first transmission duration is determined.
27. Terminal device according to claim 25, which is characterized in that the determining module is also used to:

    According to the configuration information of the reference signal of multiple cells in the first object measurement frequency point, the transmission duration of each intra-cell transmission reference signal in multiple cells in the first object measurement frequency point is determined；

    The transmission duration of preset condition will be met in the transmission duration of the reference signal of multiple cells in the first object measurement frequency point, is determined as the first transmission duration.
28. The terminal device according to claim 26 or 27, which is characterized in that meet a length of transmission duration with maximum value when the transmission of the preset condition in the transmission duration of the reference signal.
29. The terminal device according to any one of claim 25 to 28, it is characterized in that, the determining module is also used to according to the first transmission duration and time margin, determine that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin.
30. The terminal device according to any one of claim 25 to 29, which is characterized in that the determining module is also used to determine time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.
31. The terminal device according to any one of claim 25 to 30, it is characterized in that, the receiving module is also used to receive the synchronous regime instruction information that the network equipment is sent, and the synchronous regime instruction information is used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.
32. The terminal device according to claim 30 or 31, which is characterized in that the time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.
33. The terminal device according to any one of claim 24 to 32, which is characterized in that the reference signal is synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.
34. A kind of network equipment, which is characterized in that the network equipment includes:

    Sending module, for sending the configuration information of the measurement gap GAP for first object measurement frequency point to terminal device, the configuration information of the measurement GAP is used to determine the length of the measurement GAP, in order to which the terminal device is according to the length of the measurement GAP, wireless resource management RRM measurement is carried out at least one cell in first object measurement frequency point in the measurement GAP.
35. The network equipment according to claim 34, which is characterized in that the configuration information of the measurement GAP includes the configuration information of the length information of the measurement GAP or the reference signal of at least one cell in the first object measurement frequency point.
36. The network equipment according to claim 35, which is characterized in that the network equipment further include:

    Determining module, for determining the first transmission duration of transmission of reference signals；

    The determining module is also used to determine the length information of the measurement GAP according to the first transmission duration.
37. The network equipment according to claim 36, it is characterized in that, the determining module is specifically used for determining that the length of the measurement GAP, the length of the measurement GAP are equal to the first transmission the sum of the duration and the time margin according to the first transmission duration and time margin.
38. The network equipment according to claim 36 or 37, which is characterized in that the determining module is also used to determine time margin according to the time synchronizing relation between multiple cells in the first object measurement frequency point.
39. The network equipment according to claim 35, it is characterized in that, the determining module is also used to determine that the first reference signal configuration information, the first reference signal configuration information are the configuration information that the transmission duration of the reference signal of multiple cells in the first object measurement frequency point meets the corresponding reference signal of transmission duration of preset condition in the configuration information of the reference signal of multiple cells on the first object frequency point；

    The sending module is specifically used for sending the first reference signal configuration information to the terminal device.
40. The network equipment according to claim 39, which is characterized in that the transmission duration of the reference signal meets a length of transmission duration with maximum value when the transmission of preset condition.
41. The network equipment according to claim 35, which is characterized in that the sending module is specifically used for sending the configuration information of the reference signal of each cell in multiple cells on the first object frequency point to the terminal device.
42. The network equipment according to any one of claim 39 to 41, it is characterized in that, the sending module is also used to send synchronous regime instruction information to the terminal device, and the synchronous regime instruction information is used to indicate the time synchronizing relation between multiple cells in the first object measurement frequency point.
43. The network equipment according to claim 38 or 42, which is characterized in that the time synchronizing relation includes at least symbol level synchronization or timeslot-level synchronization.
44. The network equipment according to any one of claim 35 to 43, which is characterized in that the reference signal is synchronization signal block SS Blcok and/or channel state information reference signals CSI-RS.