CN108282794A - A kind of measurement method, apparatus and system - Google Patents

Abstract

This application discloses a kind of measurement method, apparatus and systems, are applied to field of communication technology, can solve the problem of to send the time point of synchronizing signal and the different measurement failure for leading to terminal device to cell portion in each cell.This method includes the information that first network side apparatus obtains the first signal, and the information of first signal is used to indicate terminal device detection and/or measures the gap of first signal for configuring gap information, the gap information；The first network side apparatus sends configuration message to the terminal device, and the information of first signal and/or the gap information are carried in the configuration message.

Description

A kind of measurement method, apparatus and system

Technical field

This application involves field of communication technology more particularly to a kind of measurement method, apparatus and systems.

Background technology

In field of communication technology, a user equipment (User Equipment, UE) is typically only capable to receive in synchronization The signal of one cell, when UE receive its serving cell send data during, if necessary to other cells carry out When the measurements such as different-frequency measure or isosystem measurement operate, in order to ensure that the radio link quality of UE and current service cell, UE are logical Often section, the signal for stopping the signal and data that receive its serving cell, and receiving other cells carry out different at the appointed time Frequency measures or isosystem measurement.After the period, UE starts to receive the signal and data of serving cell again.This when Between section be known as gap (GAP).UE first detects the synchronizing signal of other cells in gap, with the synchronizing signal of other cells and Other cells obtain synchronization, then carry out measurement of correlation to the reference signal that other cells are sent, to complete to other cells It measures.

In traditional long term evolution (Long Term Evolution, LTE), two kinds of fixed gap patterns are defined Type (Gap Pattern Type), it is another one is when 6 milliseconds a length of, the gap pattern that the period is 40 milliseconds in gap A length of 6 milliseconds when being gap, the period is 80 milliseconds of gap pattern.Since each cell sends the time point of synchronizing signal It is identical, is sent for the period with 5 milliseconds, therefore, the duration in gap is set as 6 milliseconds, it can be ensured that UE is in each gap It is interior to receive a synchronizing signal.When UE needs to carry out different-frequency measure or isosystem measurement to other cells, base station can With by configuring message by gap pattern type and and determining that for UE, the parameter (gapOffset) of the initial position in gap is sent To UE, so that UE determines initial position and the period in gap, and then measured in determining each gap.

However, in the evolution system of LTE, such as in following 5G systems, cell distribution will be more and more intensive, each The time point that cell sends synchronizing signal may and differ, if the gaps that indicate still according to above two gap pattern UE into Row measures, and will be unable to ensure the synchronizing signal that UE can detect other cells in the gap of both gap pattern instructions, Fail so as to cause measuring.

Invention content

This application provides a kind of measurement method, apparatus and systems, to solve when each cell sends synchronizing signal Between put and it is different in the case of, the problem of causing terminal device to fail the measurement of cell portion.

In a first aspect, this application provides a kind of measurement method, this method includes：First network side apparatus obtains the first letter Number information, the information of first signal is used to indicate terminal device detection for configuring gap information, the gap information And/or measure the gap of first signal；The first network side apparatus sends configuration message to the terminal device, described The information of first signal and/or the gap information are carried in configuration message.

Based on measurement method provided by the present application, by the information of the first signal to be measured and/or to be detected, configuration is used The gap information for detecting and/or measuring the gap of first signal in instruction terminal equipment, thereby may be ensured that terminal device The gap information instruction gap on can receive first signal so that terminal device can successful probe and/or The first signal is measured, to solve to send the time point of the first signal and different, terminal device pair in each cell The problem of measurement failure of cell portion.

In one possible implementation, first signal includes the described same of the second network side equipment transmission The reference signal that signal and/or second network side equipment are sent is walked, the first network side apparatus obtains the first letter Number information, including：The first network side apparatus is by the interface between second network side equipment, from described second Network side equipment obtains the information of first signal；Alternatively, the first network side apparatus obtains institute from network management device State the information of the first signal.

In one possible implementation, carried in the configuration message gap information or the gap information and The information of first signal, before the first network side apparatus sends configuration message to the terminal device, the method Further include：Gap information described in information configuration of the first network side apparatus according to first signal.

In one possible implementation, the first network side apparatus is according to the information configuration institute of first signal Before stating gap information, the method further includes：The first network side apparatus receives the measurement energy that the terminal device is sent Force information, the measurement capability information are used to indicate the measurement capability of the terminal device, including RF capabilities and/or support band Wide ability；Gap information described in information configuration of the first network side apparatus according to first signal, including：Described One network side equipment determines the gap information according to the information and the measurement capability information of first signal.

In this possible realization method, the configuration of first network side apparatus is matched with the measurement capability of the terminal device Gap information is measured for terminal device, to improve the success rate of measurement.

In one possible implementation, the first network side apparatus is according to the information configuration institute of first signal Gap information is stated, including：The first network side apparatus configures and J2 type of service pair according to the information of first signal The J gap information answered, J2 >=1, J2 are integer；The J2 type of service and the J are also carried in the configuration message The correspondence of gap information.

In this possible realization method, first network side apparatus is by configuring gap corresponding with different service types Information carries out so that terminal device can select the second gap information corresponding with the type of service of the terminal current transmission It measures, to improve the success rate of measurement.

In one possible implementation, the corresponding priority letter of J gap information is also carried in the configuration message Breath.

In this possible realization method, network side equipment by configuring the gap informations of J different priorities, or The gap informations of more set different priorities, so that terminal device can select one or a set of meeting its alternative condition, it is excellent The first highest gap information of grade, measures, to improve the success rate of measurement.

In one possible implementation, the information of first signal is carried in the configuration message, described first After network side equipment sends configuration message to the terminal device, the method further includes：The first network side apparatus connects Receive the gap information that the terminal device is sent；Between the first network side apparatus is described in gap information instruction In gap, stop to the terminal device transmission data.

In this possible design, when by terminal equipment configuration gap information, terminal device is by by gap information It is sent to first network side apparatus so that first network side apparatus stops in the gap that gap information indicates to terminal device Transmission data, to avoid the data transmitted between terminal device and first network side apparatus from packet loss occur.

In one possible implementation, the first network side apparatus to the terminal device send configuration message it Before, the method further includes：The first network side apparatus obtains configuration information from second network side equipment；The configuration Message also carries the configuration information.

Second aspect, the application provide a kind of measurement method, and this method includes：Terminal device obtains gap information, described Gap information is the information resources information configuration according to the first signal, and the gap information is used to indicate the terminal device and visits Survey and/or measure the gap of first signal；The terminal device is visited in the gap indicated by the gap information Survey and/or measure first signal.

Based on measurement method provided by the present application, by the information of the first signal to be measured and/or to be detected, configuration is used The gap information for detecting and/or measuring the gap of first signal in instruction terminal equipment, thereby may be ensured that terminal device The gap information instruction gap on can receive first signal so that terminal device can successful probe and/or The first signal is measured, to solve to send the time point of the first signal and different, terminal device pair in each cell The problem of measurement failure of cell portion.

In one possible implementation, the terminal device obtains gap information, including：The terminal device receives The configuration message that first network side is sent, the configuration message carry the gap information.

In one possible implementation, the precedence information for configuring message and also carrying J gap information, J >= 1, J is integer；The terminal device detects and/or measures first letter in the gap indicated by the gap information Before number, the method further includes：The terminal device is according to preset alternative condition and the precedence information, from the J Determine that the first gap information, first gap information are highest priority and meet the alternative condition in a gap information Gap information；The terminal device detects and/or measures first letter in the gap indicated by the gap information Number, including：The terminal device detects and/or measures described first in the gap indicated by first gap information Signal.

In this possible realization method, network side equipment by configuring the gap informations of J different priorities, or The gap informations of more set different priorities, so that terminal device can select one or a set of meeting its alternative condition, it is excellent The first highest gap information of grade, measures, to improve the success rate of measurement.

In one possible implementation, J2 type of service and J gap information are also carried in the configuration message Correspondence, J2 >=1, J2 are integer；The terminal device detected in the gap indicated by the gap information and/ Or before measuring first signal, the method further includes：The terminal device according to the correspondence determine with it is described Corresponding second gap information of type of service of terminal current transmission；Institute of the terminal device indicated by the gap information It states in gap and detects and/or measure first signal, including：The terminal device is indicated by second gap information First signal is detected and/or measured in gap.

In this possible realization method, first network side apparatus is by configuring gap corresponding with different service types Information carries out so that terminal device can select the second gap information corresponding with the type of service of the terminal current transmission It measures, to improve the success rate of measurement.

In one possible implementation, the information of first signal is also carried in the configuration message；The end End equipment detects and/or measures first signal in the gap indicated by the gap information, including：The terminal Equipment is in the gap indicated by the gap information, described in the information detection of first signal and/or measurement First signal.

In one possible implementation, the terminal device obtains gap information, including：The terminal device receives The configuration message that first network side apparatus is sent, the configuration message carry the information of first signal；The terminal device According to gap information described in the information configuration of first signal.

In one possible implementation, gap described in information configuration of the terminal device according to first signal After information, the terminal device detects and/or measures first letter in the gap indicated by the gap information Before number, the method further includes：The terminal device sends the gap information to the first network side apparatus, so that The first network side apparatus stops in the gap that the gap information indicates to the terminal device transmission data.

In this possible design, when by terminal equipment configuration gap information, terminal device is by by gap information It is sent to first network side apparatus so that first network side apparatus stops in the gap that gap information indicates to terminal device Transmission data, to avoid the data transmitted between terminal device and first network side apparatus from packet loss occur.

In one possible implementation, the configuration message also carries configuration information；The terminal device is described First signal is measured in the gap indicated by gap information, including：The terminal device is according to the configuration information Determine the transmission position of first signal；The terminal device is in the gap indicated by second gap information, First signal is measured in the transmission position.

The third aspect, the application provide a kind of network side equipment, including：Acquiring unit, the letter for obtaining the first signal The information of breath, first signal is used to indicate terminal device detection and/or surveys for configuring gap information, the gap information Measure the gap of first signal；Transmission unit is taken for sending configuration message to the terminal device in the configuration message The information and/or the gap information of first signal with acquiring unit acquisition.

In one possible implementation, first signal that the acquiring unit obtains includes second network The reference signal that the synchronizing signal and/or second network side equipment that side apparatus is sent are sent, the acquisition are single Member, is specifically used for through the interface between second network side equipment, and described the is obtained from second network side equipment The information of one signal, alternatively, obtaining the information of first signal from network management device.

In one possible implementation, the gap letter is carried in the configuration message that the transmission unit is sent The information of breath or the gap information and first signal, the network side equipment further includes dispensing unit, and the configuration is single Member, for before the transmission unit sends configuration message to the terminal device, being matched according to the information of first signal Set the gap information.

In one possible implementation, the network side equipment further includes receiving unit, and the receiving unit is used for Before the gap information described in information configuration of the dispensing unit according to first signal, receives the terminal device and send Measurement capability information, the measurement capability information is used to indicate the measurement capability of the terminal device, including RF capabilities and/ Or support the ability of bandwidth；The dispensing unit is specifically used for being believed according to the information of first signal and the measurement capability Breath determines the gap information.

In one possible implementation, the dispensing unit is specifically used for the information according to first signal, matches J gap information corresponding with J2 type of service is set, J2 >=1, J2 are integer；The configuration that the transmission unit is sent disappears The correspondence of the J2 type of service and the J gap information is also carried in breath.

In one possible implementation, J gap is also carried in the configuration message that the transmission unit is sent The corresponding precedence information of information.

In one possible implementation, first letter is carried in the configuration message that the transmission unit is sent Number information, the network side equipment further includes receiving unit, the receiving unit, for the first network side apparatus receive The gap information that the terminal device is sent；The transmission unit, between being additionally operable to described in gap information instruction In gap, stop to the terminal device transmission data.

In one possible implementation, the acquiring unit is additionally operable to set to the terminal in the transmission unit Before message is set in preparation delivery, configuration information is obtained from second network side equipment；Described the matching of the transmission unit transmission It sets message and also carries the configuration information.

The technique effect of network side equipment provided by the present application may refer to each of above-mentioned first aspect or first aspect The technique effect of realization method, details are not described herein again.

Fourth aspect, the application provide a kind of terminal device, including：Acquiring unit, it is described for taking gap information Gap information is the information resources information configuration according to the first signal, and the gap information is used to indicate detection and/or measurement The gap of first signal；Measuring unit, indicated by the gap information for obtaining in the acquiring unit described in First signal is detected and/or measured in gap.

In one possible implementation, the acquiring unit is specifically used for receiving the configuration that first network side is sent Message, the configuration message carry the gap information.

In one possible implementation, the configuration message that the acquiring unit receives also carries J gap letter The precedence information of breath, J >=1, J are integer, and the terminal device further includes determination unit, the determination unit, in institute It states before measuring unit detects and/or measure first signal in the gap indicated by the gap information, according to Preset alternative condition and the precedence information determine the first gap information, between described first from the J gap information Gap information is highest priority and meets the gap information of the alternative condition；The measuring unit is specifically used for described the First signal is detected and/or measured in the gap indicated by one gap information.

In one possible implementation, J2 business is also carried in the configuration message that the acquiring unit receives The correspondence of type and J gap information, J2 >=1, J2 are integer, and the terminal device further includes determination unit, described true Order member, for detecting and/or measuring described the in the gap indicated by the gap information in the measuring unit Before one signal, determine that the second gap corresponding with the type of service of terminal current transmission is believed according to the correspondence Breath；The measuring unit, specifically for detecting and/or measuring described first in the gap indicated by second gap information Signal.

In one possible implementation, the information of first signal is also carried in the configuration message；The end End equipment detects and/or measures first signal in the gap indicated by the gap information, including：The terminal Equipment is in the gap indicated by the gap information, described in the information detection of first signal and/or measurement First signal.

In one possible implementation, the acquiring unit is specifically used for receiving what first network side apparatus was sent Message is configured, the configuration message carries the information of first signal, and according to described in the information configuration of first signal Gap information.

In one possible implementation, the terminal device further includes transmission unit, the transmission unit, is used for After gap information described in information configuration of the acquiring unit according to first signal, in the measuring unit between described Before detecting in the gap indicated by gap information and/or measure first signal, sent out to the first network side apparatus The gap information is sent, so that the first network side apparatus stops in the gap that the gap information indicates to institute State terminal device transmission data.

In one possible implementation, the configuration message that the acquiring unit receives, which also carries, matches confidence Breath；The measuring unit, specifically for determining the transmission position of first signal according to the configuration information, and in institute It states in the gap indicated by the second gap information, first signal is measured in the transmission position.

The technique effect of terminal device provided by the present application may refer to each reality of above-mentioned second aspect or second aspect The technique effect of existing mode, details are not described herein again.

In conjunction with the either side of above-mentioned first aspect to fourth aspect, in one possible implementation, described first Signal includes at least one of following signals：The synchronizing signal of the first network side apparatus transmission, the first network side The synchronizing signal for the reference signal, second network side equipment transmission that equipment is sent and second network side equipment The reference signal sent.

In one possible implementation, the number of the gap information is J, and J >=1, J are integer.

In one possible implementation, the configuration mode of the J1 gap information in J gap information is following Any one in three kinds, 1≤J1≤J, J are integer.

Mode one：The J1 gap information includes at least one of following information：Believe with the J1 gap Cease corresponding label or mark, the information of N number of first gap pattern, the first measurement pair corresponding with the J1 gap information In the information of image information, measuring signal type corresponding with the J1 gap information and N number of first gap pattern In the N1 corresponding second measurement object information of information of the first gap pattern and the information of N number of first gap pattern Relationship between the information of N2 the first gap patterns, N >=1, N are integer, and 1≤N1≤N, N1 are integer, and 1≤N2≤N, N2 are Integer.

The information of the second gap pattern of each of the information of N number of first gap pattern include in following information extremely Few one kind：The label or mark of first gap pattern, the period of first gap pattern, first gap pattern The number in period, the first duration of first gap pattern, the first overall measurement duration of first gap pattern, institute It states and first in the first overall measurement duration effectively measures duration, the first start bit of first gap pattern is set, with described the The corresponding third measurement object information of one gap pattern and measuring signal type corresponding with first gap pattern.

Mode two：The J1 gap information includes at least one of following information：Believe with the J1 gap Cease corresponding label or mark, the period 1, the period 1 number, with the J1 gap information corresponding second Second in overall measurement duration, the second overall measurement duration effectively measures duration, corresponding with the J1 gap information 4th measurement object information, measuring signal type corresponding with the J1 gap information, the M in the period 1 the It is the information of two gap patterns, corresponding with the M1 information of the second gap pattern in the information of the M the second gap patterns Between the information of M2 the second gap patterns in 5th measurement object information and the information of the M the second gap patterns Relationship, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are integer.

The information of the second gap pattern of each of the information of the M the second gap patterns include in following information extremely Few one kind：Second duration of second gap pattern, the second initial position of second gap pattern, with described the The corresponding 6th measurement object information of two gap patterns, measuring signal type corresponding with second gap pattern.

Mode three：The J1 gap information includes at least one of following information：Believe with the J1 gap Cease corresponding label or mark, second round, the number of the second round, third corresponding with the J1 gap information Third in overall measurement duration, the third overall measurement duration effectively measures duration, corresponding with the J1 gap information Between 7th measurement object information, measuring signal type corresponding with the J1 gap information, the X in the second round The information of gap pattern group, the corresponding with the information of X1 gap pattern group in the information of the X gap pattern group the 8th survey Relationship between the information of X2 gap pattern group in the information of amount object information and the X gap pattern group, X >=1, X is integer, and 1≤X1≤X, X1 are integer, and 1≤X2≤X, X2 are integer.

The information of each gap pattern group in the information of the X gap pattern group includes at least one in following information Kind：The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern group K in corresponding 9th measurement object information, measuring signal type corresponding with the gap pattern group, the gap pattern group The information of third space pattern, the whether continuous information of K third space pattern and the K third space pattern The corresponding tenth measurement object information of information of K1 third space pattern in information and the K third space pattern Relationship between the information of K2 third space pattern in information, K >=1, K are integer, and 1≤K1≤K, K1 are integer, 1≤K2 ≤ K, K2 are integer.

The information of each gap pattern in the information of the K third space pattern includes at least one in following information Kind：4th duration of the third space pattern, the third space pattern fourth beginning position and the third between The corresponding 11st measurement object information of gap pattern and measuring signal type corresponding with the third space pattern.

Wherein, the information of a second gap pattern of the relationship between the information of the N2 the first gap patterns, the M2 Between relationship, the information of the relationship between the information of the X2 gap pattern group and the K2 third space pattern it Between relationship respectively include at least one of following relationship：In relativeness, spatial domain in temporal relativeness, frequency Relativeness, the relativeness in code domain and acquiescence pattern and adapt to pattern between relativeness；

The first measurement object information, the second measurement object information, the third measurement object information, described Four measurement object information, the 5th measurement object information, the 6th measurement object information, the 7th measurement object letter Breath, the 8th measurement object information, the 9th measurement object information, the tenth measurement object information and the described tenth Each measurement object information in one measurement object information respectively includes at least one of following information：Beam information, wave beam Group information, TRP information, TRP group informations, cell information, cell group information, frequency information, frequency group information, carrier information, load Wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information and radio access network information.

In one possible implementation, the information of first signal includes the sending time letter of first signal It ceases, sends the subcarrier spacing information used when first signal, modulation and coding strategy, sends diversity, corresponding wave beam Value information, antenna port information, multiplex mode, the sequence type of first signal, first signal sequence length, One or more of the sequential labeling or mark of first signal and the repetitive mode of sequence of first signal are believed Breath；Wherein, the transmission time information includes absolute time information, sending cycle and the offset for sending first signal One or more of information.

In one possible implementation, first signal is synchronizing signal, and the transmission time information includes hair It is period that synchronizing signal cluster where sending the absolute resource time information of the synchronizing signal, the synchronizing signal is closed, described same The period of offset, synchronizing signal place synchronizing signal group that synchronizing signal cluster where walking signal is closed, the synchronous letter Where the period of synchronizing signal block where the offset, the synchronizing signal of synchronizing signal group where number and the synchronizing signal One or more of offset information.

In one possible implementation, the configuration information include with the terminal device where serving cell when Between offset, with the frequency offset of the serving cell, the frequency point for sending first signal carrier wave interval, with it is first small The time offset in area and with one or more of the frequency offset of first community information.

5th aspect, present invention also provides a kind of network side equipments, including：Processor, memory and transceiver；It is described Processor can execute the program stored in the memory or instruction, to realize with the various realization method institutes of first aspect State measurement method.

The technique effect of network side equipment provided by the present application may refer to each of above-mentioned first aspect or first aspect The technique effect of realization method, details are not described herein again.

6th aspect, present invention also provides a kind of terminal devices, including：Processor, memory and transceiver；The place Reason device can execute the program stored in the memory or instruction, to realize with described in the various realization methods of first aspect Measurement method.

The technique effect of terminal device provided by the present application may refer to each reality of above-mentioned second aspect or second aspect The technique effect of existing mode, details are not described herein again.

7th aspect, present invention also provides a kind of storage medium, which can have program stored therein, the journey Sequence can be realized when executing including step some or all of in each embodiment of measurement method provided by the present application.

Eighth aspect, the application also provide a kind of communication system, include any realization such as the third aspect or the third aspect Network side equipment and fourth aspect described in mode or the terminal device described in any realization method of fourth aspect；Alternatively, packet Terminal device as described in including in terms of the network side equipment and the 6th as described in terms of the 5th.

Description of the drawings

Fig. 1 is the structural schematic diagram of communication system provided by the present application；

Fig. 2 is a kind of structural schematic diagram one of network side equipment provided by the present application；

Fig. 3 is a kind of structural schematic diagram one of terminal device provided by the present application；

Fig. 4 is a kind of flow chart one of one embodiment of measurement method provided by the present application；

Fig. 5 is multi-beam schematic diagram of a scenario provided by the present application；

Fig. 6 is a kind of schematic diagram one of gap pattern provided by the present application；

Fig. 7 is a kind of schematic diagram two of gap pattern provided by the present application；

Fig. 8 is a kind of schematic diagram three of gap pattern provided by the present application；

Fig. 9 is a kind of flowchart 2 of one embodiment of measurement method provided by the present application；

Figure 10 is a kind of flow chart one of another embodiment of measurement method provided by the present application；

Figure 11 is a kind of flowchart 2 of another embodiment of measurement method provided by the present application；

Figure 12 is a kind of flow chart 3 of one embodiment of measurement method provided by the present application；

Figure 13 A are a kind of structural schematic diagram two of network side equipment provided by the present application；

Figure 13 B are a kind of structural schematic diagram three of network side equipment provided by the present application；

Figure 13 C are a kind of structural schematic diagram four of network side equipment provided by the present application；

Figure 14 A are a kind of structural schematic diagram two of terminal device provided by the present application；

Figure 14 B are a kind of structural schematic diagram three of terminal device provided by the present application；

Figure 14 C are a kind of structural schematic diagram four of terminal device provided by the present application.

Specific implementation mode

First, the terms " system " and " network " are often used interchangeably herein., character "/" herein, one As indicate forward-backward correlation object be a kind of relationship of "or".The terms "and/or", only a kind of description affiliated partner Incidence relation indicates may exist three kinds of relationships, for example, A and/or B, can indicate：Individualism A exists simultaneously A and B, single Solely there are these three situations of B.

In addition, term " comprising " and " having " and their any deformations, it is intended that cover and non-exclusive include.Such as It contains the step of process, method, system, product or the equipment of series of steps or unit is not limited to list or list Member, but further include the steps that optionally not listing or unit, or further include optionally for these processes, method, product Or the other steps or unit that equipment is intrinsic.

Secondly, measurement method provided by the present application can be adapted for LTE system, senior long term evolution (LTE advanced, LTE-A) or other wireless communication systems for using various wireless access technologys, for example, by using CDMA, frequency division multiple access, when Divide multiple access, orthogonal frequency division multiple access, the system of the access technologies such as single-carrier frequency division multiple access.Further, it is also possible to suitable for using LTE systems It unites subsequent evolution system, such as the 5th generation 5G system.

As shown in Figure 1, it includes network side equipment and at least one that data transmission method provided by the present application, which can be applied to, In the communication system of terminal device.Wherein, the terminal device involved by the application may include various with wireless communication work( Can handheld device, mobile unit, wearable device, computing device or be connected to other processing of radio modem and set It is standby, household electrical appliance, Medical Devices, industrial devices, communication node and various forms on agriculture device or air equipment etc. User equipment (User Equipment, abbreviation UE), mobile station (Mobile station, abbreviation MS), terminal (terminal), terminal device (Terminal Equipment) etc..It is above-mentioned to set in the application for convenience of description It is standby to be referred to as terminal device.Network side equipment involved by the application can be one kind be deployed in wireless access network to for Terminal device provides the device of wireless communication function.Such as can be base station (base station, abbreviation BS), including various shapes The macro base station of formula, micro-base station, relay station, controller, access point etc., in the system using different wireless access technologys, The title for having the equipment of base station functions may be different, such as in the lte networks, referred to as the node B of evolution (evolved NodeB are referred to as：ENB or eNodeB), in third generation 3G network, referred to as node B (Node B), or application Can also be other similar network equipments in the communication node etc. in the 5th generation communication system or for D2D communications.Net Network side apparatus, which can also be, sends and receives node (transmission and reception point, TRP), the knot of TRP Structure can be the structure of base station, can also be including at far-end RF module (Remote Radio Unit, RRU), indoor base band The structure for managing unit (Building Baseband Unit, BBU) and antenna-feeder system, can also only include radio frequency and aerial system The structure of system.

Illustratively, as shown in Fig. 2, being a kind of structural schematic diagram of network side equipment provided by the present application, may include RRU, BBU and antenna-feeder system.

Wherein, RRU includes data intermediate frequency module, Transceiver Module, power amplifier and filter module.Data intermediate frequency module is used for Modulation /demodulation, Digital up and down convert, A/D conversions of optical transport etc., Transceiver Module completes intermediate-freuqncy signal to radiofrequency signal Transformation；Using power amplifier and filter module, radiofrequency signal is launched by antenna opening.BBU for complete channel coding/decoding, The functions such as modulation /demodulation, the protocol processes of baseband signal, while the interface function with upper layer network element being provided, and complete physical layer OFDM/MIMO processing in the processing procedure of core technology, such as CDMA and LTE in 3G.Antenna-feeder system includes mainly antenna, It can also include coupler, splitter etc., be used for the data transmission between other network elements, such as terminal device, with RRU.

As shown in figure 3, be a kind of structural schematic diagram of terminal device provided by the present application, including processor, memory with And RF circuits etc..

Wherein, processor is the control centre of the terminal device, utilizes various interfaces and the entire terminal device of connection Various pieces, by running or execute the software program and/or module that are stored in memory, and call and be stored in storage Data in device execute the various functions and processing data of terminal device, to carry out integral monitoring to terminal device.Processor May include digital signal processor device, microprocessor device, analog-digital converter, digital analog converter etc., these equipment energy Enough control and the signal processing function of distribution terminal equipment according to respective ability.RF circuits can be used for receiving and sending messages, and will The information received gives processor processing.In general, RF circuits include but not limited to antenna, at least one amplifier, transceiver, Coupler, LNA (low noise amplifier, low-noise amplifier), duplexer etc., by radio communication with network and its He communicates equipment.Wherein, which can use any communication standard or agreement, including but not limited to global system for mobile telecommunications System (global system of mobile communication, GSM), general packet radio service (general Packet radio service, GPRS), CDMA (code division multiple access, CDMA), broadband CDMA (wideband code division multiple access, WCDMA), LTE (long term Evolution, long term evolution), Wi-Fi or low-power consumption Wi-Fi and WLAN technology etc..

Based on above-mentioned communication system shown in FIG. 1, referring to Fig. 4, for one embodiment of measurement method provided by the present application Flow chart, this method comprises the following steps：

Step 401, first network side apparatus obtains the information of the first signal, and the information of first signal is for configuring gap Information, the gap information are used to indicate the gap that terminal device measures first signal.

One or more cells under the first network side apparatus are the serving cell of the terminal device.The application does not limit One terminal device has the scene connecting with one or more cells under multiple network equipments.For example, network side equipment 1 and net One or more cells under network side apparatus 2 are all the serving cell of the terminal device, i.e. network side equipment 1 and network side equipment 2 be the first network side apparatus involved by the application.

Serving cell in the application is applied to following at least one scene：

The cell of service is provided for the terminal device, has the cell of signaling and/or data interaction, free time with the terminal device State or third state (inactive state inactive state) terminal device is resident cell and the preservation of (camp on) The cell of the context of the terminal device.

First signal may include carrying out common frequency measurement, different-frequency measure and/or alien frequencies systematic survey for terminal device Can also include that terminal device carries out Time and Frequency Synchronization, acquisition cell ID information etc. for small etc. a series of signals for measuring operation Area searching (cell search) or the signal of cell detection (detect cell).For example, first signal includes following signals At least one of：The synchronizing signal that first network side apparatus is sent is (for example, primary synchronization signal ((Primary Synchronization Signal, PSS) and secondary synchronization signal (Secondary Synchronization Signal, SSS the synchronizing signal and the second network side of reference signal, the transmission of the second network side equipment that)), first network side apparatus is sent The reference signal that equipment is sent.

Second network side equipment can deployment adjacent with first network side apparatus one or more network side equipment. Multiple cells under second network side equipment are the adjacent area of the serving cell of the terminal.

Wherein, the synchronizing signal that first network side apparatus is sent may include first network side apparatus in the first network side Under one or more cells in send synchronizing signal.Similarly, the reference signal that first network side apparatus is sent may include the One network side equipment sends reference signal in one or more cells under the first network side, the second network side equipment is sent Synchronizing signal may include that the second network side equipment sends synchronous letter in one or more cells under second network side Number, the reference signal that the second network side equipment is sent may include the second network side equipment one under second network side or Reference signal is sent in multiple cells.

Reference signal can include but is not limited to newly eat dishes without rice or wine reference signal (New Radio-reference signal, NR- RS), cell special reference (Cell-specific reference signals C-RS), demodulated reference signal (demodulation reference signal, DM-RS), channel state information reference signals (channel status Information reference signal, CSI-RS), beam signal (Beam signal, BS) and beam reference signal One or more signals in (Beam-reference signal, B-RS).

When the first signal includes the synchronizing signal that first network side apparatus is sent and/or the ginseng that first network side apparatus is sent When examining signal, first network side apparatus can obtain the place of storage from the memory module of the first network side apparatus.

When the first signal includes that the synchronizing signal that second network side equipment is sent and/or the second network side equipment are sent Reference signal when, first network side apparatus can be set by the interface between the second network side equipment from the second network side The standby information for obtaining first signal；Alternatively, first network side apparatus can obtain first signal from network management device Signal.

Wherein, the interface between first network side apparatus and the second network side equipment can be first network side apparatus and Wireline interface between two network side equipments, for example, X2 interface, S1 interfaces, ng interfaces etc. can also be first network side apparatus With the wireless interface between the second network side equipment, such as OTA mouthfuls.

Network management device can be operation management maintainance (Operation Administration and Maintenance, OAM) device.In this example, is sent in each cell of the network side equipment under the network side equipment It is configured by network management device using information when one signal.So, network management device is for by multiple networks of its management It, can will be each after the information of the first signal has been respectively configured in side apparatus (including first network side apparatus and second network side equipment) The information of first signal of a network side equipment is sent to each network side equipment.

In this application, the information of the first signal can include but is not limited to the transmission time information of first signal, hair Give subcarrier spacing (frequency separation) information, modulation and the coding strategy used when first signal (Modulation and Coding Scheme, MCS), send diversity, the value information of corresponding wave beam, antenna port information, The sequence type of first signal, the sequence length of first signal, the sequential labeling of first signal or mark and this One or more of the repetitive mode of sequence of one signal information.

Wherein, which includes absolute time information, sending cycle and the offset for sending first signal One or more of amount information.Antenna port information may include：It is used when sending each synchronizing signal and/reference signal The information of antenna port, and be used to indicate multiple synchronizing signals and/or multiple reference signals send when whether use it is identical Antenna port information.

Terminal device can determine the transmission position of the first signal according to the information of the first signal, can also be according to the first letter Number information be properly received and decode except the information in the first signal.

In one example, when first signal is synchronizing signal, in multi-beam scene, which can be with Including sending the absolute resource time information of the synchronizing signal, synchronizing signal place synchronizing signal cluster closes (SS burst The offset in period, the synchronizing signal cluster conjunction of synchronizing signal place set), synchronizing signal place synchronizing signal group (SS The offset in period, synchronizing signal place synchronizing signal group burst), synchronizing signal place synchronizing signal block (SS Block one or more of offset information where period) and the synchronizing signal.

Illustratively, as shown in figure 5, being a kind of schematic diagram of multi-beam scene provided by the present application.Such as (1) in Fig. 5 Shown, base station or control node control TRP1 and TRP2, and TPR1 includes 10 wave beams, respectively 0~wave beam of wave beam 9, TPR2 Including 10 wave beams, respectively 10~wave beam of wave beam 19.By taking 0~wave beam of wave beam 9 of TPR1 this 10 wave beams as an example, in Fig. 5 (2) shown in, the synchronizing signal (including SSS and PSS) that is sent on 0~wave beam of wave beam 9 of TPR1 constitutes a synchronizing signal group Set 1, the every polled transmission primary time of 0~wave beam of wave beam 9 are the period that synchronizing signal cluster closes 1.0~wave beam of wave beam 9 3 synchronizing signal groups, respectively synchronizing signal group 11,12 and 13 are divided into, i.e. three synchronizing signal groups constitute synchronous letter for this Number cluster closes 1.Wherein, synchronizing signal group 11 is made of the synchronizing signal sent on wave beam 1, wave beam 2 and wave beam 3, synchronous letter Number group 12 is made of the synchronizing signal sent on wave beam 4, wave beam 5 and wave beam 6, and synchronizing signal group 13 is by wave beam 7, wave beam 8, wave The synchronizing signal composition sent on beam 9 and wave beam 10.The synchronizing signal sent on each wave beam constitutes a synchronizing signal Block.I.e. synchronizing signal group 11 is made of synchronizing signal block 111,112 and 113.

Step 402, first network side apparatus is according to the information configuration gap information of the first signal.

First network side apparatus can have J according to the gap information of the information configuration of the first signal, and J >=1, J are integer, I.e. first network side apparatus can be according to the information configuration 1 of the first signal or more than one gap information.

In one example, each gap information in J gap information can be according in following three kinds of configuration modes Any one configuration mode configured.Below with the J1 (1≤J1≤J, J are integer) in the J gap information it is a between For gap information, following three kinds of configuration modes are illustratively illustrated.

Mode one：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, the information of N number of first gap pattern are believed with the J1 gap Cease corresponding first measurement object information, measuring signal type corresponding with the J1 gap information and N number of first gap figure The corresponding second measurement object information of information and N number of first gap figure of N1 the first gap patterns in the information of sample Relationship between the information of N2 in the information of sample the first gap patterns, N >=1, N are integer, and 1≤N1≤N, N1 are integer, 1 ≤ N2≤N, N2 are integer.

The information of the first gap pattern of each of information of N number of first gap pattern include in following information at least It is a kind of：

The label or mark of the first gap pattern, the period of the first gap pattern, the first gap pattern period Number, the first duration of the gap pattern, the first overall measurement duration of the first gap pattern, the one the first total survey The first start bit of first effective measurement duration, the first gap pattern in amount duration sets, is corresponding with the first gap pattern Third measurement object information and measuring signal type corresponding with the first gap pattern.

In this application, by the first different gap patterns configured in gap information survey is executed come instruction terminal equipment Measure the different gap of operation, the number in the gap indicated by the pattern of each first gap and period where the first gap pattern Number is identical.

So, in mode one, the first duration is the duration in a gap indicated by the first gap pattern, The sum of the rhythmic duration of institute of a length of first gap pattern when the first overall measurement.First when effectively measuring it is a length of this between first The sum of the duration in all gaps indicated by gap pattern, first start bit are set in the indicated gap of the first gap pattern The initial time in one gap.Measuring signal type corresponding with the first gap pattern be used to indicate terminal device this first The type for the reference signal for detecting and/or measuring in gap indicated by the pattern of gap, for example, NR-RS, C-RS, CSI-RS, DM-RS and B-RS etc..

Illustratively, as shown in fig. 6, with the 1st in N number of first gap pattern between gap pattern and n-th first For gap pattern, it is assumed that the label of the 1st the first gap pattern is identified as 1 (i.e. the first gap pattern 1), between n-th first The label of gap pattern is identified as n (i.e. the first gap pattern n), then the schematic diagram of the first gap pattern 1 can be as in Fig. 6 (1) shown in, the period of the first gap pattern 1 has 3, i.e., includes 3 gaps 1 for measurement in the first gap pattern 1, First duration of the first gap pattern 1 is the duration in a gap 1 indicated by the first gap pattern 1, this first The sum of the duration in 3 periods of a length of first gap pattern 1 when the first overall measurement of gap pattern 1, the first gap pattern 1 First a length of first gap pattern 1 when effectively measuring indicated by 3 gaps 1 the sum of duration, the first gap pattern 1 First start bit be set to the initial time in first gap 1 in the indicated gap of the first gap pattern 1 (in such as Fig. 6 (1) in A1 identify position).

So the schematic diagram of the first gap pattern n can be as shown in (2) in Fig. 6, and the period of the first gap pattern 2 has 2, i.e. include 2 gaps for measurement in first gap pattern n, the first duration of first gap pattern n is The duration of a gap n indicated by the pattern n of first gap, when the first overall measurement of first gap pattern n it is a length of this The sum of the duration in 2 periods of one gap pattern n, the first of first gap pattern n a length of first gap when effectively measuring The first start bit of the sum of the duration of 2 gap n indicated by pattern n, first gap pattern n is set to the first gap pattern The initial time (position that A2 is identified in (2) in such as Fig. 6) of first gap n in the indicated gap n of n.

In mode one, the information of N number of first gap pattern is configured in the J1 gap information, N number of first gap The period of pattern may be the same or different.Measurement object corresponding to the pattern of each first gap can be identical, can also Difference can have multiple, it is possibility to have one.

Wherein, above-mentioned first measurement object information, the second measurement object information and third measurement object information can divide It Bao Kuo not at least one of following information：

Beam information, wave beam group information, TRP information, TRP group informations, cell information, cell group information, frequency information, frequency It is rate group information, carrier information, carrier wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information, wireless Access network information.

Wherein, above-mentioned first measurement object information, the second measurement object information and third measurement object information can divide Do not include the mark and/or label of measurement object, e.g., cell label (Identity, ID), wave beam label, cell index number (index), beam index number (Index) etc.；Can also be the configuration information of measurement object, such as the bandwidth information of carrier wave, duplex Information.

That is, the gap information in the application, gap drawing information, gap pattern group information can with wave beam, wave beam group, TRP, TRP group, cell, cell group, frequency, group of frequencies, carrier wave, carrier wave set, frequency wireless physical characteristic, frequency wireless physics are special At least one of property group, Radio Access Network granularity is configured.

The corresponding mark of gap information or label of embodiment use herein, that is, a certain inter-species defined in agreement The particular content of gap information, such as the definition of the gap information provided in embodiment, as long as providing gap information in configuring message Corresponding mark or label, then network node and terminal know about specific gap information and define content；

The mark or label of the gap pattern of embodiment use herein, that is, a certain inter-species defined in agreement The particular content of gap pattern, such as the definition of the gap pattern provided in embodiment, as long as providing gap pattern in configuring message Corresponding mark or label, then network node and terminal know about specific gap pattern definition content.Gap in the application, " initial position " of gap pattern and/or gap pattern group can also be used " offset " and/or " absolute in specific design Resource location " defines.

It is understood that the first measurement object information is used to indicate the gap indicated by N number of first gap pattern It is inside both needed to the first measurement object measured, for example, the first measurement object information includes cell information (being assumed to be cell 1) and wave beam Group information (is assumed to be wave beam group 1, which includes wave beam 1,2 and 3), that is, is indicated indicated by N number of first gap pattern Gap be used to measure the wave beam group 1 in cell 1.

Second measurement object information is used to indicate indicated by the N1 in N number of first gap pattern the first gap patterns The second measurement object measured is both needed in gap.For example, it is assumed that the N1 the first gap patterns are the first gap pattern 1 and first The corresponding second measurement object information of information of the two first gap patterns of gap pattern n, the two the first gap patterns is Frequency information (is assumed to be frequency 1), that is, indicates that the gap of the two the first gap pattern instructions is used to survey frequency 1 Amount.

If it is understood that be configured with the first measurement object and the second measurement object in the J1 gap information, then, Gap indicated by first gap pattern 1 and the first gap pattern n is used to carry out the wave beam group 1 in the cell 1 in frequency 1 It measures, other the first gap pattern institutes in N number of first gap pattern in addition to the first gap pattern 1 and the first gap pattern n The gap of instruction is used to measure the wave beam group 1 in cell 1.

Third measurement object information is used to indicate indicated by a first gap pattern in N number of first gap pattern The third object measured is both needed in gap.For example, if the corresponding third measurement object information of the information of the first gap pattern 1 is nothing Line access network information (for example, by using the cell of GSM access technologies), the then gap that the first gap pattern 1 indicates are used to use The cell of GSM access technologies measures.

If (being assumed to be small for another example the corresponding third measurement object information of the information of the first gap pattern 1 is cell information Area 1) and beam information (being assumed to be wave beam 1), then the gap of the first gap pattern 1 instruction be used to the wave beam 1 in cell 1 into Row measures.

Measuring signal type corresponding with the J1 gap information is used to indicate terminal device in N number of first gap pattern Detected in indicated gap and/measure reference signal type.It is understood that when terminal device this N number of the Detected in gap indicated by one gap pattern and/measure reference signal type all same when, then can be in J1 Measuring signal type corresponding with the J1 gap information is configured in a gap information carries out unified instruction.

Further, the relationship between the information of the N2 in the information of N number of first gap pattern the first gap patterns It may include at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain, Give tacit consent to pattern and adapts to the relativeness between pattern.

Illustratively, it is assumed that N2 the first gap patterns are respectively the first gap pattern 1 and the first gap pattern n, if with The first start bit of first gap pattern 1 is set to benchmark, deviates+1 second, the as the first of the first gap pattern n in time On the basis of beginning position, then the relativeness of the first gap pattern 1 and the first gap pattern n in time is+1 second；If with The first start bit of first gap pattern 1 is set to benchmark, and -2 million, the as the first of the first gap pattern n are deviated in frequency Beginning position, then the relativeness of the first gap pattern 1 and the first gap pattern n in frequency is -2 million；If between first The first start bit of gap pattern 1 is set to benchmark, and 3 degree are deviated on spatial domain, and the first start bit of as the first gap pattern n is set, The relativeness of so the first gap pattern 1 and the first gap pattern n on spatial domain is -3 degree；If with the first gap pattern 1 First start bit be set to benchmark, in code domain deviate 2 cyclic shifts (or 2 sequence numbers), as the first gap pattern n First start bit set, then the relativeness of the first gap pattern 1 and the first gap pattern n in code domain be+2 cycle It shifts (or+2 sequence numbers)；If the first gap pattern 1 is acquiescence pattern, the first gap pattern n is adaptability pattern,

In one example, in this application, first network side apparatus can be according to the first signal period, absolute time Between or the information such as offset determine the initial position of the corresponding gap pattern of first signal, and determined according to preset configuration The first duration, period and the number of cycles etc. of each gap pattern.

It is understood that when the information of the first signal of acquisition is the information of multiple signals, for example, the first signal packet When including multiple synchronizing signals and/or reference signal, first network side apparatus can be that each signal determines corresponding first gap Pattern, or multiple signals determine a first shared gap pattern.

It will arrange below as one example, the J1 measurement gap information is configured to first network side apparatus employing mode one.

For example, the first community of the first frequency has 4 wave beams, it is synchronous where the synchronizing signal sent on 4 velocities of wave The period of ensemble set is 0# that the offset that 100ms, the synchronizing signal cluster are closed is 0# (indicate the 0th) radio frames Frame, synchronizing signal cluster conjunction include 2 synchronizing signal groups, respectively synchronizing signal group 1 and synchronizing signal group 2.

It includes 2 synchronizing signals that the initial position of synchronizing signal group 1, which is the 0# subframes of 0# radio frames, synchronizing signal group 1, Block is located at 0#slot (slot a 0.5ms, slot indicate a time slot) and 1#slot, corresponds to first community respectively Wave beam 0 and wave beam 1.

The initial position of synchronizing signal group 2 is the 0# subframes of 1# radio frames, and synchronizing signal group 2 includes 2 synchronizing signals Block, is located at 0#slot and 1#slot, corresponds to the wave beam 2 and wave beam 3 of first community respectively.The synchronizing signal is in 4 waves Transmission position on beam is all located at the frequency location of f0, upper and lower 240kHz*10 (kHz).

The period that first community sends CSI-RS is 10ms, and initial position is the 0# subframes of 0# radio frames, and the CSI-RS Transmission position be all located at the frequency location of f0, upper and lower 240kHz*100 (kHz).

First network side apparatus according to the information of the first signal (including the information of synchronizing signal that sends of first community and The information of CSI-RS), the J1 gap information can be configured to：The period of first gap pattern 1 is 100ms, the first gap The initial position of pattern 1 is the 0# subframes of 0# radio frames, and 1 duration of the first gap pattern is 20ms, and the frequency positioned at f0 Rate position, upper and lower 240kHz*100 (kHz).

The second community of the first frequency has 1 wave beam, same where the synchronizing signal that second community is sent on the wave beam Step ensemble set period be 40ms, the synchronizing signal cluster close offset be 0# radio frames 0# subframes, the synchronization letter The conjunction of number cluster includes 2 synchronizing signal groups：Synchronizing signal group 3 and synchronizing signal group 4.

It includes 2 synchronizing signals that the initial position of synchronizing signal group 3, which is the 1# subframes of 2# radio frames, synchronizing signal group 3, Block is located at 0#slot and 1#slot.

The initial position of synchronizing signal group 4 is the 1# subframes of 3# radio frames, and synchronizing signal group 4 includes 2 synchronizing signals Block, is located at 0#slot and 1#slot, and the transmission position for the synchronizing signal that second community is sent on the wave beam is all located at f0 Frequency location, upper and lower 240kHz*10 (kHz).

The period that second community sends CSI-RS is 5ms, and initial position is the 1# subframes of 0# radio frames, and the CSI-RS Send the frequency location that position is located at f0, upper and lower 240kHz*100 (kHz).

So, illustratively, according to the information of the first signal, (including above-mentioned second community is sent first network side apparatus The information of synchronizing signal and the information of CSI-RS), the second gap pattern 2 in the J1 gap information can be configured to the period For 50ms, the initial position of the second gap pattern 2 is the 1# subframes of 2# radio frames, and the duration of the second gap pattern 2 is 20ms, the second gap pattern 2 are located at the frequency location of f0, upper and lower 240kHz*100 (kHz).

In this way, the position in the J1 indicated gap of gap information configuration, covers above-mentioned first community and sends synchronization Signal, first community send CSI-RS, second community sends synchronizing signal and second community sends the position of CSI-RS, so that It obtains in the indicated gap of the J1 gap information configuration of terminal device, it is synchronous with second community that first community can be detected Signal and CSI-RS.

Mode two：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, period 1, the number of period 1 and the J1 gap Second in the corresponding second overall measurement duration of information, the second overall measurement duration effectively measures duration, believes with the J1 gap Cease corresponding 4th measurement object information, measuring signal type corresponding with the J1 gap information, the M in the period 1 It is the information of second gap pattern, corresponding with the M1 information of the second gap pattern in the information of the M the second gap patterns Pass between the information of M2 the second gap patterns in 5th measurement object information and the information of the M the second gap patterns System, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are integer.

The information of the second gap pattern of each of the information of the M the second gap patterns include in following information at least It is a kind of：

Second duration of the second gap pattern, the second gap pattern the second initial position and this between second The corresponding 6th measurement object information of gap pattern and measuring signal type corresponding with the second gap pattern.

In mode two, it is configured with multiple period 1 in a gap information, M the is provided in each period 1 Two gap patterns, i.e. the period where M the second gap pattern is the period 1, and within each period 1, terminal device It can be executed in M different gaps and measure operation.

Wherein, when the second overall measurement a length of all period 1 the sum of duration, second a length of M second when effectively measuring The sum of the duration in all gaps of gap pattern meaning.Second duration is one indicated by the pattern of corresponding second gap The duration in a gap, the second initial position be the second gap pattern indicated gap in first gap starting when Between.

Illustratively, it is assumed that be configured with two period 1 in the J1 gap information, 3 are configured in each period 1 The information of a second gap pattern, the respectively information of the second gap pattern 3, the information of the second gap pattern 4, the second gap figure The information of sample 5, i.e., as shown in fig. 7, including gap 3, the second gap pattern of the second gap pattern 3 instruction in each period 1 4 instruction gaps 4 and the second gap pattern 5 instruction gap 5, totally 3 for measurement gap.Wherein, such as B1 marks in Fig. 7 The position of knowledge is the second initial position of the second gap pattern 3, i.e. in first gap 3 of the second gap pattern 3 instruction Beginning position, the second duration of the second gap pattern 3 are the duration in a gap 3 indicated by the second gap pattern 3； Position as B2 identifies label or mark in Fig. 7 is the second initial position of the second gap pattern 4, i.e. the second gap pattern 4 The initial position in first gap 4 indicated, the second duration of the second gap pattern 4 is 4 institute of the second gap pattern The duration in the gap 4 indicated；Such as the second initial position that B3 is identified in Fig. 7 position is the second gap pattern 5, i.e., this The initial position in first gap 5 of two gap patterns 5 instruction, the second duration of the second gap pattern 5 be this second The duration in a gap 5 indicated by gap pattern 5.

Further, the 4th measurement object information, the 5th measurement object information and the 6th measurement object in mode two The specific descriptions of information, can be successively referring to the first measurement object information, the second measurement object information and in mode one The associated description of three measurement object information, details are not described herein again.

And the corresponding measuring signal type of the J1 gap information and measurement corresponding with the second gap pattern in mode two The specific descriptions of signal type may refer in mode one pair measuring signal type corresponding with the J1 gap information and with The description of the corresponding measuring signal type of two gap patterns, details are not described herein again.

Further, the relationship between the information of M2 the second gap patterns in the information of the M the second gap patterns Specific descriptions, may refer in mode one to the information of N2 the first gap patterns in the information of N number of first gap pattern Between relationship associated description, details are not described herein again.

It will arrange below as one example, the J1 measurement gap information is configured to first network side apparatus employing mode two.

For example, the third cell when the second frequency has 4 wave beams, the synchronization that third cell is sent on 4 wave beams The period that synchronizing signal cluster where signal is closed is 0# that the offset that 100ms, the synchronizing signal cluster are closed is 0# radio frames Frame, synchronizing signal cluster conjunction includes 2 synchronizing signal groups, respectively synchronizing signal group 3 and synchronizing signal group 4.

It includes 2 synchronizing signals that the initial position of synchronizing signal group 3, which is the 0# subframes of 0# radio frames, synchronizing signal group 3, Block, is located at 0#slot and 1#slot, corresponds to the wave beam 0 and wave beam 1 of third cell respectively；The start bit of synchronizing signal group 4 Set be 1# radio frames 0# subframes.

Synchronizing signal group 3 includes 2 synchronizing signal blocks, is located at 0#slot and 1#slot, and it is small to correspond to third respectively The wave beam 2 and wave beam 3 in area.The synchronizing signal is all located at the frequency location of f1, upper and lower 240kHz*10 (kHz；)

The period that the third cell of second frequency sends CSI-RS is 10ms, and initial position is the 0# subframes of 0# radio frames, The transmission position of the CSI-RS is all located at the frequency location of f1, upper and lower 240kHz*100 (kHz).

4th cell of second frequency has 1 wave beam, is synchronized where the synchronizing signal that the 4th cell is sent on the wave beam The period of ensemble set is 40ms, and the offset which closes is the 0# subframes of 2# radio frames, the synchronizing signal Cluster conjunction includes 2 synchronizing signal groups, is respectively synchronizing signal group 5 and synchronizing signal group 6 respectively.

The initial position of synchronizing signal group 3 is the 1# subframes of 2# radio frames, and synchronizing signal group 3 includes 2 synchronizing signals Block is located at 0#slot and 1#slot.

The initial position of synchronizing signal group 4 is the 1# subframes of 3# radio frames, and synchronizing signal group 3 includes 4 synchronizing signals Block is located at 0#slot, 1#slot, 2#slot and 3#slot, and the synchronizing signal that the 4th cell is sent on the wave beam is all Positioned at the frequency location of f1, upper and lower 240kHz*10 (kHz).

The period that 4th cell sends CSI-RS is 5ms, and initial position is the 1# subframes of 0# radio frames, and the CSI-RS Send the frequency location that position is all located at f1, upper and lower 240kHz*100 (kHz).

So, illustratively, (including above-mentioned third cell is at 4 according to the information of the first signal for first network side apparatus Information, the 4th cell for the CSI-RS that information, the third cell of the synchronizing signal sent on carrier wave are sent are sent on 1 carrier wave Synchronizing signal information and the information of CSI-RS that sends of the 4th cell), the J1 gap information can be configured to, the One period was 50ms, included two the second gap patterns in a cycle, the initial position of a second gap pattern be 0# without The 0# subframes of line frame, gap pattern duration are 20ms；Positioned at the frequency location of f1, upper and lower 240kHz*100 (kHz)； The initial position of another the second gap pattern is the 1# subframes of 2# radio frames, duration 20ms；Positioned at the frequency position of f1 It sets, upper and lower 240kHz*100 (kHz).

In this way, the position in the J1 indicated gap of gap information configuration, covers above-mentioned third cell and sends synchronization Signal, third cell send CSI-RS, the 4th cell sends synchronizing signal and the 4th cell sends the position of CSI-RS, so that It obtains in the indicated gap of the J1 gap information configuration of terminal device, it is synchronous with the 4th cell that third cell can be detected Signal and CSI-RS.

Mode three：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, second round, the number of second round and the J1 gap Third in the corresponding third overall measurement duration of information, third overall measurement duration effectively measures duration and the J1 gap information Corresponding 7th measurement object information, measuring signal type corresponding with the J1 gap information, X gap in second round The information of pattern group, the 8th measurement object corresponding with the information of X1 gap pattern group in the information of X gap pattern group Relationship, X >=1 between information, the information of X2 gap pattern group in the information of X gap pattern group, X is integer, 1≤X1 ≤ X, X1 are integer, and 1≤X2≤X, X2 are integer.

Illustratively, it is assumed that 2 second rounds are configured in the J1 gap information, then third overall measurement duration is The sum of the duration of 2 second rounds.Assuming that including 2 gap pattern groups in each second round, as shown in figure 8, this 2 gaps Pattern group is respectively gap pattern group 1 and gap pattern group 2, and gap pattern group 1 is by third space pattern 6, third space pattern 7 And third space pattern 8 forms, gap pattern group 2 is made of third space pattern 9 and third space pattern 10, i.e., one Gap 6, the gap 7 of the instruction of third space pattern 7 including the instruction of third space pattern 6 in second round, third space pattern 8 The gap 10 that the gap 9 and third space pattern 10 that the gap 8 of instruction, third space pattern 9 indicate indicate, totally 5 are used for The gap that terminal device measures.So, it is carried out for terminal device in a length of all second rounds when third effectively measures The sum of duration in gap of measurement, i.e. third effectively measure the meaning of all third space patterns in all gap pattern groups of duration The sum of the duration in all gaps shown.

7th measurement object information is used to indicate each third space pattern configured in the J1 gap information The 7th measurement object of detection and/measurement is both needed in indicated gap.

It is signified that 8th measurement object information is used to indicate in the X1 gap pattern group each third space pattern The 7th measurement object of detection and/measurement is both needed in the gap shown.

Relationship between the information of the X2 gap pattern group can be include at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain, Give tacit consent to pattern and adapts to the relativeness between pattern.

Further, each gap pattern group in the information of the X gap pattern group configured in the J1 gap information Information include at least one of following information：

The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern group K third in corresponding 9th measurement object information, measuring signal type corresponding with the gap pattern group, the gap pattern group In the information of the information of gap pattern, the whether continuous information of K third space pattern and the K third space pattern K2 in the corresponding tenth measurement object information of information of K1 third space pattern, the information of the K third space pattern Relationship, K >=1 between the information of third space pattern, K are integer, and 1≤K1≤K, K1 are integer, and 1≤K2≤K, K2 are whole Number.

Illustratively, by taking gap pattern group 1 as shown in Figure 8 as an example, the third duration of gap pattern group 1, between being somebody's turn to do The third initial position of gap pattern group 1 is the 1st gap indicated by the 1st the second gap pattern of the gap pattern group 1 Enlighten position, i.e., the initial position (position of C1 marks as shown in Figure 8) in the 1st gap 6.It is corresponding with the gap pattern group 1 The 9th measurement object information be that gap indicated by the second gap pattern 6, space pattern 7 and the second gap pattern 8 is equal It need to detect and/the 9th measurement object, such as wave beam group information etc. that measure.

Second gap pattern 6, space pattern 7 and the second gap pattern 8 are discontinuous, therefore the gap pattern group 1 In 3 whether continuous information of the second gap pattern be to indicate discontinuous information.

The corresponding tenth measurement object information of information of K1 third space pattern, the information of K2 third space pattern it Between relationship, the meaning phase of the relationship between the information of a kind of second measurement object information of mode and N2 the first gap patterns Together, a kind of associated description of mode is specifically may refer to, details are not described herein again.

Further, the information of the second gap of each of information of K third space pattern pattern includes following letter At least one of breath：

4th duration of the second gap pattern, the second gap pattern fourth beginning position and this between second The corresponding 11st measurement object information of gap pattern, measuring signal type corresponding with the second gap pattern.

Illustratively, as shown in figure 8, fourth beginning position of the second gap pattern 6 in gap pattern group 1 is in Fig. 8 The position that C1 is indicated, fourth position of the second gap pattern 7 are the position that C2 is indicated in Fig. 8 beginning, the of the second gap pattern 8 Four initial positions are the position that C3 is indicated in Fig. 8.

The meaning of 11st measurement object information measuring signal type corresponding with the second gap pattern, with mode one kind The meaning of third measurement object information measuring signal type corresponding with the second gap pattern is identical, specifically may refer to mode one The associated description of kind, details are not described herein again.

It will arrange below as one example, the J1 measurement gap information is configured to first network side apparatus employing mode three.

For example, the 5th cell when the second frequency has 4 wave beams, the synchronization that the 5th cell is sent on 4 velocities of wave The period that synchronizing signal cluster where signal is closed is 0# that the offset that 100ms, the synchronizing signal cluster are closed is 0# radio frames Frame, synchronizing signal cluster conjunction includes 2 synchronizing signal groups, respectively synchronizing signal group 1 and synchronizing signal group 2.

It includes 2 synchronizing signals that the initial position of synchronizing signal group 1, which is the 0# subframes of 0# radio frames, synchronizing signal group 1, Block is located at 0#slot and 1#slot, corresponds to the wave beam 0 and wave beam 1 of the 5th cell respectively.

The initial position of synchronizing signal group 2 is the 0# subframes of 1# radio frames, and synchronizing signal group 2 includes 2 synchronizing signals Block is located at 0#slot and 1#slot, corresponds to the wave beam 2 and wave beam 3 of the 5th cell respectively.The synchronizing signal is in 4 waves Transmission position on beam is all located at the frequency location of f1, upper and lower 240kHz*10 (kHz).

The period that 5th cell sends CSI-RS is 10ms, and initial position is the 0# subframes of 0# radio frames, and the CSI-RS Transmission position be all located at the frequency location of f1, upper and lower 240kHz*100 (kHz).

6th cell of the second frequency has 1 wave beam, same where the synchronizing signal that the 6th cell is sent on the wave beam Step ensemble set period be 40ms, the synchronizing signal cluster close offset be 0# radio frames 0# subframes, the synchronization letter The conjunction of number cluster includes 2 synchronizing signal groups：Synchronizing signal group 3 and synchronizing signal group 4.

It includes 2 synchronizing signals that the initial position of synchronizing signal group 3, which is the 1# subframes of 2# radio frames, synchronizing signal group 3, Block is located at 0#slot and 1#slot.

It includes 4 synchronizing signals that the initial position of synchronizing signal group 4, which is the 1# subframes of 3# radio frames, synchronizing signal group 4, Block is located at 0#slot, 1#slot, 2#slot and 3#slot, the hair for the synchronizing signal that the 6th cell is sent on the wave beam The frequency location for sending position to be all located at f1, upper and lower 240kHz*10 (kHz).

The period that 5th cell sends CSI-RS is 5ms, and initial position is the 1# subframes of 0# radio frames, and the CSI-RS Send the frequency location that position is located at f1, upper and lower 240kHz*100 (kHz).

So, illustratively, (including above-mentioned 5th cell is at 4 according to the information of the first signal for first network side apparatus Information, the 6th cell for the CSI-RS that the information of the synchronizing signal sent on carrier wave, the 5th cell are sent are sent on 1 carrier wave Synchronizing signal information and the information of CSI-RS that sends of the 6th cell), the J1 gap information can be configured to, the Two cycles are 50ms, include two gap pattern groups in a second round, the initial position of gap pattern group 1 is 0# radio frames 0# subframes, pattern group 1 duration in gap is 20ms, includes 2 third space patterns in gap pattern group 1, is respectively positioned on f1 Frequency location, upper and lower 240kHz*100 (kHz).

The initial position of gap pattern group 2 is the 1# subframes of 2# radio frames, and the duration of gap pattern group 2 is 20ms； Include 2 third space patterns in gap pattern group 2, is respectively positioned on the frequency location of f1, upper and lower 240kHz*100 (kHz).

In this way, the position in the J1 indicated gap of gap information configuration, covers above-mentioned the 5th cell of stating and is carried at 4 Synchronizing signal that CSI-RS that the synchronizing signal that is sent on wave, the 5th cell are sent, the 6th cell are sent on 1 carrier wave and The transmission position for the CSI-RS that 6th cell is sent, so that the gap that the J1 gap information configuration of terminal device is indicated It is interior, the synchronizing signal and CSI-RS of the 5th cell and the 6th cell can be detected.

It is understood that three examples that above-mentioned three kinds of configuration modes, which are only the application, to be enumerated, the gap in the application Information can also use other configurations mode, will not enumerate herein.

It should be noted that J gap information in the application can be the corresponding gap letter of J network side equipment Breath, can also be the corresponding J gap information of 1 network side equipment.Or the J gap information is divided into more sets, to which this is more Set gap information can be the corresponding more set gap informations of 1 network side equipment, can also be that multiple network side equipments are right respectively The more set gap informations answered.

Step 403, which sends configuration message to terminal device, and the gap is carried in the configuration message Information.

Optionally, it configures to carry in message and discharges the gap information, establish the gap information, update the gap information, swash Gap information that it serves somebody right, and/or deactivate the instruction information of the gap information.

Optionally, when the first signal changes, which sends newer configuration message to terminal device, The gap information is carried in the configuration message.

The configuration information is controlled by radio resource control RRC layer signaling, media access control MAC layer signaling and physical layer At least one of signaling is sent；The configuration information of the updated Microcell is sent to the terminal device or the end End equipment group.

Step 404, detect and/or measure first signal in gap of the terminal device indicated by the gap information.

It is understood that by detection and/or measurement to first signal, terminal device can be completed to be somebody's turn to do to sending Cell, cell group, wave beam, wave beam group, TRP, TRP group, frequency, group of frequencies, carrier wave, carrier wave set, the frequency wireless of first signal The detection and/or measurement of physical characteristic, frequency wireless physical characteristic group, Radio Access Network obtain measurement result.

Wherein, first signal detection of terminal device pair and/or the process of measurement can refer to existing terminal device pair The process of detection and/or the measurement of synchronizing signal and reference signal, details are not described herein again.

Optionally, the information for going back while carrying the first signal in the configuration message, then the terminal device can be at this In gap indicated by gap information, using first signal information detection and/or measure first signal.

Optionally, the information for going back while carrying the first signal in the configuration message, then the terminal device can be at this In gap indicated by gap information, using first signal information detection and/or measure first signal.

For example, when first signal information in carry the sequence type of the first signal, the sequence length of first signal, When the sequential labeling or mark of first signal and the repetitive mode of the sequence of first signal, terminal device can be solved correctly The content of the first signal of code.

Optionally, when the first signal includes the synchronizing signal that the second network side equipment is sent and/reference signal, first Before network side equipment sends configuration message to terminal device, first network side apparatus can also be obtained from the second network side equipment Configuration information, the configuration information may include and the time offset of serving cell where the terminal device and the serving cell Frequency offset, send first signal frequency point carrier wave interval (frequency separation) and first community Time offset and with one or more of the frequency offset of first community information.

For example, second community under the second network side equipment and the serving cell under first network side apparatus phase in time Poor 20 milliseconds, 480 kHz are differed in frequency.So terminal device can determine second according to the time-frequency location of serving cell The time-frequency location of cell, so that it is determined that sending first signal.

In turn, first network side apparatus can say that configuration information carrying is sent to terminal device in configuring message, with Terminal device is allow to determine the transmission position of the first signal according to the configuration information, and then indicated by the gap information In gap, in the transmission position sensing and/or first signal is measured.

Optionally, the precedence information of J gap information can also be carried in the configuration message.First network side can incite somebody to action The priority of the J gap information is configured from high to low, and indicates the excellent of each gap information by the precedence information First grade.Alternatively, the J gap information includes more set gap informations, first network side can be by the preferential of more set gap informations Grade is configured from high to low, and the priority of gap information is often covered by precedence information instruction.

It, can be with preset alternative condition and the precedence information, from the J gap after terminal device receives configuration message Determine that the first gap information, first gap information are highest priority and meet the gap information of the selection condition in information, First gap information is a gap information or a set of gap information in the J gap information.

The selection condition can be the gap information for selecting the RF capabilities of the terminal device disclosure satisfy that, can also be choosing Select the gap information that the ability of the support bandwidth of the terminal device meets.The selection condition can also be to be designed according to actual demand Other conditions.In this regard, the application is not limited.

After terminal device determines the first gap information, you can detected in the gap indicated by first gap information And/or measure first signal.

In the optional mode, network side equipment is by configuring the gap informations of J different priorities, or more sets are different The gap information of priority, so that terminal device can select one or a set of meeting its alternative condition, highest priority Gap information, measure, to improve the success rate of measurement.

Optionally, the correspondence of J2 type of service and the J gap information, J2 can also be carried in the configuration message >=1, J2 are integer.In above-mentioned steps 402, first network side apparatus is determining that J gap is believed according to the information of the first signal When breath, J gap information corresponding with J2 type of service can be configured according to the information of the first signal.

In this application, J2 type of service and the J gap information can be one-to-one relationships, may not be one One corresponding management, i.e., different types of service can correspond to different gap informations, can also correspond to identical gap information.

First network side apparatus carries the correspondence of the J2 type of service and the J gap information to disappear in the configuration After being sent to terminal device in breath, which can first determine the business with the terminal current transmission according to the correspondence Corresponding second gap information of type, second gap information are the business with the terminal current transmission in the J gap information The corresponding gap information of type or a set of gap information.And after determining the second gap information, believe in second gap Breath detects and/or measures first signal in indicated gap.

In the optional mode, first network side apparatus by configuring gap information corresponding with different service types, with Enable terminal device to select the second gap information corresponding with the type of service of the terminal current transmission, measures, from And improve the success rate measured.

Optionally, in conjunction with Fig. 4, as shown in figure 9, before above-mentioned steps 402, this method can also include：

Step 405, the measurement capability information that first network side apparatus receiving terminal apparatus is sent, the measurement capability information are used In the measurement capability for indicating the terminal device, including RF capabilities and/or the ability for supporting bandwidth.

Further, above-mentioned steps 402 are specifically as follows：

Step 402a, first network side apparatus determine that the gap is believed according to the information and the measurement capability information of the first signal Breath.

In the optional mode, the configuration of first network side apparatus and the matched gap of measurement capability of the terminal device are believed Breath, measures for terminal device, to improve the success rate of measurement.

It is the flow chart of another embodiment of measurement method provided by the present application referring to Figure 10, this method includes as follows Step：

Step 1001, first network side apparatus obtains the information of the first signal, and the information of first signal is between configuration Gap information, the gap information are used to indicate the gap that terminal device measures first signal.

The specific implementation of step 1001 may refer to the specific implementation of step 401 in embodiment as shown in Figure 4, Details are not described herein again.

Step 1002, first network side apparatus sends configuration message to terminal device, carry in the configuration message this first The information of signal.

Step 1003, terminal device is according to the information configuration gap information of the first signal.

In this application, terminal device can be J according to the number of the gap information of the information configuration of the first signal

In this application, terminal device is according to the specific implementation of the information configuration gap information of the first signal, with One network side equipment is identical according to the specific implementation of the information configuration gap information of the first signal.Terminal device is according to first The specific implementation of the information configuration gap information of signal may refer in embodiment as shown in Figure 4, and the correlation of step 402 is retouched It states, details are not described herein again.

Step 1004, first letter is detected and/or measured in the gap of the terminal device indicated by the gap information Number.

Further, in conjunction with Figure 10, as shown in figure 11, after above-mentioned steps 1003, before step 1004, this method is also May include：

Step 1005, which sends the gap information to the first network side apparatus.

In this application, when by the terminal equipment configuration gap information, so that the first network side apparatus is at this Stop to the terminal device transmission data in the gap of gap information instruction.In this possible design, when by terminal device When configuring gap information, terminal device by gap information by being sent to first network side apparatus so that first network side apparatus In the gap of gap information instruction, stop to terminal device transmission data, to avoid terminal device from being set with first network side There is packet loss in the data transmitted between standby.

It is the flow chart of another embodiment of measurement method provided by the present application referring to Figure 12, this method includes as follows Step：

Step 1201, first network side apparatus sends gap information, which is used to indicate terminal device for visiting The gap surveyed and/or measured.

The gap information of first network side apparatus configuration can have J, and J >=1, J are integer, i.e. first network side apparatus can To configure 1 or more than one gap information.

In one example, each gap information in J gap information can be according in following three kinds of configuration modes Any one configuration mode configured.Below with the J1 (1≤J1≤J, J are integer) in the J gap information it is a between For gap information, following three kinds of configuration modes are illustratively illustrated.

Mode one：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark or label, the information of N number of first gap pattern and J1 The corresponding first measurement object information of gap information, measuring signal type corresponding with the J1 gap information, with this N number of first The corresponding second measurement object information of information of N1 in the information of gap pattern the first gap patterns and this N number of first Relationship between the information of N2 the first gap patterns in the information of gap pattern, N >=1, N are integer, and 1≤N1≤N, N1 are Integer, 1≤N2≤N, N2 are integer.

The information of the first gap pattern of each of information of N number of first gap pattern include in following information at least It is a kind of：

The label or mark or label of the first gap pattern, the period of the first gap pattern, the first gap pattern The number in period, the first duration of the first gap pattern, the first gap pattern the first overall measurement duration, this The first start bit of first effective measurement duration, the first gap pattern in one overall measurement duration is set and the first gap figure The corresponding third measurement object information of sample and measuring signal type corresponding with the first gap pattern.

So, in mode one, the first duration is the duration in a gap indicated by the first gap pattern, The sum of the rhythmic duration of institute of a length of first gap pattern when the first overall measurement.First when effectively measuring it is a length of this between first The sum of the duration in all gaps indicated by gap pattern, first start bit are set in the indicated gap of the first gap pattern The initial time in one gap.Measuring signal type corresponding with the first gap pattern be used to indicate terminal device this first The type for the reference signal for detecting and/or measuring in gap indicated by the pattern of gap, for example, NR-RS, C-RS, CSI-RS, DM-RS and B-RS etc..

Illustratively, as shown in fig. 6, in N number of first gap pattern the 1st the first gap pattern and n-th For one gap pattern, it is assumed that the label or mark of the 1st the first gap pattern or marked as 1 (i.e. the first gap pattern 1), The label or mark of n the first gap patterns or marked as n (i.e. the first gap pattern n), then the signal of the first gap pattern 1 Figure can be as shown in (1) in Fig. 6, and the period of the first gap pattern 1 has 3, i.e., includes 3 in the first gap pattern 1 For the gap 1 of measurement, the first duration of the first gap pattern 1 is between one indicated by the first gap pattern 1 The duration of gap 1, when the first overall measurement of the first gap pattern 1 a length of first gap pattern 13 periods duration it The duration in 3 gaps 1 when effectively being measured with the first of, the first gap pattern 1 indicated by a length of first gap pattern 1 it With the first start bit of the first gap pattern 1 is set to first gap 1 in the indicated gap of the first gap pattern 1 Initial time (position of A1 labels or mark or label in (1) in such as Fig. 6).

So the schematic diagram of the first gap pattern n can be as shown in (2) in Fig. 6, and the period of the first gap pattern 2 has 2, i.e. include 2 gaps for measurement in first gap pattern n, the first duration of first gap pattern n is The duration of a gap n indicated by the pattern n of first gap, when the first overall measurement of first gap pattern n it is a length of this The sum of the duration in 2 periods of one gap pattern n, the first of first gap pattern n a length of first gap when effectively measuring The first start bit of the sum of the duration of 2 gap n indicated by pattern n, first gap pattern n is set to the first gap pattern (in (2) in such as Fig. 6 the position of A2 labels or mark or label for the initial time of first gap n in the indicated gap n of n It sets).

In mode one, the information of N number of first gap pattern is configured in the J1 gap information, N number of first gap The period of pattern may be the same or different.Measurement object corresponding to the pattern of each first gap can be identical, can also Difference can have multiple, it is possibility to have one.

Wherein, above-mentioned first measurement object information, the second measurement object information and third measurement object information can divide It Bao Kuo not at least one of following information：

Beam information, wave beam group information, TRP information, TRP group informations, cell information, cell group information, frequency information, frequency It is rate group information, carrier information, carrier wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information, wireless Access network information.

Wherein, above-mentioned first measurement object information, the second measurement object information and third measurement object information can divide Do not include the mark and/or label of measurement object, e.g., cell label (Identity, ID), wave beam label, cell index number (index), beam index number (Index) etc.；Can also be the configuration information of measurement object, such as the bandwidth information of carrier wave, duplex Information.

That is, the gap information in the application, gap drawing information, gap pattern group information can with wave beam, wave beam group, TRP, TRP group, cell, cell group, frequency, group of frequencies, carrier wave, carrier wave set, frequency wireless physical characteristic, frequency wireless physics are special At least one of property group, Radio Access Network granularity is configured.

The corresponding mark of gap information or label of embodiment use herein, that is, a certain inter-species defined in agreement The particular content of gap information, such as the definition of the gap information provided in embodiment, as long as providing gap information in configuring message Corresponding mark or label, then network node and terminal know about specific gap information and define content；

The mark or label of the gap pattern of embodiment use herein, that is, a certain inter-species defined in agreement The particular content of gap pattern, such as the definition of the gap pattern provided in embodiment, as long as providing gap pattern in configuring message Corresponding mark or label, then network node and terminal know about specific gap pattern definition content.Gap in the application, Gap pattern, " initial position " of gap pattern group can also use " offset " and/or " absolute resource in specific design Position " defines.

It is understood that the first measurement object information is used to indicate the gap indicated by N number of first gap pattern It is inside both needed to the first measurement object measured, for example, the first measurement object information includes cell information (being assumed to be cell 1) and wave beam Group information (is assumed to be wave beam group 1, which includes wave beam 1,2 and 3), that is, is indicated indicated by N number of first gap pattern Gap be used to measure the wave beam group 1 in cell 1.

Second measurement object information is used to indicate indicated by the N1 in N number of first gap pattern the first gap patterns The second measurement object measured is both needed in gap.For example, it is assumed that the N1 the first gap patterns are the first gap pattern 1 and first The corresponding second measurement object information of information of the two first gap patterns of gap pattern n, the two the first gap patterns is Frequency information (is assumed to be frequency 1), that is, indicates that the gap of the two the first gap pattern instructions is used to survey frequency 1 Amount.

If it is understood that be configured with the first measurement object and the second measurement object in the J1 gap information, then, Gap indicated by first gap pattern 1 and the first gap pattern n is used to carry out the wave beam group 1 in the cell 1 in frequency 1 It measures, other the first gap pattern institutes in N number of first gap pattern in addition to the first gap pattern 1 and the first gap pattern n The gap of instruction is used to measure the wave beam group 1 in cell 1.

Third measurement object information is used to indicate indicated by a first gap pattern in N number of first gap pattern The third object measured is both needed in gap.For example, if the corresponding third measurement object information of the information of the first gap pattern 1 is nothing Line access network information (for example, by using the cell of GSM access technologies), the then gap that the first gap pattern 1 indicates are used to use The cell of GSM access technologies measures.

If (being assumed to be small for another example the corresponding third measurement object information of the information of the first gap pattern 1 is cell information Area 1) and beam information (being assumed to be wave beam 1), then the gap of the first gap pattern 1 instruction be used to the wave beam 1 in cell 1 into Row measures.

Measuring signal type corresponding with the J1 gap information is used to indicate terminal device in N number of first gap pattern Detected in indicated gap and/measure reference signal type.It is understood that when terminal device this N number of the Detected in gap indicated by one gap pattern and/measure reference signal type all same when, then can be in J1 Measuring signal type corresponding with the J1 gap information is configured in a gap information carries out unified instruction.

Further, the relationship between the information of the N2 in the information of N number of first gap pattern the first gap patterns It may include at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain, Give tacit consent to pattern and adapts to the relativeness between pattern.

Illustratively, it is assumed that N2 the first gap patterns are respectively the first gap pattern 1 and the first gap pattern n, if with The first start bit of first gap pattern 1 is set to benchmark, deviates+1 millisecond, as the first of the first gap pattern n in time On the basis of initial position, then the relativeness of the first gap pattern 1 and the first gap pattern n in time is+1 (SS Burst) the second；If being set to benchmark with the first start bit of the first gap pattern 1, -2 million are deviated in frequency, as the first gap The first start bit of pattern n is set, then the relativeness of the first gap pattern 1 and the first gap pattern n in frequency is -2 Million；If being set to benchmark with the first start bit of the first gap pattern 1,3 degree are deviated on spatial domain, as the first gap pattern n's First start bit is set, then the relativeness of the first gap pattern 1 and the first gap pattern n on spatial domain is -3 degree；；If with The first start bit of first gap pattern 1 is set to benchmark, 2 cyclic shifts (or 2 sequence numbers) is deviated in code domain, as The first start bit of first gap pattern n is set, then the opposite pass of the first gap pattern 1 and the first gap pattern n in code domain System is+2 cyclic shifts (or+2 sequence numbers)；

If the first gap pattern 1 is acquiescence pattern, the first gap pattern n is adaptability pattern；

In one example, in this application, first network side apparatus can be according to the first signal period, absolute time Between or the information such as offset determine the initial position of the corresponding first gap pattern of first signal, and according to preset configuration Determine the first duration, period and the number of cycles etc. of each first gap pattern.

It is understood that when the information of the first signal of acquisition is the information of multiple first signals, for example, the first letter Number include multiple synchronizing signals and/or reference signal when, first network side apparatus can be each signal determine corresponding first Gap pattern, or multiple signals determine a first shared gap pattern.

Mode two：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark or label, period 1, the number of period 1 and J1 Second in the corresponding second overall measurement duration of a gap information, the second overall measurement duration effectively measure duration, with J1 The corresponding 4th measurement object information of gap information, measuring signal type corresponding with the J1 gap information, the period 1 The information of M interior the second gap patterns, the information with M1 the second gap patterns in the information of the M the second gap patterns The information of M2 the second gap patterns in the information of corresponding 5th measurement object information and the M the second gap patterns it Between relationship, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are integer.

The information of the second gap pattern of each of the information of the M the second gap patterns include in following information at least It is a kind of：

Second duration of the second gap pattern, the second gap pattern the second initial position and this between second The corresponding 6th measurement object information of gap pattern and measuring signal type corresponding with the second gap pattern.

In mode two, it is configured with multiple period 1 in a gap information, M the is provided in each period 1 Two gap patterns, i.e. the period where M the second gap pattern is the period 1, and within each period 1, terminal device It can be executed in M different gaps and measure operation.

Wherein, when the second overall measurement a length of all period 1 the sum of duration, second a length of M second when effectively measuring The sum of the duration in all gaps of gap pattern meaning.Second duration is one indicated by the pattern of corresponding second gap The duration in a gap, the second initial position be the second gap pattern indicated gap in first gap starting when Between.

Illustratively, it is assumed that be configured with two period 1 in the J1 gap information, 3 are configured in each period 1 The information of a second gap pattern, the respectively information of the second gap pattern 3, the information of the second gap pattern 4, the second gap figure The information of sample 5, i.e., as shown in fig. 7, including gap 3, the second gap pattern of the second gap pattern 3 instruction in each period 1 4 instruction gaps 4 and the second gap pattern 5 instruction gap 5, totally 3 for measurement gap.Wherein, such as B1 marks in Fig. 7 Number or mark or label position be the second gap pattern 3 the second initial position, i.e., the second gap pattern 3 instruction first The initial position in a gap 3, the second duration of the second gap pattern 3 are one indicated by the second gap pattern 3 The duration in gap 3；If the position of B2 labels or mark or label is the second initial position of the second gap pattern 4 in Fig. 7, i.e., should The initial position in first gap 4 of the second gap pattern 4 instruction, the second duration of the second gap pattern 4 be this The duration in a gap 4 indicated by two gap patterns 4；As the position of B3 labels or mark or label is the second gap in Fig. 7 The initial position in first gap 5 of the second initial position of pattern 5, i.e. the second gap pattern 5 instruction, the second gap figure Second duration of sample 5 is the duration in a gap 5 indicated by the second gap pattern 5.

Further, the 4th measurement object information, the 5th measurement object information and the 6th measurement object in mode two The specific descriptions of information, can be successively referring to the first measurement object information, the second measurement object information and in mode one The associated description of three measurement object information, details are not described herein again.

And the corresponding measuring signal type of the J1 gap information and measurement corresponding with the second gap pattern in mode two The specific descriptions of signal type may refer in mode one pair measuring signal type corresponding with the J1 gap information and with The description of the corresponding measuring signal type of two gap patterns, details are not described herein again.

Further, the relationship between the information of M2 the second gap patterns in the information of the M the second gap patterns Specific descriptions, may refer in mode one to the information of N2 the second gap patterns in the information of N number of second gap pattern Between relationship associated description, details are not described herein again.

Mode three：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark or label, second round, the number of second round and J1 Third in the corresponding third overall measurement duration of a gap information, third overall measurement duration effectively measures between duration and J1 The corresponding 7th measurement object information of gap information, measuring signal type corresponding with the J1 gap information, the X in second round The information of a gap pattern group, the corresponding with the information of X1 gap pattern group in the information of X gap pattern group the 8th survey Relationship between object information, the information of X2 gap pattern group in the information of X gap pattern group, X >=1 are measured, X is whole Number, 1≤X1≤X, X1 are integer, and 1≤X2≤X, X2 are integer.

Illustratively, it is assumed that 2 second rounds are configured in the J1 gap information, then third overall measurement duration is The sum of the duration of 2 second rounds.Assuming that including 2 gap pattern groups in each second round, as shown in figure 8, this 2 gaps Pattern group is respectively gap pattern group 1 and gap pattern group 2, and gap pattern group 1 is by third space pattern 6, third space pattern 7 And third space pattern 8 forms, gap pattern group 2 is made of third space pattern 9 and third space pattern 10, i.e., one Gap 6, the gap 7 of the instruction of third space pattern 7 including the instruction of third space pattern 6 in second round, third space pattern 8 The gap 10 that the gap 9 and third space pattern 10 that the gap 8 of instruction, third space pattern 9 indicate indicate, totally 5 are used for The gap that terminal device measures.So, it is carried out for terminal device in a length of all second rounds when third effectively measures The sum of duration in gap of measurement, i.e. third effectively measure the meaning of all third space patterns in all gap pattern groups of duration The sum of the duration in all gaps shown.

7th measurement object information is used to indicate each third space pattern configured in the J1 gap information The 7th measurement object of detection and/measurement is both needed in indicated gap.Measuring signal class corresponding with the J1 gap information Type

It is signified that 8th measurement object information is used to indicate in the X1 gap pattern group each third space pattern The 7th measurement object of detection and/measurement is both needed in the gap shown.

Relationship between the information of the X2 gap pattern group can be include at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain, Give tacit consent to pattern and adapts to the relativeness between pattern.

Further, each gap pattern group in the information of the X gap pattern group configured in the J1 gap information Information include at least one of following information：

The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern group K third in corresponding 9th measurement object information, measuring signal type corresponding with the gap pattern group, the gap pattern group In the information of the information of gap pattern, the whether continuous information of K third space pattern and the K third space pattern K2 in the corresponding tenth measurement object information of information of K1 third space pattern, the information of the K third space pattern Relationship, K >=1 between the information of third space pattern, K are integer, and 1≤K1≤K, K1 are integer, and 1≤K2≤K, K2 are whole Number.

Illustratively, by taking gap pattern group 1 as shown in Figure 8 as an example, the third duration of gap pattern group 1, between being somebody's turn to do The third initial position of gap pattern group 1 is the 1st gap indicated by the 1st third space pattern of the gap pattern group 1 Enlighten position, i.e., the initial position (position of C1 labels as shown in Figure 8 or mark or label) in the 1st gap 6.With the gap 1 corresponding 9th measurement object information of pattern group is that third space pattern 6, space pattern 7 and third space pattern 8 are signified The gap shown is both needed to the 9th measurement object, such as wave beam group information etc. of detection and/measurement.

Third space pattern 6, space pattern 7 and third space pattern 8 are discontinuous, therefore the gap pattern group 1 In the whether continuous information of 3 third space patterns be to indicate discontinuous information.

The corresponding tenth measurement object information of information of K1 third space pattern, the information of K2 third space pattern it Between relationship, the meaning phase of the relationship between a kind of second measurement object information of mode and the information of N2 third space pattern Together, a kind of associated description of mode is specifically may refer to, details are not described herein again.

Further, the information of each third space pattern in the information of the K third space pattern includes following letter At least one of breath：

4th duration of the third space pattern, the third space pattern fourth beginning position and the third between The corresponding 11st measurement object information of gap pattern, measuring signal type corresponding with the third space pattern.

Illustratively, as shown in figure 8, fourth beginning position of the third space pattern 6 in gap pattern group 1 is in Fig. 8 The position that C1 is indicated, fourth position of third space pattern 7 are the position that C2 is indicated in Fig. 8 beginning, the of third space pattern 8 Four initial positions are the position that C3 is indicated in Fig. 8.

The meaning of 11st measurement object information measuring signal type corresponding with the third space pattern, with mode one kind The meaning of the corresponding measuring signal type of third measurement object information and third space pattern is identical, specifically may refer to mode one The associated description of kind, details are not described herein again.

Gap corresponding with pattern is adapted to, gap pattern and/or the gap pattern group of all embodiments in the application It can be aperiodic sequence.

It is understood that three examples that above-mentioned three kinds of configuration modes, which are only the application, to be enumerated, the gap in the application Information can also use other configurations mode, will not enumerate herein.

It should be noted that J gap information in the application can be the corresponding gap letter of J network side equipment Breath, can also be the corresponding J gap information of 1 network side equipment.Or the J gap information is divided into more sets, to which this is more Set gap information can be the corresponding more set gap informations of 1 network side equipment, can also be that multiple network side equipments are right respectively The more set gap informations answered.

Optionally, it configures to carry in message and discharges the gap information, establish the gap information, update the gap information, swash Gap information that it serves somebody right, and/or deactivate the instruction information of the gap information.

Optionally, when the first signal changes, which sends newer configuration message to terminal device, The gap information is carried in the configuration message.

The configuration information is controlled by radio resource control RRC layer signaling, media access control MAC layer signaling and physical layer At least one of signaling is sent；The configuration information of the updated Microcell is sent to the terminal device or the end End equipment group.

The specific implementation of step 1201 may refer to the specific implementation of step 401 in embodiment as shown in Figure 4, Details are not described herein again.

Step 1202, it is measured in the gap of the terminal device indicated by the gap information.

From above-described embodiment as can be seen that measurement method provided by the present application is based on, by be measured and/or to be detected The information of first signal is configured to indicate that terminal device detects and/or measure the gap information in the gap of first signal, It thereby may be ensured that terminal device can receive first signal on the gap that the gap information indicates, so that terminal is set It is standby successful probe and/or the first signal to be measured, to solve to send the time point of the first signal in each cell and differ In the case of, the problem of terminal device fails to the measurement of cell portion.

It is above-mentioned that mainly scheme provided by the present application is described from the angle of interaction between each network element.It is appreciated that , in order to realize above-mentioned function, it comprises execute each function for each network element, such as network side equipment, terminal device etc. Corresponding hardware configuration and/or software module.Those skilled in the art should be readily appreciated that, in conjunction with disclosed herein Each exemplary unit and algorithm steps of embodiment description, the application can be with the combination shape of hardware or hardware and computer software Formula is realized.Some functions is executed in a manner of hardware or computer software driving hardware actually, depends on technical solution Specific application and design constraint.Professional technician can be realized each specific application using distinct methods Described function, but this realization is it is not considered that exceed scope of the present application.

The application can carry out network side equipment, terminal device etc. according to the above method example division of function module, For example, can correspond to each function divides each function module, two or more functions can also be integrated in one In processing module.The form that hardware had both may be used in above-mentioned integrated module is realized, the shape of software function module can also be used Formula is realized.It should be noted that be schematical, only a kind of division of logic function to the division of module in the application, it is real There may be another division manner when border is realized.

In the case where dividing each function module using corresponding each function, Figure 13 A show institute in above-described embodiment A kind of possible structural schematic diagram for the network side equipment being related to, the network side equipment is for realizing in aforementioned present invention application

The network side equipment includes：Acquiring unit, transmission unit, dispensing unit and receiving unit.Acquiring unit is used for Network side equipment is supported to execute Fig. 4 and the step 401 in Fig. 9 and the step 1001 in Figure 10 and Figure 11；Dispensing unit is used for Network side equipment is supported to execute the step 402 in Fig. 4, the step 402a in Fig. 9；Transmission unit is for supporting network side equipment to hold Row Fig. 4 and the step 403 in Fig. 9 and the step 1002 in Figure 10 and Figure 11；Receiving unit is for supporting network side equipment to hold The step 1005 in step 405 and Figure 11 in row Fig. 9.Wherein, all correlations for each step that above method embodiment is related to Content can quote the function description of corresponding function module, and details are not described herein.

Using integrated unit, Figure 13 B show network side equipment involved in above-described embodiment A kind of possible structural schematic diagram.Network side equipment includes：Processing module 1302 and communication module 1303.Processing module 1302 is used In carrying out control management to the action of network side equipment, for example, processing module 1302 is for supporting network side equipment to execute in Fig. 4 Step 401,402 and 403, step 401 in Fig. 9,402,402a and 403, the step 1001 and 1002, Yi Jitu in Figure 10 Step 1001 in 11,1002 and 1005, and/or for other processes of techniques described herein.Communication module 1303 is used In the communication for supporting network side equipment and other network entities, such as between function module or network entity shown in Fig. 1 Communication.Network side equipment can also include memory module 1301, the program code for storing network side equipment and data.

Wherein, processing module 1302 can be processor or controller, such as can be central processing unit (Central Processing Unit, CPU), general processor, digital signal processor (Digital Signal Processor, DSP), Application-specific integrated circuit (Application-Specific Integrated Circuit, ASIC), field programmable gate array It is (Field Programmable Gate Array, FPGA) or other programmable logic device, transistor logic, hard Part component or its arbitrary combination.It may be implemented or executes illustratively patrols in conjunction with various described in present disclosure Collect box, module and circuit.The processor can also be to realize the combination of computing function, such as include one or more micro- places Manage device combination, the combination etc. of DSP and microprocessor.Communication module 1303 can be transceiver, transmission circuit or communication interface Deng.Memory module 1301 can be memory.

When processing module 1302 is processor, communication module 1303 is transceiver, when memory module 1301 is memory, this The involved network side equipment of application can be network side equipment shown in Figure 13 C.

Refering to fig. 1 shown in 3C, which includes：Processor 1313, transceiver 1314, memory 1311 and total Line 1314.Wherein, transceiver 1314, processor 1313 and memory 1311 are connected with each other by bus 1314；Bus 1314 Can be Peripheral Component Interconnect standard (Peripheral Component Interconnect, PCI) bus or extension industry mark Quasi- structure (Extended Industry Standard Architecture, EISA) bus etc..The bus can be divided into ground Location bus, data/address bus, controlling bus etc..It for ease of indicating, is only indicated with a thick line in Figure 13 C, it is not intended that only A piece bus or a type of bus.

In the case where dividing each function module using corresponding each function, Figure 14 A show institute in above-described embodiment A kind of possible structural schematic diagram for the terminal device being related to, terminal device include：Acquiring unit, measuring unit and transmission are single Member.Acquiring unit is for supporting terminal device to execute 1002 and 1003 in 403, Figure 10 and Figure 11 in Fig. 4 and Fig. 9；It measures Unit is for supporting terminal device to execute 1004 in 404 and Figure 10 and Figure 11 in Fig. 4 and Fig. 9；Transmission unit is for branch Hold terminal device execute in process 405 and Figure 11 in Fig. 9 1005；Determination unit is for supporting terminal device to execute Fig. 4 In process 404；Transmission unit is for supporting terminal device to execute the process 45 in Fig. 4.Wherein, above method embodiment is related to Each step all related contents can quote corresponding function module function description, details are not described herein.

Using integrated unit, Figure 14 B show the one of terminal device involved in above-described embodiment The possible structural schematic diagram of kind.Terminal device includes：Processing module 1402 and communication module 1403.Processing module 1402 for pair The action of terminal device carries out control management, for example, processing module 1402 is for supporting terminal device to execute the process in Fig. 4 1002 in 1002,1003 and 1004 and Figure 11 in 405,403 and 404 in 403 and 404, Fig. 9, Figure 10,1003, 1005 and 1004, and/or for other processes of techniques described herein.Communication module 1403 for support terminal device with The communication of other network entities, such as the communication between function module or network entity shown in Fig. 1.Terminal device may be used also To include memory module 1401, it to be used for the program code and data of storage terminal device.

Wherein, processing module 1402 can be processor or controller, such as can be CPU, general processor, DSP, ASIC, FPGA either other programmable logic device, transistor logic, hardware component or its arbitrary combination.It can be with It realizes or executes and combine various illustrative logic blocks, module and circuit described in present disclosure.The processing Device can also be to realize the combination of computing function, such as combined comprising one or more microprocessors, the group of DSP and microprocessor Close etc..Communication module 1403 can be transceiver, transmission circuit or communication interface etc..Memory module 1401 can be storage Device.

When processing module 1402 is processor, communication module 1403 is transceiver, when memory module 1401 is memory, this The involved terminal device of application can be terminal device shown in Figure 14 C.

Refering to fig. 1 shown in 4C, which includes：Processor 1413, transceiver 1414, memory 1411 and bus 1414.Wherein, transceiver 1414, processor 1413 and memory 1411 are connected with each other by bus 1414；Bus 1414 can To be pci bus or eisa bus etc..The bus can be divided into address bus, data/address bus, controlling bus etc..For ease of table Show, only indicated with a thick line in Figure 14 C, it is not intended that an only bus or a type of bus.

The step of method in conjunction with described in present disclosure or algorithm, can be realized in a manner of hardware, also may be used It is realized in a manner of being to execute software instruction by processor.Software instruction can be made of corresponding software module, software mould Block can be stored on random access memory (Random Access Memory, RAM), flash memory, read-only memory (Read Only Memory, ROM), Erasable Programmable Read Only Memory EPROM (Erasable Programmable ROM, EPROM), electricity can Erasable programmable read-only memory (Electrically EPROM, EEPROM), register, hard disk, mobile hard disk, CD-ROM (CD-ROM) or in the storage medium of any other form well known in the art.A kind of illustrative storage medium is coupled to place Device is managed, to enable a processor to from the read information, and information can be written to the storage medium.Certainly, it stores Medium can also be the component part of processor.Pocessor and storage media can be located in ASIC.In addition, the ASIC can position In core network interface equipment.Certainly, pocessor and storage media, which can also be used as discrete assembly and be present in core network interface, sets In standby.

In the specific implementation, the present invention also provides a kind of computer storage medias, wherein the computer storage media can store There is program, step that some or all of which may include when executing in each embodiment of data measuring method provided by the invention Suddenly.The storage medium can be magnetic disc, CD, read-only memory (English：Read-only memory, referred to as：ROM) Or random access memory (English：Random access memory, referred to as：RAM) etc..

As shown in Figure 1, the application also provides a kind of communication system, including the network side as shown in Figure 13 A, 13B or 13C is set It is standby, and such as Figure 14 A, 14B or the terminal device of 14C.

It is required general that those skilled in the art can be understood that the technology in the application can add by software The mode of hardware platform is realized.Based on this understanding, the technical solution in the application is substantially in other words to the prior art The part to contribute can be expressed in the form of software products, which can be stored in storage medium In, such as ROM/RAM, magnetic disc, CD, including some instructions are used so that computer equipment (can be personal computer, Server either network equipment etc.) execute method described in certain parts of each embodiment of the present invention or embodiment.

The same or similar parts between the embodiments can be referred to each other in this specification.Implement especially for device For example, since it is substantially similar to the method embodiment, so description is fairly simple, related place is referring in embodiment of the method Explanation.

Invention described above embodiment is not intended to limit the scope of the present invention..

Claims (53)

1. a kind of measurement method, which is characterized in that the method includes：

First network side apparatus obtains the information of the first signal, and the information of first signal is described for configuring gap information Gap information is used to indicate terminal device detection and/or measures the gap of first signal；

The first network side apparatus sends configuration message to the terminal device, and first letter is carried in the configuration message Number information and/or the gap information.

2. according to the method described in claim 1, it is characterized in that, first signal includes at least one in following signals Kind：

Reference signal that synchronizing signal that the first network side apparatus is sent, the first network side apparatus are sent, described the The reference signal that the synchronizing signal and second network side equipment that two network side equipments are sent are sent.

3. according to the method described in claim 2, it is characterized in that, first signal includes the second network side equipment hair The reference signal that the synchronizing signal sent and/or second network side equipment are sent,

The first network side apparatus obtains the information of the first signal, including：

The first network side apparatus is by the interface between second network side equipment, from second network side equipment Obtain the information of first signal；Alternatively,

The first network side apparatus obtains the information of first signal from network management device.

4. according to claim 1-3 any one of them methods, which is characterized in that the number of the gap information is J, J >= 1, J is integer.

5. according to the method described in claim 4, it is characterized in that, the configuration of the J1 gap information in J gap information Mode is any one in following three kinds, and 1≤J1≤J, J are integer,

Mode one：The J1 gap information includes at least one of following information：

Between label corresponding with the J1 gap information or mark, the information of the N number of first gap pattern and J1 The corresponding first measurement object information of gap information, measuring signal type corresponding with the J1 gap information, with it is described N number of The corresponding second measurement object information of information of N1 in the information of first gap pattern the first gap patterns and described N number of Relationship between the information of N2 in the information of first gap pattern the first gap patterns, N >=1, N are integer, 1≤N1≤N, N1 is integer, and 1≤N2≤N, N2 are integer；

The information of the first gap pattern of each of the information of N number of first gap pattern includes at least one in following information Kind：

The label or mark of first gap pattern, the period of first gap pattern, first gap pattern week The first overall measurement duration, described of the number of phase, the first duration of first gap pattern, first gap pattern First in first overall measurement duration effectively measure duration, the first start bit of first gap pattern is set, with described first The corresponding third measurement object information of gap pattern and measuring signal type corresponding with first gap pattern；

Mode two：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, the period 1, the number of the period 1, with described the Second in the corresponding second overall measurement duration of J1 gap information, the second overall measurement duration effectively measures duration and institute State the corresponding 4th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information M1 in the information of type, the M in the period 1 the second gap patterns and the information of the M the second gap patterns M2 in the corresponding 5th measurement object information of information of second gap pattern and the information of the M the second gap patterns Relationship between the information of second gap pattern, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are whole Number；

The information of the second gap pattern of each of the information of the M the second gap patterns includes at least one in following information Kind：

Second duration of second gap pattern, the second initial position of second gap pattern and described second The corresponding 6th measurement object information of gap pattern, measuring signal type corresponding with second gap pattern；

Mode three：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, second round, the number of the second round, with described the Third in the corresponding third overall measurement duration of J1 gap information, the third overall measurement duration effectively measures duration and institute State the corresponding 7th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information X1 gap in type, the information of X gap pattern group and the information of the X gap pattern group in the second round X2 gap pattern in the corresponding 8th measurement object information of information of pattern group and the information of the X gap pattern group Relationship between the information of group, X >=1, X are integer, and 1≤X1≤X, X1 are integer, and 1≤X2≤X, X2 are integer；

The information of each gap pattern group in the information of the X gap pattern group includes at least one of following information：

The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern K in the corresponding 9th measurement object information of group, measuring signal type corresponding with the gap pattern group, the gap pattern group The information of a third space pattern, the whether continuous information of K third space pattern and the K third space pattern Information in K1 third space pattern the corresponding tenth measurement object information of information and the K third space pattern Information in K2 third space pattern information between relationship, K >=1, K are integer, and 1≤K1≤K, K1 are integer, 1≤ K2≤K, K2 are integer；

The information of each third space pattern in the information of the K third space pattern includes at least one in following information Kind：

4th duration of the third space pattern, the third space pattern fourth beginning position, with the third The corresponding 11st measurement object information of gap pattern and measuring signal type corresponding with the third space pattern；

Wherein, between the information of a second gap pattern of the relationship between the information of the N2 the first gap patterns, the M2 Relationship, between the information of the relationship between the information of the X2 gap pattern group and the K2 third space pattern Relationship respectively includes at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain and silent Recognize pattern and adapts to the relativeness between pattern；

The first measurement object information, the second measurement object information, the third measurement object information, the described 4th survey Measure object information, the 5th measurement object information, the 6th measurement object information, the 7th measurement object information, institute State the 8th measurement object information, the 9th measurement object information, the tenth measurement object information and the 11st survey Each measurement object information in amount object information respectively includes at least one of following information：

Beam information, wave beam group information, TRP information, TRP group informations, cell information, cell group information, frequency information, group of frequencies Information, carrier information, carrier wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information and wireless Access network information.

6. method according to claim 4 or 5, which is characterized in that carried in the configuration message gap information or The information of the gap information and first signal, the first network side apparatus send configuration message to the terminal device Before, the method further includes：

Gap information described in information configuration of the first network side apparatus according to first signal.

7. according to the method described in claim 6, it is characterized in that, the first network side apparatus is according to first signal Before gap information described in information configuration, the method further includes：

The first network side apparatus receives the measurement capability information that the terminal device is sent, and the measurement capability information is used for Indicate the measurement capability of the terminal device, including RF capabilities and/or the ability for supporting bandwidth；

Gap information described in information configuration of the first network side apparatus according to first signal, including：

The first network side apparatus determines that the gap is believed according to the information and the measurement capability information of first signal Breath.

8. the method described according to claim 6 or 7, which is characterized in that the first network side apparatus is believed according to described first Number information configuration described in gap information, including：

The first network side apparatus configures J gap corresponding with J2 type of service according to the information of first signal Information, J2 >=1, J2 are integer；

The correspondence of the J2 type of service and the J gap information is also carried in the configuration message.

9. the method described according to claim 6 or 7, which is characterized in that also carry J gap information pair in the configuration message The precedence information answered.

10. according to claim 1-5 any one of them methods, which is characterized in that carry described first in the configuration message The information of signal, after the first network side apparatus sends configuration message to the terminal device, the method further includes：

The first network side apparatus receives the gap information that the terminal device is sent；

The first network side apparatus stops sending number to the terminal device in the gap that the gap information indicates According to.

11. according to claim 1-10 any one of them methods, which is characterized in that the information of first signal includes described The transmission time information of first signal, send subcarrier spacing information, modulation and the coding strategy used when first signal, Send diversity, the value information of corresponding wave beam, antenna port information, multiplex mode, first signal sequence type, described The repetition side of the sequence length of first signal, the sequential labeling of first signal or mark and the sequence of first signal One or more of formula information；

Wherein, the transmission time information includes absolute time information, sending cycle and the offset for sending first signal One or more of amount information.

12. according to the method for claim 11, which is characterized in that first signal is synchronizing signal,

The transmission time information includes the absolute resource time information for sending the synchronizing signal, same where the synchronizing signal Walk the period of ensemble set, the offset that synchronizing signal place synchronizing signal cluster is closed, synchronizing signal place together Synchronizing signal block where walking the period of ensemble, the offset of synchronizing signal place synchronizing signal group, the synchronizing signal Period and the synchronizing signal where one or more of offset information.

13. according to the method described in claim 3, it is characterized in that, the first network side apparatus is sent out to the terminal device Before message is set in delivery, the method further includes：

The first network side apparatus obtains configuration information from second network side equipment；

The configuration message also carries the configuration information；

Wherein, the configuration information include with the terminal device where serving cell time offset, with it is described service it is small The frequency offset in area, send first signal frequency point carrier wave interval, with the time offset of first community and with One or more of the frequency offset of first community information.

14. a kind of measurement method, which is characterized in that the method includes：

Terminal device obtains gap information, and the gap information is the information resources information configuration according to the first signal, described Gap information is used to indicate the terminal device detection and/or measures the gap of first signal；

The terminal device detects and/or measures first signal in the gap indicated by the gap information.

15. according to the method for claim 14, which is characterized in that first signal includes at least one in following signals Kind：

Reference signal that synchronizing signal that the first network side apparatus is sent, the first network side apparatus are sent, described the The reference signal that the synchronizing signal and second network side equipment that two network side equipments are sent are sent.

16. the method according to claims 14 or 15, which is characterized in that the number of the gap information is J, J >=1, J For integer.

17. according to the method for claim 16, which is characterized in that the J1 gap information in J gap information is matched It is any one in following three kinds to set mode, and 1≤J1≤J, J are integer,

Mode one：The J1 gap information includes at least one of following information：

Between label corresponding with the J1 gap information or mark, the information of the N number of first gap pattern and J1 The corresponding first measurement object information of gap information, measuring signal type corresponding with the J1 gap information, with it is described N number of The corresponding second measurement object information of information of N1 in the information of first gap pattern the first gap patterns and described N number of Relationship between the information of N2 in the information of first gap pattern the first gap patterns, N >=1, N are integer, 1≤N1≤N, N1 is integer, and 1≤N2≤N, N2 are integer；

The information of the first gap pattern of each of the information of N number of first gap pattern includes at least one in following information Kind：

The label or mark of first gap pattern, the period of first gap pattern, first gap pattern week The first overall measurement duration, described of the number of phase, the first duration of first gap pattern, first gap pattern First in first overall measurement duration effectively measure duration, the first start bit of first gap pattern is set, with described first The corresponding third measurement object information of gap pattern and measuring signal type corresponding with first gap pattern；

Mode two：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, the period 1, the number of the period 1, with described the Second in the corresponding second overall measurement duration of J1 gap information, the second overall measurement duration effectively measures duration and institute State the corresponding 4th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information M1 in the information of type, the M in the period 1 the second gap patterns and the information of the M the second gap patterns M2 in the corresponding 5th measurement object information of information of second gap pattern and the information of the M the second gap patterns Relationship between the information of second gap pattern, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are whole Number；

The information of the second gap pattern of each of the information of the M the second gap patterns includes at least one in following information Kind：

Second duration of first gap pattern, the second initial position of first gap pattern and described first The corresponding 6th measurement object information of gap pattern and measuring signal type corresponding with first gap pattern；

Mode three：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, second round, the number of the second round, with described the Third in the corresponding third overall measurement duration of J1 gap information, the third overall measurement duration effectively measures duration and institute State the corresponding 7th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information X1 gap in type, the information of X gap pattern group and the information of the X gap pattern group in the second round X2 gap pattern in the corresponding 8th measurement object information of information of pattern group and the information of the X gap pattern group Relationship between the information of group, X >=1, X are integer, and 1≤X1≤X, X1 are integer, and 1≤X2≤X, X2 are integer；

The information of each gap pattern group in the information of the X gap pattern group includes at least one of following information：

The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern K in the corresponding 9th measurement object information of group, measuring signal type corresponding with the gap pattern group, the gap pattern group The information of a third space pattern, the whether continuous information of K third space pattern and the K third space pattern Information in K1 third space pattern the corresponding tenth measurement object information of information and the K third space pattern Information in K2 third space pattern information between relationship, K >=1, K are integer, and 1≤K1≤K, K1 are integer, 1≤ K2≤K, K2 are integer；

The information of each third space pattern in the information of the K third space pattern includes at least one in following information Kind：

4th duration of the third space pattern, the third space pattern fourth beginning position, with the third The corresponding 11st measurement object information of gap pattern and measuring signal type corresponding with the third space pattern；

Wherein, between the information of a second gap pattern of the relationship between the information of the N2 the first gap patterns, the M2 Relationship, between the information of the relationship between the information of the X2 gap pattern group and the K2 third space pattern Relationship respectively includes at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain and silent Recognize pattern and adapts to the relativeness between pattern；

The first measurement object information, the second measurement object information, the third measurement object information, the described 4th survey Measure object information, the 5th measurement object information, the 6th measurement object information, the 7th measurement object information, institute The 8th measurement object information, the 9th measurement object information, the tenth measurement object information and the described 11st is stated to measure Each measurement object information in object information respectively includes at least one of following information：

Beam information, wave beam group information, TRP information, TRP group informations, cell information, cell group information, frequency information, group of frequencies Information, carrier information, carrier wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information and wireless Access network information.

18. method according to claim 16 or 17, which is characterized in that the terminal device obtains gap information, including：

The terminal device receives the configuration message that first network side is sent, and the configuration message carries the gap information.

19. according to the method for claim 18, which is characterized in that the configuration message also carries the excellent of J gap information First grade information, J >=1, J are integer；

The terminal device detect and/or measure in the gap indicated by the gap information first signal it Before, the method further includes：

The terminal device determines the according to preset alternative condition and the precedence information from the J gap information One gap information, first gap information are highest priority and meet the gap information of the alternative condition；

The terminal device detects and/or measures first signal in the gap indicated by the gap information, packet It includes：

The terminal device detects and/or measures first letter in the gap indicated by first gap information Number.

20. according to the method for claim 18, which is characterized in that also carried in the configuration message J2 type of service with The correspondence of J gap information, J2 >=1, J2 are integer；

The terminal device detect and/or measure in the gap indicated by the gap information first signal it Before, the method further includes：

The terminal device according to the correspondence it is determining between the type of service of terminal current transmission corresponding second Gap information；

The terminal device detects and/or measures first signal in the gap indicated by the gap information, packet It includes：

The terminal device detects and/or measures first signal in the gap indicated by second gap information.

21. according to claim 18-20 any one of them methods, which is characterized in that described in also being carried in the configuration message The information of first signal；

The terminal device detects and/or measures first signal in the gap indicated by the gap information, packet It includes：

The terminal device utilizes the information detection of first signal in the gap indicated by the gap information And/or measure first signal.

22. according to claim 14-17 any one of them methods, which is characterized in that the terminal device obtains gap information, Including：

The terminal device receives the configuration message that first network side apparatus is sent, and the configuration message carries first signal Information；

Gap information described in information configuration of the terminal device according to first signal.

23. according to the method for claim 22, which is characterized in that the terminal device is according to the information of first signal After configuring the gap information, the terminal device is detected and/or is surveyed in the gap indicated by the gap information Before measuring first signal, the method further includes：

The terminal device sends the gap information to the first network side apparatus, so that the first network side apparatus Stop to the terminal device transmission data in the gap of gap information instruction.

24. according to claim 14-23 any one of them methods, which is characterized in that the information of first signal includes institute It states the transmission time information of the first signal, send the subcarrier spacing information used when first signal, modulation and coding plan Slightly, send diversity, the value information of corresponding wave beam, antenna port information, multiplex mode, first signal sequence type, The weight of the sequence length of first signal, the sequential labeling of first signal or mark and the sequence of first signal One or more of compound formula information；

Wherein, the transmission time information includes absolute time information, sending cycle and the offset for sending first signal One or more of amount information.

25. according to the method for claim 24, which is characterized in that first signal is synchronizing signal, when the transmission Between information include the absolute resource time information for sending the synchronizing signal, synchronizing signal cluster is closed where the synchronizing signal The period of offset, synchronizing signal place synchronizing signal group that synchronizing signal cluster where period, the synchronizing signal is closed, Period of synchronizing signal block where the offset, the synchronizing signal of synchronizing signal group where the synchronizing signal and described same One or more of offset information where walking signal.

26. according to claim 18-25 any one of them methods, which is characterized in that the configuration message, which also carries, matches confidence Breath；

The terminal device measures first signal in the gap indicated by the gap information, including：

The terminal device determines the transmission position of first signal according to the configuration information；

The terminal device measures first letter in the gap indicated by second gap information, in the transmission position Number；

Wherein, the configuration information include with the terminal device where serving cell time offset, with it is described service it is small The frequency offset in area, send first signal frequency point carrier wave interval, with the time offset of first community and with One or more of the frequency offset of first community information.

27. a kind of network side equipment, which is characterized in that including：

Acquiring unit, the information for obtaining the first signal, the information of first signal is for configuring gap information, between described Gap information is used to indicate terminal device detection and/or measures the gap of first signal；

Transmission unit, for sending configuration message to the terminal device, carrying the acquiring unit in the configuration message obtains The information and/or the gap information of first signal taken.

28. network side equipment according to claim 27, which is characterized in that first letter that the acquiring unit obtains Number include at least one of following signals：

Reference signal that synchronizing signal that the first network side apparatus is sent, the first network side apparatus are sent, described the The reference signal that the synchronizing signal and second network side equipment that two network side equipments are sent are sent.

29. network side equipment according to claim 28, which is characterized in that first letter that the acquiring unit obtains Number include second network side equipment send the synchronizing signal and/or second network side equipment send the ginseng Signal is examined,

The acquiring unit is specifically used for by the interface between second network side equipment, from second network side Equipment obtains the information of first signal, alternatively, obtaining the information of first signal from network management device.

30. according to claim 27-29 any one of them network side equipments, which is characterized in that the number of the gap information It it is J, J >=1, J are integer.

31. network side equipment according to claim 30, which is characterized in that the J1 gap letter in J gap information The configuration mode of breath is any one in following three kinds, and 1≤J1≤J, J are integer,

Mode one：The J1 gap information includes at least one of following information：

Between label corresponding with the J1 gap information or mark, the information of the N number of first gap pattern and J1 The corresponding first measurement object information of gap information, measuring signal type corresponding with the J1 gap information, with it is described N number of The corresponding second measurement object information of information of N1 in the information of first gap pattern the first gap patterns and described N number of Relationship between the information of N2 in the information of first gap pattern the first gap patterns, N >=1, N are integer, 1≤N1≤N, N1 is integer, and 1≤N2≤N, N2 are integer；

The information of the first gap pattern of each of the information of N number of first gap pattern includes at least one in following information Kind：

The label or mark of first gap pattern, the period of first gap pattern, first gap pattern week The first overall measurement duration, described of the number of phase, the first duration of first gap pattern, first gap pattern First in first overall measurement duration effectively measure duration, the first start bit of first gap pattern is set, with described first The corresponding third measurement object information of gap pattern and measuring signal type corresponding with first gap pattern；

Mode two：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, the period 1, the number of the period 1, with described the Second in the corresponding second overall measurement duration of J1 gap information, the second overall measurement duration effectively measures duration and institute State the corresponding 4th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information M1 in the information of type, the M in the period 1 the second gap patterns and the information of the M the second gap patterns M2 in the corresponding 5th measurement object information of information of second gap pattern and the information of the M the second gap patterns Relationship between the information of second gap pattern, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are whole Number；

The information of the second gap pattern of each of the information of the M the second gap patterns includes at least one in following information Kind：

Second duration of second gap pattern, the second initial position of second gap pattern and described second The corresponding 6th measurement object information of gap pattern, measuring signal type corresponding with second gap pattern；

Mode three：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, second round, the number of the second round, with described the Third in the corresponding third overall measurement duration of J1 gap information, the third overall measurement duration effectively measures duration and institute State the corresponding 7th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information X1 gap in type, the information of X gap pattern group and the information of the X gap pattern group in the second round X2 gap pattern in the corresponding 8th measurement object information of information of pattern group and the information of the X gap pattern group Relationship between the information of group, X >=1, X are integer, and 1≤X1≤X, X1 are integer, and 1≤X2≤X, X2 are integer；

The information of each gap pattern group in the information of the X gap pattern group includes at least one of following information：

The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern K in the corresponding 9th measurement object information of group, measuring signal type corresponding with the gap pattern group, the gap pattern group The information of a third space pattern, the whether continuous information of K third space pattern and the K third space pattern Information in K1 third space pattern the corresponding tenth measurement object information of information and the K third space pattern Information in K2 third space pattern information between relationship, K >=1, K are integer, and 1≤K1≤K, K1 are integer, 1≤ K2≤K, K2 are integer；

The information of each third space pattern in the information of the K third space pattern includes at least one in following information Kind：

4th duration of the third space pattern, the third space pattern fourth beginning position, with the third The corresponding 11st measurement object information of gap pattern and measuring signal type corresponding with the third space pattern；

Wherein, between the information of a second gap pattern of the relationship between the information of the N2 the first gap patterns, the M2 Relationship, between the information of the relationship between the information of the X2 gap pattern group and the K2 third space pattern Relationship respectively includes at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain and silent Recognize pattern and adapts to the relativeness between pattern；

The first measurement object information, the second measurement object information, the third measurement object information, the described 4th survey Measure object information, the 5th measurement object information, the 6th measurement object information, the 7th measurement object information, institute State the 8th measurement object information, the 9th measurement object information, the tenth measurement object information and the 11st survey Each measurement object information in amount object information respectively includes at least one of following information：

Beam information, wave beam group information, TRP information, TRP group informations, cell information, cell group information, frequency information, group of frequencies Information, carrier information, carrier wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information and wireless Access network information.

32. the network side equipment according to claim 30 or 31, which is characterized in that described the matching of the transmission unit transmission The information that the gap information or the gap information and first signal are carried in message is set, the network side equipment also wraps Dispensing unit is included,

The dispensing unit, for before the transmission unit sends configuration message to the terminal device, according to described the Gap information described in the information configuration of one signal.

33. network side equipment according to claim 32, which is characterized in that the network side equipment further includes receiving list Member,

The receiving unit, for the gap information described in information configuration of the dispensing unit according to first signal it Before, the measurement capability information that the terminal device is sent is received, the measurement capability information is used to indicate the terminal device Measurement capability, including RF capabilities and/or the ability for supporting bandwidth；

The dispensing unit, specifically for determining the gap according to the information and the measurement capability information of first signal Information.

34. the network side equipment according to claim 32 or 33, which is characterized in that

The dispensing unit is specifically used for the information according to first signal, between configuration is J corresponding with J2 type of service Gap information, J2 >=1, J2 are integer；

The J2 type of service and the J gap information are also carried in the configuration message that the transmission unit is sent Correspondence.

35. the network side equipment according to claim 32 or 33, which is characterized in that described the matching of the transmission unit transmission It sets and also carries the corresponding precedence information of J gap information in message.

36. according to claim 27-31 any one of them network side equipments, which is characterized in that the transmission unit was sent The information of first signal is carried in the configuration message, the network side equipment further includes receiving unit,

The receiving unit receives the gap information that the terminal device is sent for the first network side apparatus；

The transmission unit is additionally operable in the gap that the gap information indicates, stops sending to the terminal device Data.

37. according to claim 27-36 any one of them network side equipments, which is characterized in that the acquiring unit obtained The information of first signal includes the transmission time information of first signal, sends the son load used when first signal Wave spacing information, modulation and coding strategy, send diversity, the value information of corresponding wave beam, antenna port information, multiplex mode, The sequence type of first signal, the sequence length of first signal, first signal sequential labeling or mark with And one or more of repetitive mode of sequence of first signal information；

Wherein, the transmission time information includes absolute time information, sending cycle and the offset for sending first signal One or more of amount information.

38. according to the network side equipment described in claim 37, which is characterized in that first signal is synchronizing signal, described The transmission time information that acquiring unit obtains includes the absolute resource time information for sending the synchronizing signal, the synchronization The offset of synchronizing signal cluster conjunction, the synchronization where the period of synchronizing signal cluster conjunction, the synchronizing signal where signal Where the offset, the synchronizing signal of synchronizing signal group where the period of synchronizing signal group, the synchronizing signal where signal One or more of offset information where the period of synchronizing signal block and the synchronizing signal.

39. network side equipment according to claim 29, which is characterized in that

The acquiring unit is additionally operable to before the transmission unit sends configuration message to the terminal device, from described the Two network side equipments obtain configuration information；

The configuration message that the transmission unit is sent also carries the configuration information；

Wherein, the configuration information include with the terminal device where serving cell time offset, with it is described service it is small The frequency offset in area, send first signal frequency point carrier wave interval, with the time offset of first community and with One or more of the frequency offset of first community information.

40. a kind of terminal device, which is characterized in that including：

Acquiring unit is the information resources information configuration according to the first signal for taking gap information, the gap information , the gap information is used to indicate detection and/or measures the gap of first signal；

Measuring unit, for detection in the gap indicated by the gap information that the acquiring unit obtains and/or Measure first signal.

41. terminal device according to claim 40, which is characterized in that first signal include in following signals extremely Few one kind：

Reference signal that synchronizing signal that the first network side apparatus is sent, the first network side apparatus are sent, described the The reference signal that the synchronizing signal and second network side equipment that two network side equipments are sent are sent.

42. the terminal device according to claim 40 or 41, which is characterized in that the number of the gap information is J, J >=1, J are integer.

43. terminal device according to claim 42, which is characterized in that the J1 gap information in J gap information Configuration mode be following three kinds in any one, 1≤J1≤J, J are integer,

Mode one：The J1 gap information includes at least one of following information：

Between label corresponding with the J1 gap information or mark, the information of the N number of first gap pattern and J1 The corresponding first measurement object information of gap information, measuring signal type corresponding with the J1 gap information, with it is described N number of The corresponding second measurement object information of information of N1 in the information of first gap pattern the first gap patterns and described N number of Relationship between the information of N2 in the information of first gap pattern the first gap patterns, N >=1, N are integer, 1≤N1≤N, N1 is integer, and 1≤N2≤N, N2 are integer；

The information of the first gap pattern of each of the information of N number of first gap pattern includes at least one in following information Kind：

The label or mark of first gap pattern, the period of first gap pattern, first gap pattern week The first overall measurement duration, described of the number of phase, the first duration of first gap pattern, first gap pattern First in first overall measurement duration effectively measure duration, the first start bit of first gap pattern is set, with described first The corresponding third measurement object information of gap pattern and measuring signal type corresponding with first gap pattern；

Mode two：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, the period 1, the number of the period 1, with described the Second in the corresponding second overall measurement duration of J1 gap information, the second overall measurement duration effectively measures duration and institute State the corresponding 4th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information M1 in the information of type, the M in the period 1 the second gap patterns and the information of the M the second gap patterns M2 in the corresponding 5th measurement object information of information of second gap pattern and the information of the M the second gap patterns Relationship between the information of second gap pattern, M >=1, M are integer, and 1≤M1≤M, M1 are integer, and 1≤M2≤M, M2 are whole Number；

The information of the second gap pattern of each of the information of the M the second gap patterns includes at least one in following information Kind：

Second duration of second gap pattern, the second initial position of second gap pattern and described second The corresponding 6th measurement object information of gap pattern and measuring signal type corresponding with second gap pattern；

Mode three：The J1 gap information includes at least one of following information：

Label corresponding with the J1 gap information or mark, second round, the number of the second round, with described the Third in the corresponding third overall measurement duration of J1 gap information, the third overall measurement duration effectively measures duration and institute State the corresponding 7th measurement object information of the J1 gap information, measuring signal class corresponding with the J1 gap information X1 gap in type, the information of X gap pattern group and the information of the X gap pattern group in the second round X2 gap pattern in the corresponding 8th measurement object information of information of pattern group and the information of the X gap pattern group Relationship between the information of group, X >=1, X are integer, and 1≤X1≤X, X1 are integer, and 1≤X2≤X, X2 are integer；

The information of each gap pattern group in the information of the X gap pattern group includes at least one of following information：

The third duration of the gap pattern group, the third initial position of the gap pattern group and the gap pattern K in the corresponding 9th measurement object information of group, measuring signal type corresponding with the gap pattern group, the gap pattern group The information of a third space pattern, the whether continuous information of K third space pattern and the K third space pattern Information in K1 third space pattern the corresponding tenth measurement object information of information and the K third space pattern Information in K2 third space pattern information between relationship, K >=1, K are integer, and 1≤K1≤K, K1 are integer, 1≤ K2≤K, K2 are integer；

The information of each third space pattern in the information of the K third space pattern includes at least one in following information Kind：

4th duration of the third space pattern, the third space pattern fourth beginning position, with the third The corresponding 11st measurement object information of gap pattern and measuring signal type corresponding with the third space pattern；

Wherein, between the information of a second gap pattern of the relationship between the information of the N2 the first gap patterns, the M2 Relationship, between the information of the relationship between the information of the X2 gap pattern group and the K2 third space pattern Relationship respectively includes at least one of following relationship：

The relativeness in relativeness, spatial domain in temporal relativeness, frequency, the relativeness in code domain and silent Recognize pattern and adapts to the relativeness between pattern；

The first measurement object information, the second measurement object information, the third measurement object information, the described 4th survey Measure object information, the 5th measurement object information, the 6th measurement object information, the 7th measurement object information, institute The 8th measurement object information, the 9th measurement object information, the tenth measurement object information and the described 11st is stated to measure Each measurement object information in object information respectively includes at least one of following information：

Beam information, wave beam group information, TRP information, TRP group informations, cell information, cell group information, frequency information, group of frequencies Information, carrier information, carrier wave group information, frequency wireless physical characteristic information, frequency wireless physical characteristic group information and wireless Access network information.

44. the terminal device according to claim 42 or 43, which is characterized in that

The acquiring unit is specifically used for receiving the configuration message that first network side is sent, between the configuration message carrying is described Gap information.

45. terminal device according to claim 44, which is characterized in that the configuration message that the acquiring unit receives The precedence information of J gap information is also carried, J >=1, J are integer, and the terminal device further includes determination unit,

The determination unit, for being detected in the gap indicated by the gap information in the measuring unit and/or Before measuring first signal, according to preset alternative condition and the precedence information, from the J gap information really Fixed first gap information, first gap information are highest priority and meet the gap information of the alternative condition；

The measuring unit is specifically used for detecting and/or measuring institute in the gap indicated by first gap information State the first signal.

46. terminal device according to claim 44, which is characterized in that the configuration message that the acquiring unit receives In also carry the correspondence of J2 type of service and J gap information, J2 >=1, J2 are integer, and the terminal device further includes Determination unit,

The determination unit, for being detected in the gap indicated by the gap information in the measuring unit and/or Before measuring first signal, corresponding with the type of service of terminal current transmission the is determined according to the correspondence Two gap informations；

The measuring unit, specifically for detecting and/or measuring described in the gap indicated by second gap information One signal.

47. according to claim 44-46 any one of them terminal devices, which is characterized in that also carried in the configuration message The information of first signal；

The terminal device detects and/or measures first signal in the gap indicated by the gap information, packet It includes：

The terminal device utilizes the information detection of first signal in the gap indicated by the gap information And/or measure first signal.

48. according to claim 40-43 any one of them terminal devices, which is characterized in that

The acquiring unit is specifically used for receiving the configuration message that first network side apparatus is sent, and the configuration message carries institute The information of the first signal is stated, and according to gap information described in the information configuration of first signal.

49. terminal device according to claim 48, which is characterized in that the terminal device further includes transmission unit,

The transmission unit, for the gap information described in information configuration of the acquiring unit according to first signal it Afterwards, detect and/or measure in the gap in the measuring unit indicated by the gap information first signal it Before, the gap information is sent to the first network side apparatus, so that the first network side apparatus is believed in the gap It ceases and stops to the terminal device transmission data in the gap of instruction.

50. according to claim 40-49 any one of them terminal devices, which is characterized in that the packet of first signal It includes the transmission time information of first signal, send subcarrier spacing information, modulation and the volume used when first signal Code strategy sends diversity, the sequence class of the value information of corresponding wave beam, antenna port information, multiplex mode, first signal The sequence of type, the sequence length of first signal, the sequential labeling of first signal or mark and first signal One or more of repetitive mode information；

Wherein, the transmission time information includes absolute time information, sending cycle and the offset for sending first signal One or more of amount information.

51. terminal device according to claim 50, which is characterized in that first signal is synchronizing signal, the hair It includes synchronizing signal cluster where the absolute resource time information for sending the synchronizing signal, the synchronizing signal to send temporal information Synchronizing signal group where the offset, the synchronizing signal of synchronizing signal cluster conjunction where the period of conjunction, the synchronizing signal The period of synchronizing signal block where period, the offset of synchronizing signal group where the synchronizing signal, the synchronizing signal and One or more of offset information where the synchronizing signal.

52. according to claim 44-51 any one of them terminal devices, which is characterized in that the acquiring unit received The configuration message also carries configuration information；

The measuring unit, specifically for determining the transmission position of first signal according to the configuration information, and In gap indicated by second gap information, first signal is measured in the transmission position；

Wherein, the configuration information include with the terminal device where serving cell time offset, with it is described service it is small The frequency offset in area, send first signal frequency point carrier wave interval, with the time offset of first community and with One or more of the frequency offset of first community information.

53. a kind of communication system, which is characterized in that including：

As claim 27-39 any one of them network side equipments, and such as claim 40-52 any one of them terminals are set It is standby.