CN109391994A - Communication means and communication equipment - Google Patents

Abstract

This application provides a kind of communication means and communication equipment, be conducive to meet the measurement demand that the measuring signal that distinct device sends terminal device measures.This method comprises: first terminal equipment receives the first configuration information and the second configuration information from first network equipment, first configuration information is used to send first kind measuring signal for the first terminal equipment and configures first resource, and second configuration information, which is used to send Second Type measuring signal for the first terminal equipment, configures Secondary resource；The first terminal equipment sends the first kind measuring signal according to the first resource, and the Second Type measuring signal is sent according to the Secondary resource, wherein, the first kind measuring signal is measured for first network equipment, and the Second Type measuring signal is measured at least one of second network equipment and second terminal equipment.

Description

Communication means and communication equipment

Technical field

This application involves the field communications fields, and more particularly, to communication means and communication equipment.

Background technique

In existing long term evolution (long term evolution, LTE) system, terminal device sends measuring signal and uses Up channel measurement is carried out in the network equipment for serving the terminal device.In order to improve communication efficiency, it is not only served in the end The network equipment of end equipment has the demand measured to the measuring signal, and other equipment may also have the survey to the terminal device The demand that amount signal measures.

Based on this, how terminal device sends measuring signal as technical problem urgently to be resolved.

Summary of the invention

The application provides a kind of communication means and communication equipment, is conducive to meet the survey that distinct device sends terminal device The measurement demand that amount signal measures.

In a first aspect, provide a kind of communication means, this method comprises: first terminal equipment receives the from first network equipment One configuration information and the second configuration information, first configuration information are used to send the first kind for the first terminal equipment Measuring signal configures first resource, and second configuration information is used to send Second Type measurement letter for the first terminal equipment Number configuration Secondary resource, wherein the first kind measuring signal is measured for the first network equipment, and described second Categorical measures signal is measured at least one of second network equipment and second terminal equipment；The first terminal equipment The first kind measuring signal is sent according to the first resource；The first terminal equipment is sent according to the Secondary resource The Second Type measuring signal.

In the embodiment of the present application, first terminal equipment can send first kind measurement letter according to the first configuration information Number, be conducive to measuring signal of the first network device measuring from first terminal equipment.Similarly, second terminal equipment can basis Second configuration information sends Second Type measuring signal, is conducive at least one of second network equipment and second terminal equipment Measure the measuring signal from first terminal equipment.Based on this, the program is conducive to meet distinct device to first terminal equipment The measurement demand that the measuring signal of transmission measures.

In one possible implementation, the first resource includes running time-frequency resource and the Secondary resource include Running time-frequency resource has lap；The first terminal equipment sends the first kind measurement letter according to the first resource Number, the first terminal equipment sends the Second Type measuring signal according to the Secondary resource, comprising: the first terminal Equipment sends the first kind measuring signal or the Second Type measuring signal in the lap.

In the embodiment of the present application, the running time-frequency resource that the running time-frequency resource and Secondary resource that first resource includes include has weight Folded part, the program are conducive to save the running time-frequency resource that measuring signal occupies, and are conducive to the utilization rate for improving system time frequency resource.

In one possible implementation, the method also includes: the first terminal equipment from the first network Equipment receives instruction information, and the instruction information is used to indicate first kind measuring signal or Second Type measuring signal；It is described First terminal equipment sends the first kind measuring signal or the Second Type measuring signal in the lap, packet Include: the first terminal equipment sends the measuring signal of the instruction information instruction in the lap.

In the embodiment of the present application, first terminal equipment can be distributed based on the instruction of first network equipment in overlapping portion Corresponding measuring signal is sent, the flexibility of the program is higher, is conducive to first terminal equipment and sends measuring signal appropriate.

In one possible implementation, the Secondary resource includes first time unit, the first terminal equipment Send the Second Type measuring signal according to the Secondary resource, comprising: if after the first time unit second when Between unit for the first terminal equipment send data, the first terminal equipment on the first time unit, send The Second Type measuring signal.

In the embodiment of the present application, whether first terminal equipment can have upstream data transmission according to subsequent, it is determined whether Second Type measuring signal is sent on first time unit.Enabled second network equipment sends number to the terminal device of this cell According to before, interference of the first terminal equipment to the terminal device of this cell is predefined, and carry out second according to the disturbed condition The descending scheduling of time quantum is conducive to improve efficiency of transmission.

Optionally, in one possible implementation, this method can also include: first terminal equipment from first network Equipment receives scheduling information, which is used to distribute the second time quantum for the first terminal equipment uplink data sending (or distribution time-domain position, the time-domain position belong to the second time quantum), which determines according to the scheduling information Second time quantum is used for the first terminal equipment uplink data sending.

In the embodiment of the present application, first terminal equipment can determine that the second time quantum is by receiving scheduling information No to be used for first terminal equipment uplink data sending, the program has preferable applicability.

In one possible implementation, the Secondary resource includes the first symbol, and first symbol is for described The non-uplink of first network equipment, the first terminal equipment send the Second Type measurement letter according to the Secondary resource Number, comprising: the first terminal equipment sends the Second Type measuring signal on first symbol.

In the embodiment of the present application, the time-domain position (for example, first symbol) that Secondary resource includes is configurable for The non-uplink of one network equipment, if first terminal equipment stops at transmission Second Type measuring signal on the time-domain position, by First terminal equipment may be unable to learn in time in second network equipment or second terminal equipment not send on the time-domain position Second Type measuring signal, second network equipment or second terminal equipment may will continue to measure on the time-domain position, So as to cause measurement result inaccuracy, interference coordination process is influenced.Therefore, in the embodiment of the present application, if Secondary resource includes Time-domain position be configurable for the non-uplink of first network equipment, which can be after in the time-domain position Upper transmission Second Type measuring signal is conducive to improve measurement accuracy rate, is conducive to carry out interference coordination.

Optionally, in one possible implementation, the first resource includes the first symbol；The method is also wrapped Include: first symbol is used for the non-uplink of first network equipment, and the first terminal equipment determines not described the The first kind measuring signal is sent on two symbols.

In the embodiment of the present application, the time-domain position (for example, first symbol) that first resource includes is configurable for The non-uplink of one network equipment, first terminal equipment, which determines, sends first kind measuring signal not on the time-domain position, should Scheme is conducive to improve resource utilization.

Optionally, in one possible implementation, the method also includes: the first terminal equipment from described One network equipment receives transmission direction information, and the transmission direction information is used to indicate the transmission side of each symbol in multiple symbols To, wherein multiple symbol includes first symbol, and first terminal equipment determines described according to the transmission direction information One symbol is used for the non-uplink of first network equipment.Optionally, the transmission direction information is time slot format information.

Second aspect provides a kind of communication means, this method comprises: first network equipment determine the first configuration information and Second configuration information, first configuration information are used to send first kind measuring signal configuration for the first terminal equipment One resource, second configuration information are used to send the second money of Second Type measuring signal configuration for the first terminal equipment Source, wherein the first kind measuring signal is measured for the first network equipment, the Second Type measuring signal It is measured at least one of second network equipment and second terminal equipment；The first network equipment sends described first Configuration information and second configuration information.

In the embodiment of the present application, first network equipment can send two class measuring signals for first terminal equipment and match respectively Resource is set, is conducive to first terminal equipment and sends two class measuring signals, is conducive to meet distinct device to first terminal equipment hair The demand that the measuring signal sent measures.

In one possible implementation, the first resource includes running time-frequency resource and the Secondary resource include Running time-frequency resource has lap.

In the embodiment of the present application, the running time-frequency resource that the running time-frequency resource and Secondary resource that first resource includes include has weight Folded part, the program are conducive to save the running time-frequency resource that measuring signal occupies, and are conducive to the utilization rate for improving system time frequency resource.

In one possible implementation, the first network equipment sends instruction letter to the first terminal equipment Breath, the instruction information are used to indicate the first terminal equipment and send the first kind measuring signal in the lap Or the Second Type measuring signal.

In the embodiment of the present application, first terminal equipment can be distributed based on the instruction of first network equipment in overlapping portion Corresponding measuring signal is sent, the flexibility of the program is higher, is conducive to first terminal equipment and sends measuring signal appropriate.

In one possible implementation, the Secondary resource includes first time unit, the method also includes: institute It states first network equipment and sends scheduling information to the first terminal equipment, the scheduling information is used to set for the first terminal Standby uplink data sending distributes the second time quantum, and the scheduling information is also used to the first terminal equipment and determines described the The Second Type measuring signal is sent on one time quantum, wherein it is single that second time quantum is located at the first time After member.

In the embodiment of the present application, which is sent to first terminal equipment by first network equipment, in order to One terminal device, which can determine, sends Second Type measuring signal, and the program has preferable applicability.

Optionally, in one possible implementation, first network equipment sends transmission direction information, the transmission side It is used to indicate the transmission direction of each symbol in multiple symbols to information, the multiple symbol includes the first symbol, and described second Resource includes first symbol.

The third aspect provides a kind of communication means, which comprises second terminal equipment receives third from the network equipment Configuration information, the third configuration information, which is used to receive measuring signal for the second terminal equipment, configures information resources, described Information resources belong to the resource that measuring signal is sent for terminal device；The second terminal equipment on the information resources, Received measuring signal is measured.

In the embodiment of the present application, which belongs to the resource that the second terminal equipment sends measuring signal, should Scheme is conducive to the resource aligning that first terminal equipment sends measuring signal and second terminal equipment receives measuring signal, is conducive to Improve the accuracy rate of second terminal device measuring.

In one possible implementation, the information resources include first time unit, the second terminal equipment On the information resources, received measuring signal is measured, comprising: if after the first time unit second when Between unit be used for the second terminal equipment downlink reception data, the second terminal equipment on the first time unit, Received measuring signal is measured.

In the embodiment of the present application, whether second terminal equipment is used for the second terminal equipment according to the second time quantum Downlink reception data, it is determined whether measure the Second Type measuring signal, on first time unit in order to the network equipment Transmission on the second time quantum of coordinated scheduling, the program are conducive to improve transmission data success rate.

Optionally, in one possible implementation, the information resources include the first symbol, and first symbol is used In the non-downlink transfer of the network equipment, for the second terminal equipment on the information resources, measurement is whole from described first The measuring signal of end equipment, comprising: on first symbol, measurement is set the second terminal equipment from the first terminal Standby measuring signal.

In the embodiment of the present application, the time-domain position (for example, first symbol) that information resources include is configurable for net The non-downlink transfer of network equipment, second terminal equipment can continue to measure on the first symbol.The network equipment can pass through tune Degree is not so that the terminal device of this cell sends signal in the corresponding resource of first symbol, for avoiding to measurement process Interference.

It optionally, in one possible implementation, include the first symbol the method also includes: information resources Number, first symbol is used for the non-downlink transfer of the network equipment, the method also includes: the second terminal equipment determines Not on first symbol, the measurement of signal is measured.

In the embodiment of the present application, the time-domain position (for example, first symbol) that information resources include is configurable for net The non-downlink transfer of network equipment, the determination of second terminal equipment do not measure measuring signal on the time-domain position, and the program has Conducive to raising resource utilization.

Fourth aspect provides a kind of communication means, which comprises the network equipment determines information resources, the third Resource belongs to the resource that measuring signal is sent for terminal device；The network equipment sends third to the second terminal equipment Configuration information, the third configuration information, which is used to receive measuring signal for the second terminal equipment, configures the information resources.

In the embodiment of the present application, which belongs to the resource that the second terminal equipment sends measuring signal, has It is accurately measured conducive to second terminal equipment.

In one possible implementation, the method also includes: the information resources include first time unit, institute State method further include: the network equipment sends scheduling information to the second terminal equipment, and the scheduling information is used for as institute It states second terminal equipment downlink reception data and distributes the second time quantum, the scheduling information is also used to the second terminal equipment Determination sends the Second Type measuring signal on the first time unit.

Optionally, in one possible implementation, the method also includes: if second after first time unit Time quantum sends data for the network equipment, and the network equipment is measured on the first time unit from described The measuring signal of first terminal equipment.

In the embodiment of the present application, whether the network equipment is used for the second terminal equipment downlink according to the second time quantum Receive data, it is determined whether measure the Second Type measuring signal, on first time unit in order to network equipment coordination The transmission on the second time quantum is dispatched, the program is conducive to improve transmission data success rate.

In conjunction with any possible implementation of any of the above-described aspect or any of the above-described aspect, the first kind measurement Signal is the equipment-specific measuring signal of the first terminal, and the Second Type measuring signal is that multiple terminal devices are common Measuring signal, the multiple terminal device include the first terminal equipment；And/or the sequence of the first kind measuring signal Sequence for First ray, the Second Type measuring signal is the second sequence, and the First ray and second sequence are not Together；And/or it is the first scrambling code that the first terminal equipment, which sends scrambling code that the first kind measuring signal uses, described second It is the second scrambling code that terminal device, which sends the scrambling code that the Second Type signal uses, and first scrambling code and second scrambling code are not Together.

Optionally, in conjunction with any possible implementation of any of the above-described aspect or any of the above-described aspect, First ray For the dedicated sequences of first terminal equipment, the second sequence is the common sequence of multiple terminal devices, and multiple terminal device includes First terminal equipment.

Optionally, in conjunction with any possible implementation of any of the above-described aspect or any of the above-described aspect, a scrambling code For the dedicated scrambling code of the first equipment, the second scrambling code is the public scrambling code of multiple terminal devices, and multiple terminal device includes first Terminal device.

Optionally, in conjunction with any possible implementation of any of the above-described aspect or any of the above-described aspect, described first K time quantum, k >=1 are spaced between time quantum and second time quantum.Optionally, the value of k can be by the network equipment It configures or makes an appointment.

Optionally, in conjunction with any possible implementation of any of the above-described aspect or any of the above-described aspect, the first kind Measuring signal is generated based on the mark ID of the first terminal equipment, and Second Type measuring signal is based on the first network equipment ID generate or the Second Type measuring signal based on user group described in the first terminal equipment user group ID generate.

5th aspect, provides a kind of communication equipment, the communication equipment includes for executing first aspect or first party Each unit of any possible implementation in face, which can be terminal device (first terminal equipment) or base band core Piece.

6th aspect, provides a kind of communication equipment, the communication equipment includes for executing second aspect or second party Each unit of any possible implementation in face, wherein the communication equipment can for the network equipment (first network equipment) or Baseband chip.

7th aspect, provides a kind of communication equipment, the communication equipment includes for executing the third aspect or third party Each unit of any possible implementation in face, which can be terminal device (second terminal equipment) or base band core Piece.

Eighth aspect, provides a kind of communication equipment, and the communication equipment includes for executing fourth aspect or four directions Each unit of any possible implementation in face, wherein the communication equipment can be the network equipment or baseband chip.

9th aspect, provides a kind of communication equipment, including transmitting-receiving subassembly and processor, so that the communication equipment executes the Method in one side or any possible implementation of first aspect.Wherein, which can be terminal device (first Terminal device) or baseband chip.If the communication equipment is terminal device, which can be transceiver, if the communication is set Standby is baseband chip, which can be the input/output circuitry of baseband chip.

Tenth aspect, provides a kind of communication equipment, including transmitting-receiving subassembly and processor.So that the communication equipment executes the Method in two aspects or any possible implementation of second aspect.Wherein, which can be the network equipment (first The network equipment) or baseband chip.If the communication equipment is the network equipment, which can be transceiver, if the communication is set Standby is baseband chip, which can be the input/output circuitry of baseband chip.

On the one hand tenth, provides a kind of communication equipment, including transmitting-receiving subassembly and processor, so that the communication equipment executes Method in the third aspect or any possible implementation of the third aspect.Wherein, which can be terminal device ( Two terminal devices) or baseband chip.If the communication equipment is terminal device, which can be transceiver, if the communication Equipment is baseband chip, which can be the input/output circuitry of baseband chip.

12nd aspect, provides a kind of communication equipment, including transmitting-receiving subassembly and processor.So that the communication equipment executes Method in fourth aspect or any possible implementation of fourth aspect.Wherein, the communication equipment can be the network equipment or Baseband chip.If the communication equipment is the network equipment, which can be transceiver, if the communication equipment is base band core Piece, the transmitting-receiving subassembly can be the input/output circuitry of baseband chip.

13rd aspect, provides a kind of computer program product, the computer program product includes: computer program Code, when the computer program code is run by terminal device, so that terminal device (first terminal equipment) execution is above-mentioned Method in first aspect or any possible implementation of first aspect.

Fourteenth aspect, provides a kind of computer program product, and the computer program product includes: computer program Code, when the computer program code is run by the network equipment, so that the network equipment (first network equipment) execution is above-mentioned Method in second aspect or any possible implementation of second aspect.

15th aspect, provides a kind of computer program product, the computer program product includes: computer program Code, when the computer program code is run by terminal device, so that terminal device (second terminal equipment) execution is above-mentioned Method in the third aspect or any possible implementation of the third aspect.

16th aspect, provides a kind of computer program product, the computer program product includes: computer program Code, when the computer program code is run by the network equipment so that the network equipment execute above-mentioned fourth aspect or Method in any possible implementation of fourth aspect.

17th aspect, provides a kind of computer-readable medium, and the computer-readable medium storage has program code, Said program code includes the instruction for executing the method in first aspect or any possible implementation of first aspect.

18th aspect, provides a kind of computer-readable medium, and the computer-readable medium storage has program code, Said program code includes the instruction for executing the method in second aspect or any possible implementation of second aspect.

19th aspect, provides a kind of computer-readable medium, and the computer-readable medium storage has program code, Said program code includes the instruction for executing the method in the third aspect or any possible implementation of the third aspect.

20th aspect, provides a kind of computer-readable medium, and the computer-readable medium storage has program code, Said program code includes the instruction for executing the method in fourth aspect or any possible implementation of fourth aspect.

In the embodiment of the present application, first terminal equipment can send two kinds of measurement letter based on two configuration informations Number, be conducive to meet the demand that distinct device measures the measuring signal of first terminal equipment.

Detailed description of the invention

Fig. 1 is the communication scenes figure suitable for the embodiment of the present application.

Fig. 2 is the schematic interaction figure according to an example of the communication means of the embodiment of the present application.

Fig. 3 is the schematic diagram according to an example of the communication means of the embodiment of the present application.

Fig. 4 is another schematic diagram according to the communication means of the embodiment of the present application.

Fig. 5 is the schematic diagram according to the another example of the communication means of the embodiment of the present application.

Fig. 6 is the schematic diagram according to an example again of the communication means of the embodiment of the present application.

Fig. 7 is the schematic diagram of an example clashed according to the transmission direction of the embodiment of the present application.

Fig. 8 is another schematic interaction figure according to the communication means of the embodiment of the present application.

Fig. 9 is the schematic block diagram according to an example of the communication equipment of the embodiment of the present application.

Figure 10 is another schematic block diagram according to the communication equipment of the embodiment of the present application.

Figure 11 is the schematic block diagram according to the another example of the communication equipment of the embodiment of the present application.

Figure 12 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.

Figure 13 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.

Figure 14 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.

Figure 15 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.

Figure 16 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.

Specific embodiment

Below in conjunction with attached drawing, the technical solution in the application is described.

It should be understood that the division of mode, situation, classification and embodiment in the embodiment of the present application is merely to the side described Just, special restriction should not be constituted, the feature in various modes, classification, situation and embodiment in the case of no contradiction may be used To combine.

It should also be understood that applying for that " first ", " second " and " third " in embodiment, should not be to the application only for distinguishing Constitute any restriction.

It should also be understood that the size of the serial number of each process is not meant to execute sequence in the various embodiments of the application It is successive, the execution of each process sequence should be determined by its function and internal logic, the implementation without coping with the embodiment of the present application Journey constitutes any restriction.

It should also be understood that the technical solution of the application can be applied to various communication systems, and such as: global mobile communication (global system of mobile communication, GSM) system, CDMA (code division Multiple access, CDMA) system, wideband code division multiple access (wideband code division multiple Access, WCDMA) it system, General Packet Radio Service (general packet radio service, GPRS), drills for a long time Into (long term evolution, LTE) system, advanced long term evolution (LTE-Advanced, LTE-A) system, general shifting Dynamic communication system (universal mobile telecommunication system, UMTS), next generation communication system (example Such as, the 5th Dai Tongxin (5G) system), the emerging system of a variety of access systems or evolution system etc..Wherein, 5G system can also be with Referred to as new generation of wireless access technology (new radio access technology, NR) system.

In the embodiment of the present application, the network equipment is that one kind is deployed in wireless access network to provide wirelessly for terminal device The device of communication function.The network equipment may include various forms of base stations, macro base station, micro-base station (also referred to as small station), relaying It stands, access point, new wireless controller (new radio controller, NR controller), centralized network element (centralized unit), radio frequency remoto module, distributed net element (distributed unit), receiving point (transmission reception point, TRP) or transfer point (transmission point, TP) or it is any its Its radio reception device, but the embodiment of the present application is without being limited thereto.Wherein, in the system using different wireless access technologys, The title for having the equipment of base station functions may be different.For example, the network equipment can be WLAN (wireless Local area networks, WLAN) in access point (access point, AP), can also be the evolution in LTE system Node B (evolved NodeB, eNB or eNodeB).Alternatively, the network equipment can also be the third generation (3rd Generation, 3G) system node B (Node B), it is vehicle-mounted in addition, the network equipment can also be relay station or access point The equipment perhaps network equipment in future the 5th Dai Tongxin (fifth-generation 5G) network or the following evolution it is public The network equipment etc. in land mobile network (public land mobile network, PLMN) network.

In the embodiment of the present application, terminal device may include the various handheld devices with wireless communication function, vehicle-mounted set Standby, wearable device calculates equipment or is connected to other processing equipments of radio modem.Terminal device can be communication The equipment for accessing network side by the network equipment (for example, NR or TRP) in system (for example, 5G), can also be referred to as user and set Standby (user equipment, UE), is a kind of equipment for providing a user voice and/or data connectivity, for example, having wireless Handheld device, mobile unit of linkage function etc..Common terminal for example, mobile phone, tablet computer, laptop, Palm PC, mobile internet device (mobile internet device, MID), wearable device, such as smartwatch, Intelligent bracelet, pedometer etc..

In new generation of wireless access (new radio access, NR) system, the dedicated (UE of user is introduced Specific) scheme measures the transmission of signal.Optionally, which can be Sounding Reference Signal (sounding reference signal, SRS).

That is, terminal device can send the measuring signal for being specific to the terminal device, that is, terminal device can be sent out Give the terminal device dedicated measuring signal.

The dedicated measuring signal of terminal device is referred to as " UE specific measuring signal ".For ease of description, may be used Dedicated measuring signal to be denoted as to " special measurement signal ".The special measurement signal that different terminal equipment is sent is different.Wherein, Measuring signal difference may include at least one of following a variety of situations:

Situation #1: if the sequence of two measuring signals is different, it is believed that two measuring signal differences.

For example, it is assumed that the sequence for the special measurement signal that terminal device #A is sent is sequence #a, what terminal device #B was sent The sequence of special measurement signal is that sequence #b, sequence #a and sequence #b are different sequences.

Situation #2: if it is different to send the scrambling code that two measuring signals use, it is believed that two measuring signal differences.

For example, it is assumed that it is #c that terminal device #C, which sends the scrambling code that special measurement signal uses, terminal device #D sends dedicated The scrambling code that measuring signal uses is that #d, scrambling code #c and scrambling code #d are different scrambling codes.

Situation #3: if it is different to send the cyclic shift that two measuring signals use, it is believed that two measuring signal differences.

For example, it is assumed that it is #e that terminal device #E, which sends the cyclic shift that special measurement signal uses, terminal device #F is sent The cyclic shift that special measurement signal uses is #f, which is #e and cyclic shift be #f is different cyclic shifts.

Similarly, it also includes a variety of situations that two measuring signals are identical.For example, in situation #1, if two measuring signals Sequence is identical, it is believed that two measuring signals are identical.In situation #2, if sending the scrambling code phase that two measuring signals use Together, it is believed that two measuring signals are identical.In situation #3, if the cyclic shift that two measuring signals of transmission use is identical, It is considered that two measuring signals are identical.

Based on the above, terminal device can send special measurement signal by least one of kinds of schemes.

Sequence (that is, dedicated sequences) life for being specific to the terminal device can be used in optionally an example, terminal device At special measurement signal.In other words, the sequence for the special measurement signal that terminal device is sent is to be specific to the terminal device Sequence.The sequence for the special measurement signal that different terminal equipment is sent is different.

The scrambling code (that is, dedicated scrambling code) for being specific to the terminal device can be used in optionally another example, terminal device Generate special measurement signal.In other words, it is to be specific to the terminal to set that terminal device, which sends the scrambling code that special measurement signal uses, Standby scrambling code.It is different that different terminal equipment sends the scrambling code that special measurement signal uses.

Optionally the cyclic shift for being specific to the terminal device can be used (that is, dedicated follow in an example, terminal device again Ring displacement) generate special measurement signal.In other words, it is exclusive that terminal device, which sends the cyclic shift that special measurement signal uses, In the cyclic shift of the terminal device.

Special measurement signal is introduced, the network equipment for being conducive to serve terminal device efficiently identifies terminal device, has Obtain some information relevant to Terminal Equipments characteristics conducive to the network equipment, be conducive to the network equipment efficiently to measuring signal into Row measurement.

It should be understood that it may include: equipment that the receiving end (for example, network equipment) of measuring signal, which measures measuring signal, By receive measuring signal, determine Reference Signal Received Power (reference signal received power, RSRP), Reference Signal Received Quality (reference signal received quality, RSRQ), channel quality indicate (channel Quality indicator, CQI), channel state information (channel state information, CSI) and reception letter At least one of number intensity instruction (received signal strength indicator, RSSI).Optionally, measurement letter Number to measure to measuring signal can also include: equipment by up to angle (angle-of- for receiving end (for example, network equipment) Arrival, AOA) to estimate or is scanned by wave beam group, estimation sends the region or orientation where the transmitting terminal of the measuring signal.

In order to improve communication efficiency, the network equipment that is not only served in the terminal device, which has, measures measuring signal Demand, other equipment may also have the demand measured to the measuring signal of the terminal device.

For example, in a communications system, it is assumed that terminal device #A just sends signal in uplink, in addition to servicing for terminal device #A Network equipment #1 uplink receiving signal, signal may received there are also other equipment.For example, terminal device #B is being received The signal that network equipment #2 downlink is sent.Terminal device #B receive network equipment #2 downlink send signal simultaneously, may The signal that meeting receiving terminal apparatus #A uplink is sent sends signal to terminal device #B downlink so as to cause terminal device #A uplink It receives signal and generates interference, terminal device #B down receiving signal is easy to cause to fail.

For the scene, if terminal device #A is stronger to the interference of terminal device #B, when network equipment #2 knows that terminal is set When standby #A uplink sends signal, network equipment #2 can not dispatch terminal device #B down receiving signal or network equipment #2 can Signal is received in nonoverlapping resource sending with terminal device #A uplink with dispatch terminal equipment #B, to avoid terminal device #A Interference to terminal device #B.The interference of terminal device #B is believed that is, network equipment #2 needs to obtain terminal device #A Breath, to be used for dispatch terminal equipment #B.This is just needed, and terminal device #B surveys the terminal device #A measuring signal sent Amount.

Similarly, terminal device #A uplink sends signal and may also set to network equipment #2 uplink receiving generation interference, terminal Standby #A uplink sends signal and is also possible to generate interference to other terminal device down receiving signals of this cell.

Therefore, the network equipment of only terminal device service does not have the measuring signal sent to the terminal device to measure Demand, other equipment may also have the demand that measures of measuring signal sent to the terminal device.

From the foregoing, it can be understood that introducing special measurement signal in NR system, terminal device #A sends special measurement signal, does not take It is engaged in being difficult to terminal device #A transmission in other equipment such as the network equipment #2 and terminal device #B of terminal device #A Special measurement signal, to can not be accurately measured to the terminal device #A special measurement signal sent.

Therefore, how terminal device sends measuring signal, with the measurement demand for meeting distinct device, becomes and urgently solves Certainly the technical issues of.

Based on the above, the embodiment of the present application provides a kind of communication means, is conducive to meet distinct device and sets to terminal The measurement demand for the measuring signal that preparation is sent.

Fig. 1 is the communication scenes figure suitable for the embodiment of the present application.As shown in Figure 1, the communication scenes 100 are set including network Standby 101, the application scenarios further include the terminal device 102 and terminal device within 101 coverage area of the network equipment 103.The network equipment 101 can be communicated with terminal device 102 and terminal device 103.The application scenarios can also include net Network equipment 104 and the terminal device 105 within 104 coverage area of the network equipment.It should be understood that the application scenarios may be used also To include the terminal device being more located within 101 coverage area of the network equipment, and more it is located at the network equipment 102 and covers Terminal device within the scope of lid.

The embodiment of the present application in order to facilitate understanding is first illustrated several concepts of the embodiment of the present application.

Time quantum: in the embodiment of the present application, time quantum refers to a period of time length, for example, the time quantum can Think a subframe (subframe), a time slot (slot), a mini-slot (mini-slot) or a symbol etc..It should Time quantum is also possible to multiple subframes, multiple time slots, multiple mini-slot or multiple symbols etc..Further, the time is single Member can be the chronomere that scheduled transmission block is used in communication system.For example, the time quantum can be Transmission Time Interval (transmission time interval, TTI).

Transmission direction: in the embodiment of the present application, transmission direction includes at least uplink and downlink transfer.The transmission side To can also include at least one of empty (empty) uncertain (unknown) and reserved (reserved).Wherein, transmission side Refer to that terminal device sends data to the network equipment to for uplink.Transmission direction is that downlink transfer refers to the network equipment to end End equipment sends data.Transmission direction is empty it is to be understood that transmitting without data.For example, it is assumed that the transmission side of subframe #1 To being empty, it can be understood as not in subframe #1 transmitting data, subframe #1 is vacant resource, and the vacant resource can be used for Interference measurement, such as can be used for the measurement of cross jamming link.The transmission direction is that unknown/reserved can be regarded as not Know, is mainly used for forward compatibility consideration.For example, the transmission direction is that the subframe of unknown/reserved or time slot can be used It is communicated in device-to-device (Device-to-Device, D2D), measurement etc..

Non- uplink: transmission direction be non-uplink it is to be understood that transmission direction be downlink transfer, sky, Unknown or reserved.

Non- downlink transfer: transmission direction be non-downlink transfer it is to be understood that transmission direction be uplink, sky, Unknown or reserved.

Portions of bandwidth (bandwidth part, BP): in the embodiment of the present application, BP can be continuous for frequency domain the preceding paragraph Resource.For example, a portions of bandwidth includes continuous K (K > 0) a subcarrier；Alternatively, a portions of bandwidth is that K (K > 0) is a not Frequency domain resource where the continuous resource block (resource block, RB) of overlapping；Alternatively, a portions of bandwidth is M (M > 0) Frequency domain resource where a nonoverlapping continuous resource block group (resource block group, RBG), a RBG includes P (P > 0) a continuous RB.

The adjacent network equipment: there is the region collectively covered between two network equipments, it is believed that two networks Equipment is the adjacent network equipment.Or the distance between two network equipments are less than pre-determined threshold, it is believed that two networks Equipment is the adjacent network equipment.

Special measurement signal: the special measurement signal can refer to that the dedicated measuring signal of some terminal device is (or exclusive In the measuring signal of some terminal device).The special measurement signal that different terminal equipment is sent is different, the special measurement signal Detailed description may refer to associated description above, in order to not repeat herein succinctly.

Public measuring signal: the public measuring signal can refer to the common measuring signal of multiple terminal devices.Namely It says, multiple terminal devices can send identical measuring signal, which is that multiple terminal device is common Measuring signal.The public measuring signal can be accomplished in several ways.

For example, identical sequence can be configured for multiple terminal devices, that is, configuration common sequence.The common sequence is to survey Measure signal.Any terminal equipment in multiple terminal device sends the common sequence, it is believed that the terminal device sends public Measuring signal altogether.Optionally an example can also be the different running time-frequency resource of multiple terminal equipment configuration.Optionally Another example can also be the identical running time-frequency resource of multiple terminal equipment configuration, configure different circulations for multiple terminal devices Displacement.

In another example identical scrambling code can be configured for multiple terminal devices, that is, configures public scrambling code and (use the public scrambling code The measuring signal of transmission is public-measurement signal).Any terminal equipment in multiple terminal device passes through the public scrambling code hair Give the common sequence, it is believed that the terminal device sends public-measurement signal.

Optionally, multiple terminal device can be the terminal device under a TRP covering.Optionally, the public measurement Signal can be dedicated (specific) measuring signal of TRP.That is, belonging to the multiple terminal devices of a TRP can send out Send identical measuring signal (or sequence).The TRP special measurement signal is the identical measurement letter that multiple terminal device is sent Number.

Other TRP can know the common sequence of the TRP.At least one terminal device in multiple terminal device can be with The common sequence (sending public measuring signal) is sent, in order to which the common sequence is surveyed in the receiving end of common sequence Amount.

Optionally, multiple terminal device can be the terminal device under a cell coverage area.Optionally, this is public Measuring signal can be cell-specific (cell specific) measuring signal.That is, belonging to multiple terminals an of cell Equipment can send identical measuring signal (or sequence).The cell-specific measuring signal is the phase that multiple terminal device is sent Same measuring signal.

First kind measuring signal: first kind measuring signal can be understood as the measuring signal of a type.At least one Each terminal device can send the measuring signal of the type in a terminal device.Optionally, the first kind measuring signal The network equipment that can be used for this cell measures.By taking communication scenes 100 as an example, the first kind of the transmission of terminal device 102 Measuring signal can be used for the network equipment 101 and measure, and the first kind measuring signal that terminal device 105 is sent can be used for The network equipment 104 measures.Optionally, which can be special measurement signal above.

Second Type measuring signal: the Second Type measuring signal can be understood as the measuring signal of another type.It can Selection of land, the Second Type measuring signal can be used for the equipment in addition to the network equipment of this cell and measure.Still with communication For scene 100, the Second Type measuring signal that terminal device 102 is sent can be used for terminal device 103, the network equipment 104 And at least one of terminal device 105 measures, the Second Type measuring signal that terminal device 105 is sent can be used for At least one of terminal device 102, terminal device 103 and network equipment 101 measure.Optionally, the Second Type Measuring signal can be public measuring signal above.

It is described in detail below in conjunction with method of the Fig. 2 to Fig. 6 to the embodiment of the present application.

Fig. 2 is the schematic interaction figure according to an example of the method for the embodiment of the present application.It should be understood that Fig. 2 shows methods 200 detailed step or operation, but these steps or operation are only examples, and other operations can also be performed in the embodiment of the present application Or only execute part operation in Fig. 2.First network equipment in Fig. 2 can in above-mentioned communication scenes 100 the network equipment 101, It can be in communication scenes 100 that first terminal equipment, which can be terminal device 102 in communication scenes 100, second terminal equipment, Terminal device 103 or terminal device 105, second network equipment can be the network equipment 104 in communication scenes 100.Ying Li Solution, which may be terminal device 103 or other terminal devices in communication scenes 100.

As shown in Fig. 2, this method 200 may include 210 and 220.

210, first network equipment determines the first configuration information and the second configuration information.

Wherein, which can be the network equipment for serving first terminal equipment.First configuration information is used First resource is configured in sending first kind measuring signal for the first terminal equipment.Second configuration information is used to be described the One terminal device sends Second Type measuring signal and configures Secondary resource.

If should be understood that, without specified otherwise, first kind measuring signal and Second Type measuring signal hereinafter is the The measuring signal of one terminal device.

Optionally, first kind measuring signal can be used for first network equipment and measure.Wherein, which sets Standby can be the network equipment for serving the first terminal equipment.The Second Type measuring signal can be used for the second network and set At least one of standby and second terminal equipment measures.Second network equipment is that the network different from first network equipment is set It is standby.Optionally, which can be the network equipment adjacent with first network equipment.

Optionally, the first kind measuring signal and Second Type measuring signal are different measuring signals.

For example, the sequence of the first kind measuring signal is First ray, the sequence of the Second Type measuring signal For the second sequence, the First ray and the second sequence difference.Optionally, which can set for the first terminal Standby dedicated sequences, which can be the common sequence of multiple terminal devices, wherein multiple terminal device includes the One terminal device.That is, the first kind measuring signal can be the special measurement signal of the first terminal equipment, this Two categorical measures signals can be the common measuring signal of multiple terminal devices, and multiple terminal device includes that first terminal is set It is standby.

Further optionally, which can identification number (identity, the ID) life based on first terminal equipment At second sequence can be generated based on the ID of first network equipment or second sequence can be based on the first terminal equipment The ID of affiliated user group is generated.

In another example the first terminal equipment sends the scrambling code that the first kind measuring signal uses can disturb for first Code, the first terminal equipment, which sends scrambling code that the Second Type measuring signal uses, to be the second scrambling code, this first is disturbed Code is different with the second scrambling code.Optionally, which can be the dedicated scrambling code of the first terminal equipment, which can Think the public scrambling code of multiple terminal devices, wherein multiple terminal device includes first terminal equipment.

Further optionally, which can be generated based on the ID of first terminal equipment, which can be with ID based on first network equipment is generated or second scrambling code can be raw based on the ID of user group belonging to the first terminal equipment At.The associated description of first scrambling code and the second scrambling code may refer to the associated description of First ray above and the second sequence, be Succinctly do not repeat herein.

For another example the first terminal equipment, which sends cyclic shift that the first kind measuring signal uses, to be the One cyclic shift, the first terminal equipment send the cyclic shift that the Second Type measuring signal uses and can follow for second Ring displacement, first circulation displacement are different with second circulation displacement.Optionally, first circulation displacement can be the first terminal The Special circulation of equipment shifts, and second circulation displacement can be the common cyclic shift of multiple terminal devices, wherein multiple Terminal device includes first terminal equipment.

Further optionally, first circulation displacement can be generated based on the ID of first terminal equipment, second sequence It can be generated based on the ID of first network equipment or second circulation displacement can be based on user belonging to the first terminal equipment The ID of group is generated.The associated description of first circulation displacement and second circulation displacement may refer to First ray above and the second sequence The associated description of column, in order to not repeat herein succinctly.

Optionally an example, the first resource may include following at least one of several:

1) time-domain resource

That is, first configuration information, which can be used for sending first kind measuring signal for first terminal equipment, configures time domain money Source.

Wherein, the time-domain resource of first configuration information configuration may include at least one time-domain position.That is, first resource It may include at least one time-domain position.

For example, the first configuration information can serve to indicate that starting time-domain position, interval duration and number of repetition.Assuming that should The symbol #F that time-domain position is time slot #S, a time slot of a length of T (T >=0) when interval are originated, number of repetition is M (M >=2).This first Resource may include M time-domain position (M symbol), and initial position is the symbol #F of time slot #S in the M time-domain position, and should T time slot is spaced in M time-domain position between two neighboring time-domain position.

It should be understood that the symbol #F of time slot #S is it is to be understood that the symbol that number is F in the time slot that number is S.For example, false If S=1, F=6, the symbol #F of time slot #S is specially to number the symbol that number is 6 in the time slot for being 1.

It should also be understood that in the embodiment of the present application, between two time quantums between to be divided into two time quantums corresponding The difference of number.For example, being spaced T time slot between the symbol #F of the symbol #F and time slot # (S+T) of time slot #S.

In another example first configuration information can serve to indicate that a time-domain position.

2) frequency domain resource

That is, first configuration information, which can be used for sending first kind measuring signal for first terminal equipment, configures frequency domain money Source.

Wherein, the frequency domain resource of first configuration information configuration may include at least one frequency domain position.That is, first resource It may include at least one frequency domain position.

For example, the first resource may include the first frequency range.First frequency range can be used in first terminal equipment and send the One type measuring signal.

3) time cycle

That is, first configuration information can be used for sending week first kind measuring signal setup time for first terminal equipment Phase.

For example, first configuration information can serve to indicate that a time-domain position and time cycle.Assuming that the time domain position It is set to the symbol #F of time slot #S, the time cycle is T time slot, which may include the symbol #F of time slot #S, time slot # (S + T) symbol #F, the symbol #F ... of time slot # (S+2T).

It should be understood that if first resource includes the time cycle, it is believed that first resource includes multiple time-domain positions.

4) cyclic shift

It is moved that is, first configuration information can be used for sending first kind measuring signal configuration circulation for first terminal equipment Position.

5) sequence of first kind measuring signal

That is, first configuration information can be the sequence of first terminal device configuration first kind measuring signal.For example, should First configuration information may include First ray.

6) scrambling code

That is, first configuration information, which can send first kind measuring signal for first terminal equipment, configures scrambling code.For example, First configuration information may include the first scrambling code.

The associated description of second configuration information may refer to the related description of the first configuration information above, in order to succinctly not It repeats herein.

220, first network equipment sends the first configuration information and the second configuration information to first terminal equipment；Accordingly Ground, first terminal equipment receive the first configuration information and the second configuration information from first network equipment.

It should be understood that first configuration information and the second configuration information can be carried in different signalings (message), it can also To be carried in identical signaling (message).

By taking the first configuration information as an example, which can be carried on high-level signaling or be carried on physical layer In signaling.For example, the first configuration information can be carried on wireless heterogeneous networks (radio resource control, RRC) letter Order or medium access control (medium access control, MAC) control element (channel element, CE) signaling In.High-level signaling (for example, RRC signaling) is semi-static variation, advantageously reduces signaling overheads.

230, the first terminal equipment sends the first kind measuring signal according to the first resource；Described first Terminal device sends the Second Type measuring signal according to the Secondary resource；Correspondingly, first network equipment can be in institute It states on first resource, measures the first kind measuring signal, at least one of second network equipment and second terminal equipment, The Second Type measuring signal can be measured on the Secondary resource.

It optionally, can be preparatory between first network equipment and second network equipment for the ease of interference measurement and coordination It consults in time-domain resource position, frequency domain resource position, sequence, scrambling code and the cyclic shift of Second Type measuring signal extremely Few one kind (be equivalent to second network equipment and determine Secondary resource), in order to which second network equipment and second network equipment are covered At least one of terminal device Second Type measuring signal can be measured according to Secondary resource.

It should be understood that if the terminal device that second terminal equipment is covered by the first network equipment, the second terminal are set It is standby Secondary resource to be determined by first network equipment, if the end that second terminal equipment is covered by second network equipment End equipment, the second terminal equipment can determine Secondary resource by second network equipment.

In the embodiment of the present application, first network equipment is that first terminal equipment sends two kinds of measuring signal difference Resource is configured, first terminal equipment can send first kind measuring signal according to first resource, send the according to Secondary resource Two categorical measures signals, in order to which first network equipment can measure first kind measuring signal, the second net on first resource At least one of network equipment and second terminal equipment can measure the Second Type measuring signal on Secondary resource, to have Conducive to meeting the demand that distinct device measures the measuring signal of first terminal equipment.

Further, which can be the equipment-specific measuring signal of first terminal, be conducive to the The measuring signal (i.e. identification first kind measuring signal) that the identification of one network equipment receives, is conducive to first network equipment high efficiency Ground measures.The Second Type measuring signal can be the common measuring signal of multiple terminal devices, be conducive to the second network The measuring signal (i.e. identification Second Type measuring signal) that the identification of at least one of equipment and second terminal equipment receives.It should Scheme advantageously reduces the complexity of equipment identification measuring signal.

More than, describing first network equipment can be respectively configured accordingly for two class measuring signals of first terminal equipment Resource.Described in detail below, how first terminal equipment sends the two categorical measures signal.

Mode #1

This 220 may include:

First terminal equipment sends first kind measuring signal according to the configuration of the first configuration information；

First terminal equipment sends Second Type measuring signal according to the configuration of the second configuration information.

It is described so that first terminal equipment sends first kind measuring signal as an example below, it should be appreciated that first terminal is set Preparation send the mode of Second Type measuring signal to may refer to the mode that first terminal equipment sends first kind measuring signal.

Assuming that the first resource that first configuration information is used to indicate corresponds at least one time-domain position, which is set It is standby that first kind measuring signal can be sent on each time-domain position at least one time-domain position.Optionally, first The network equipment can receive first kind measuring signal at least one time-domain position on each time-domain position.

Assuming that the corresponding time-domain position of the first resource that is used to indicate of the first configuration information and time cycle (that is, the One resource includes having periodically multiple time-domain positions).The first terminal equipment can be according to the time-domain position and time Period periodically sends first kind measuring signal.Optionally, first network equipment can periodically receive the first kind Measuring signal.

Assuming that first resource includes running time-frequency resource, Secondary resource includes running time-frequency resource.The time-frequency that the first resource includes The running time-frequency resource that resource and the Secondary resource include may have lap.Wherein, the running time-frequency resource that first resource includes The running time-frequency resource for including with the Secondary resource has lap it is to be understood that first resource and Secondary resource include identical Running time-frequency resource.

For example, it is assumed that first resource includes resource #R, the time-domain resource of resource #R is the symbol #F of time slot #S, the money The frequency domain resource of source #R is the first frequency domain resource, which also includes resource #R.That is, the lap includes resource #R.

In the case, first terminal equipment can be distributed based at least one of following methods in the overlapping portion Send first kind measuring signal or Second Type measuring signal.

1) it is based on priority

Specifically, first network equipment can be pre-configured with first kind measuring signal and Second Type measuring signal Priority.If the running time-frequency resource of running time-frequency resource and Second Type measuring signal for sending first kind measuring signal has weight Folded part can send the higher measuring signal of priority in the lap according to priority.

For example, it is assumed that the priority of first kind measuring signal is higher than the priority of Second Type measuring signal.This first Resource includes resource #R, which includes resource #R.The first terminal equipment can be according to priority, on resource #R Send first kind measuring signal.

2) based on instruction information

Specifically, method can also include:

201, first network equipment sends instruction information to first terminal equipment, and the instruction information is used to indicate the first kind Type measuring signal or Second Type measuring signal；The first terminal equipment sends the instruction information in the lap and refers to The measuring signal shown.

For ease of description, " finger of first kind measuring signal or Second Type measuring signal should can will be used to indicate Show information " it is denoted as " the first instruction information "

For example, the first resource includes resource #R, which includes resource #R, and resource #R is lap.It should First terminal equipment receives the first instruction information.The first instruction information is used to indicate first kind measuring signal, first end End equipment sends first kind measuring signal according to the first instruction information on resource #R.

Optionally, which can receive on the time quantum where lap (for example, resource #R) The first instruction information.

It should be understood that assuming that resource #R is the symbol #F of time slot #S, the time quantum where resource #R is time slot #S.Assuming that First terminal equipment receives the first instruction information on time slot #S, the first terminal equipment sent on resource #R this The measuring signal of one instruction information instruction.

Optionally, which can be carried on Downlink Control Information (downlink control Information, DCI) in.Specifically, first terminal equipment receives DCI on first time unit, and carries according in DCI First instruction information the lap send this first instruction information instruction measuring signal.

Optionally, this first instruction information can be carried on wireless heterogeneous networks (Radio Resource Control, RRC) in signaling.Specifically, first terminal equipment can be sent in each lap of at least one lap this The measuring signal of one instruction information instruction.

That is, first terminal equipment can send the first kind based on the configuration of the first configuration information in mode #1 Type measuring signal, first terminal equipment send Second Type measuring signal based on the configuration of the second configuration information.Optionally, if The time-frequency that the Secondary resource of running time-frequency resource and the configuration of the second configuration information that the first resource of one configuration information configuration includes includes Resource has lap, and first terminal equipment can send phase in the lap according to priority or the first instruction information The measuring signal answered.

Mode #2

First terminal equipment sends first kind measuring signal according to the first preset condition and first resource；

First terminal equipment sends Second Type measuring signal according to the second preset condition and Secondary resource.

By taking first terminal equipment sends Second Type measuring signal as an example, which may include following two At least one of.It should be understood that the related description of first preset condition may refer to the associated description of the second preset condition.

1) first terminal equipment uplink data sending.

That is, first terminal equipment can according to first terminal equipment it is subsequent whether (uplink) send data, it is determined whether Second Type measuring signal is sent on the time-domain position that Secondary resource includes.

If first terminal equipment determines that first terminal equipment subsequent upstream sends data, sent in first terminal equipment uplink Before data, which can send Second Type measuring signal on the time-domain position that the first resource includes.

Conversely, sending if first terminal equipment determines that first terminal equipment is subsequent without uplink, first terminal equipment can To send Second Type measuring signal not on the time-domain position that the first resource includes.

Specifically, Secondary resource may include first time unit or Secondary resource includes the first symbol, first symbol Belong to first time unit, whether which can be used for according to the second time quantum after first time unit The first terminal equipment uplink data sending, it is determined whether Second Type measurement letter is sent on the first time unit Number, or determine whether to send Second Type measuring signal on the first symbol of the first time unit.

It should be understood that from the foregoing, it can be understood that the time quantum can be the chronomere for scheduled transmission block, the Secondary resource Including first time unit it is to be understood that the Secondary resource includes the part time-domain resource in first time unit.

Illustratively, it is assumed that the second configuration information is used to indicate a time-domain position and time cycle.The time-domain position is The symbol #F of time slot #S, time cycle are T time slot, which may include time slot #S, time slot # (S+T), time slot # (S+ Multiple time quantums such as 2T).The first resource specifically includes the symbol #F of time slot #S symbol #F, time slot # (S+T), time slot # (S+ Multiple time-domain positions such as symbol #F 2T).

This 220 may include:

If the second time quantum after the first time unit is used for the first terminal equipment uplink data sending, The first terminal equipment sends the Second Type measuring signal on the first time unit.Optionally, if when second Although unit is for non-uplink or the second time quantum by first network device configuration by first network device configuration between Still being not used in first terminal equipment uplink data sending for uplink, (i.e. first terminal equipment is not on the second time quantum Row sends data), first terminal equipment does not send the Second Type measuring signal on the first time unit.

Still optionally further, k time quantum (or can be spaced between second time quantum and first time unit Interval between two time quantums and first time unit is less than or equal to k time quantum).Wherein, k value can be the first net What network equipment and first terminal equipment were made an appointment, and can be first network equipment is first terminal device configuration, this Apply for that embodiment is not subject to the limits fixed.

Optionally an example can be spaced k time quantum between second time quantum and first time unit, if K value is equal to N (N >=1), and whether first terminal equipment in first time unit sends Second Type measuring signal, depend on this Whether the n-th time quantum (i.e. the second time quantum) after one time quantum is for first terminal equipment uplink transmission number According to.If the n-th time quantum after the first time unit is used for first terminal equipment uplink data sending, first terminal is set It is standby that Second Type measuring signal is sent on the first time unit.Conversely, if n-th time after the first time unit Unit is not used for first terminal equipment uplink data sending, and first terminal equipment does not send the second class on the first time unit Type measuring signal.

Optionally another example, when the interval between the second time quantum and first time unit is less than or equal to k Between unit, if k value be equal to N (N >=1), first terminal equipment whether first time unit send Second Type measuring signal, take Certainly whether having time unit is whole for first in N number of time quantum after the first time unit (i.e. the second time quantum) End equipment uplink data sending.If any time unit is whole for first in N number of time quantum after the first time unit End equipment uplink data sending, first terminal equipment send Second Type measuring signal on the first time unit.Conversely, if Any time unit is not used for first terminal equipment uplink and sends number in N number of time quantum after the first time unit According to first terminal equipment sends Second Type measuring signal not on the first time unit.

Fig. 3 is the schematic figure according to an example of the communication means of the embodiment of the present application.As shown in Figure 3, it is assumed that k value is 1, First terminal equipment determines the second time quantum for first terminal equipment uplink data sending, which can be true It is scheduled on first time ascending and sends Second Type measuring signal.

Optionally an example, at least one of second terminal equipment and second network equipment can be according to the second times Whether unit has data receiver, it is determined whether measures Second Type measuring signal in first time unit.For example, if the second network Equipment receives data on the second time quantum, which can receive Second Type on the first time unit Measuring signal.In another example, it is assumed that second terminal equipment is determined in the second time quantum downlink reception data, the second terminal equipment Second Type measuring signal can be measured in first time unit.The second terminal equipment can report the measurement knot Fruit, in order to which the network equipment for the second terminal device service can dispatch second terminal equipment and exist according to the measurement result Second time quantum downlink reception data are conducive to the success rate for improving second terminal equipment downlink reception data.

Optionally another example, second network equipment can be set according to whether the second time quantum has for the second network Standby downlink sends data, it is determined whether measures Second Type measuring signal in first time unit.For example, if second network equipment Data are sent in the second time quantum downlink, which can measure Second Type measurement on first time unit Signal.Further, which can dispatch the downlink transfer of the second time quantum according to measurement result.

Fig. 4 is another schematic figure according to the communication means of the embodiment of the present application.As shown in figure 4, the second network Equipment, which is determined, sends data in the second time quantum downlink, which can measure second on first time unit Categorical measures signal, and according to measurement result, determine the scheduling information of the downlink transfer of the second time quantum, and will by DCI The scheduling information is indicated to the terminal device of this cell.

For example, second network equipment can estimate the transmission second class by scanning to AOA estimation or by wave number group Region or orientation where the first terminal equipment of type measuring signal.Second network equipment can also be measured according to the Second Type The scrambling code information or sequence information that signal carries determine the cell where the first terminal equipment.

Second network equipment can determine the first terminal equipment to this cell by measuring the Second Type measuring signal Terminal device annoyance level.Second network equipment can according to the annoyance level and the position of first terminal equipment, The terminal device (for example, the terminal device for the close first terminal equipment that second network equipment is covered) of this cell is done Disturb coordination.

Optionally, first network equipment for the code domain of different terminal equipment transmission Second Type measuring signal, frequency domain and is followed At least one of ring displacement different parameters, in order to which at least one of second network equipment and second terminal equipment can roots Terminal device different in first network equipment is distinguished according to code point, frequency division or cyclic shift.

For example, the frequency domain resource of first network equipment includes multiple BP, each BP can be used for dispatching m (m >=1) a terminal Equipment, in a BP, which can be used the modes such as code point, frequency division or cyclic shift and carries out resource multiplex.

Fig. 5 is the schematic diagram according to the another example of the communication means of the embodiment of the present application.As shown in figure 5, every in multiple BP A BP can be used for dispatching multiple terminal devices, the frequency domain of the corresponding Second Type measuring signal of different terminal equipment in same BP Resource difference (i.e. frequency division) or the corresponding code domain resource of different terminal equipment are different (i.e. code point), in order to second network equipment Each terminal device hair in multiple terminal devices can be determined according to frequency division or code point at least one of second terminal equipment The Second Type measuring signal sent.

Optionally, this 220 may include:

First terminal equipment sends Second Type measuring signal, wherein the first running time-frequency resource on the first running time-frequency resource Time-domain resource belongs to first time unit and frequency domain resource is the first frequency domain resource, and the second running time-frequency resource is used for first terminal equipment Data are sent, the time-domain resource of second running time-frequency resource belongs to the second time quantum and frequency domain resource is the second frequency domain resource.It should First frequency domain resource can be complete or collected works or the subset of the second frequency domain resource.

For example, it is assumed that first resource includes the symbol #F of first time unit, first terminal equipment will be in the second time list Data are sent on the frequency domain resource #A of member, which can send Second Type measuring signal on resource #Z, In, the time-domain resource of resource #Z is the symbol #F of first time unit, and the frequency domain resource of resource #Z is frequency domain resource #A.

That is, first terminal equipment sends the frequency domain money that Second Type measuring signal uses on first time unit Source can be sends the frequency domain resource that data use determines or the first end according to first terminal equipment on the second time quantum It is first terminal equipment second that end equipment sends the frequency domain resource that Second Type measuring signal uses on first time unit Complete or collected works or the subset of the frequency domain resource that data use are sent on time quantum.

Fig. 6 is the schematic figure according to an example again of the communication means of the embodiment of the present application.As shown in fig. 6, first terminal The frequency domain resource that first terminal equipment uplink data sending can be used in equipment sends Second Type survey on first time unit Measure signal.

Optionally, which can determine whether uplink sends number to first terminal equipment in several ways According to.

For example, this method 200 can also include:

202, the first network equipment sends scheduling information to the first terminal equipment, and the scheduling information is for being The second time quantum of the first terminal equipment uplink data sending distribution (or distribution time-domain resource, the time-domain resource of the distribution For the part time-domain resource in the second time quantum)；Correspondingly, first terminal equipment sends the second class on first time unit Before type measuring signal, first terminal equipment receives the scheduling information.

The first terminal equipment can determine according to the scheduling information and send Second Type measurement on first time unit Signal.

Further, which can be also used for distributing the second frequency for the first terminal equipment uplink data sending Domain resource, which can be in the time domain first time unit and frequency domain is the first time-frequency of the first frequency domain resource Second Type measuring signal is sent in resource, the first frequency domain resource is complete or collected works or the subset of the second frequency domain resource.

In another example if second terminal equipment has the demand for sending data on the second time quantum, the second terminal equipment Second Type measuring signal can be sent on first time unit.

2) first terminal equipment, which receives, is used to indicate the instruction letter that first terminal equipment sends Second Type measuring signal Breath.

For ease of description, this can be used to indicate to the instruction letter that first terminal equipment sends Second Type measuring signal Breath is denoted as " second indication information ".

That is, first terminal equipment can be according to whether receive second indication information, it is determined whether in the second money Second Type measuring signal is sent in the resource that source includes.

If first terminal equipment receives the second indication information, which can include in the Secondary resource Resource on send the Second Type measuring signal.

That is, the first network equipment is first terminal device configuration Secondary resource, which includes extremely A few time-domain position, the first terminal equipment need to send Second Type survey in respective resources based on second indication information Measure signal.

Illustratively, it is assumed that the second configuration information is used to indicate a time-domain position and time cycle.The time-domain position is The symbol #F of time slot #S, time cycle are T time slot, which may include the symbol #F of time slot #S, time slot # (S+T) Symbol #F, multiple time-domain positions such as symbol #F of time slot # (S+2T).

If first terminal equipment receives second indication information in time slot #S or on the time slot before being located at time slot #S, should First terminal equipment can send Second Type measuring signal according to the second indication information on time slot #S.

Conversely, if first terminal equipment does not receive the second instruction in time slot #S or on the time slot before being located at time slot #S Information, the first terminal equipment send Second Type measuring signal not on time slot #S.

Here, after first terminal equipment obtains second configuration information, the instruction according to second indication information is needed, Second Type measuring signal is sent in respective resources.In other words, second indication information is equivalent to triggering information, for triggering the One terminal device sends the Second Type measuring signal in respective resources.

It should be understood that the mode that first terminal equipment sends first kind measuring signal may refer to the transmission of first terminal equipment The mode of Second Type measuring signal, in order to not repeat herein succinctly.

The foregoing describe the first configuration informations, and first kind measuring signal configuration first can be sent for first terminal equipment Resource, the second configuration information can send Second Type measuring signal for first terminal equipment and configure Secondary resource.Actually logical During letter, it is possible that the transmission direction that the resource and first network equipment of configuration information configuration are the resource distribution occurs The case where conflict.

For example, it is assumed that Secondary resource includes the first symbol, that is to say, that first symbol is used for uplink.Due to being The transmission direction of time quantum can flexibly change in system, which may be non-uplink biography by first network device configuration Defeated, i.e., first symbol is used for the non-uplink of first network equipment, at this point, the transmission direction of the first symbol clashes.

It for ease of description, can be by " the transmission direction and first of the corresponding time-domain position of configuration information (for example, symbol) The network equipment is that the transmission direction of time-domain position configuration clashes ", it is denoted as " transmission direction of time-domain position clashes ".

Fig. 7 is the schematic figure of an example clashed according to the transmission direction of the embodiment of the present application.As shown in fig. 7, false If Secondary resource includes the symbol #a of time quantum #A, the symbol #c of the symbol #b of time quantum #B, time quantum #C, time list The symbol #d of first #D.Since the transmission direction of time quantum in system can flexibly change, time quantum #A and time quantum # B is for downlink transfer by first network device configuration, and the symbol #C of time quantum #C is configured as unknown, time quantum # D is for uplink by first network device configuration.

At this point, the transmission direction of symbol #A, symbol #B and symbol #C clash.

For Second Type measuring signal, if the transmission direction for the time quantum for including due to Secondary resource is rushed It is prominent, and the transmission of Second Type measuring signal is interrupted, since second network equipment or second terminal equipment can not obtain the feelings in time Condition can continue to measure due to second network equipment or second terminal equipment and cause measurement result incorrect, and then influence Relevant coordination process and system performance.Therefore, when conflicting, it is preferable that second terminal equipment is clashed at this Continue to send the Second Type measuring signal on time-domain position (such as symbol #a).Optionally, first network equipment needs pass through Scheduling of resource makes that the first terminal equipment is not interfered to send Second Type measurement on the time quantum clashed as far as possible Signal.For example, first network equipment is sent on symbol #a without downlink.

That is, the Secondary resource includes the first time-domain position (or first symbol), if first time-domain position It is for non-uplink by the first network device configuration, the first terminal equipment (still) is in first time domain position It sets and sends the Second Type measuring signal.

For first kind measuring signal, if the transmission direction for the time quantum that first resource includes clashes, first Terminal device can stop at transmission first kind measuring signal on the time quantum clashed.

For example, the first resource includes symbol #e, if the symbol #e by the first network device configuration be for Non- uplink, the first terminal equipment, which can stop on the symbol #e, sends the first kind measuring signal.

Optionally, first terminal equipment can determine that first network equipment is the biography of time quantum configuration in several ways Defeated direction.For example, this method 200 may include:

203, first network equipment sends transmission direction information；Correspondingly, first terminal equipment can be set from first network It is standby to receive transmission direction information.Wherein, transmission direction information can serve to indicate that the transmission of each symbol at least one symbol Direction, multiple symbol include the first symbol.Or transmission direction information can serve to indicate that the biography of each symbol in time quantum Defeated direction.For example, it is assumed that time quantum is time slot, which can be time slot format information (slot format Information, SFI).Optionally, each time quantum may include transmission direction information, be used to indicate in the time quantum The transmission direction of each symbol.

First terminal equipment can determine the time-domain position that the resource of configuration information configuration includes according to transmission direction information Transmission direction whether clash.

Similarly, the transmission direction of the time quantum of cell belonging to the receiving end of measuring signal may also flexibly change.? It can continue to measure in this case, the receiving end of measuring signal can abandon this measurement.For example, it is assumed that second terminal equipment For the terminal device under the covering of second network equipment, second network equipment sends third configuration information to second terminal equipment, should Third configuration information is used to receive measuring signal for second terminal equipment and configures information resources, which includes the first symbol Number, that is to say, that in third configuration information, which is used for downlink transfer.Since the transmission direction of time quantum can With flexible configuration, which may be non-downlink transfer by the second network equipments configuration, and in the case, second terminal is set It is standby to measure the measuring signal received on first symbol, this measurement can also be abandoned.

Optionally, identical or different uplink timing (timing) can be used in first terminal equipment in the embodiment of the present application Send first kind measuring signal and Second Type measuring signal.

More than, describe first terminal equipment can be sent respectively according to two configuration informations first kind measuring signal and Second Type measuring signal.Wherein, Second Type measuring signal can be used in second network equipment and second terminal equipment At least one measures.Hereinafter, another example of the communication means of description the embodiment of the present application.This method is conducive to raising second The accuracy rate that terminal device measures Second Type measuring signal.

Fig. 8 is another schematic interaction figure according to the communication means of the embodiment of the present application.It should be understood that Fig. 8 is shown The detailed step or operation of method 300, but these steps or operation are only examples, and it can also be performed in the embodiment of the present application It operates or only executes part operation in Fig. 8.

310, the network equipment determines that information resources, the information resources belong to the money that measuring signal is sent for terminal device Source.

It should be understood that the terminal device does not refer to some terminal device fixed, but refer to the terminal device in system.It should The resource for sending measuring signal for terminal device understands are as follows: the resource of measuring signal is sent for terminal device in system.It should The resource for sending measuring signal for terminal device can be understood as a measuring signal resource pool.The network equipment can be from the money Resource is selected in the pond of source, and gives the resource distribution of selection to some terminal device, for example, the resource distribution of selection is set to terminal Standby #A, terminal device #A can send measuring signal according to the resource of the configuration.

For example, this is used to terminal device uplink send the resource of measuring signal to be out-hole run resource distribution table meaning The resource shown.For example, resource indicated by SRS allocation list (rear extended meeting out-hole run resource distribution table in detail is illustrated).

Optionally, which may include the above complete or collected works of Secondary resource or subset.

Optionally, which includes running time-frequency resource.That is, the running time-frequency resource that the information resources include belongs to use The running time-frequency resource of measuring signal is sent in terminal device.

320, the network equipment sends third configuration information to the second terminal equipment；Correspondingly, described second eventually End equipment receives the third configuration information from the network equipment.

Wherein, the third configuration information, which is used to receive measuring signal for the second terminal equipment, configures information resources. The information resources belong to the resource that second terminal equipment carries out measurement of correlation.

330, the second terminal equipment measures received measuring signal on the information resources.

Optionally, which can come from first terminal equipment.

That is, in the embodiment of the present application, second terminal equipment can be received according to the resource for sending measuring signal Measuring signal.This method is advantageously implemented the transmitting terminal of measuring signal and the receiving end running time-frequency resource alignment of measuring signal.

This is because in the prior art, terminal device receives the resource that measuring signal uses and terminal device sends and surveys The resource for measuring signal is different.For example, what terminal device received that measuring signal uses is channel state information reference signals (channel state information reference signal, CSI-RS) resource.The CSI-RS resource is one corresponding Or multiple CSI-RS resource cellular constructions (component CSI-RS RE pattern).It for ease of description, can should " CSI-RS resource cellular construction ", which is denoted as " CSI-RS structure " the CSI-RS structure, can be expressed as (Y, Z).Wherein, Y indicates frequency The number of continuous resource unit on domain, Z indicate the number of continuous resource unit in time domain.For example, being somebody's turn to do (Y, Z) may be The various structures such as (2,1), (4,1), (8,1) (2,2), (2,4).And in the prior art, terminal device, which sends measuring signal, to be made SRS resource.The distribution that is distributed as comb teeth-shaped of the SRS resource on frequency domain, it is adjacent in the SRS resource of each comb teeth-shaped Two sub- intercarriers are divided into L.Optionally, which can be equal to 2 or 4.As can be seen that the structure of CSI-RS resource and SRS resource is It is unmatched.Thus, it is supposed that first terminal equipment sends SRS, second terminal equipment measures first terminal according to CSI-RS resource The SRS that equipment is sent will lead to measurement result inaccuracy.

For example, first terminal equipment sends measuring signal in first resource, the time-domain resource of the first resource is symbol #1, Frequency domain resource is the odd number sub-carriers (1,3,5,7...) on symbol #1, the limit value based on CSI-RS resource, and second terminal is set It is standby continuous multiple subcarriers to be measured on symbol #1, so as to cause the measurement inaccuracy of second terminal equipment.

Therefore, in the embodiment of the present application, the network equipment is that the information resources of second terminal device configuration belong to for eventually End equipment sends the resource of measuring signal, is advantageously implemented the transmitting terminal of measuring signal and the receiving end alignment of measuring signal, has Accuracy rate is measured conducive to improving.

In the prior art, terminal device can store downlink measurement resource distribution table (for example, CSI-RS allocation list) with And out-hole run resource distribution table (for example, SRS allocation list).

The network equipment for serving the terminal device measures resource parameters, terminal device root to the terminal equipment configuration downlink Resource distribution table is measured according to the parameter combination downlink, obtains the specific running time-frequency resource position where downstream measurement reference signal.Tool Body, downlink measuring signal resource distribution table may include:

resourceConfig INTEGER(0..31)

subframeConfig INTEGER(0..154)

…

Wherein, the value range of parameter resourceConfig is 0-31, which can be used in determining CSI-RS reference Resource element (resource element, RE) and character position of the signal in a subframe.Parameter subframeConfig Value range be 0-154, the parameter can be used in determine CSI-RS reference signal where subframe position.

Downlink measurement resource parameters can serve to indicate that the value and parameter of parameter resourceConfig The value of subframeConfig.

The network equipment of the terminal device is served to the terminal equipment configuration out-hole run resource parameters, terminal device root According to the out-hole run resource parameters combination out-hole run resource distribution table, the specific time-frequency where uplink measurement reference signal is obtained Resource location.Specifically, out-hole run resource distribution table may include:

srs-ConfigIndex INTEGER(0..1023)

…

Wherein, the value range of parameter srs-ConfigIndex is 0-1023, which can be used in determining that SRS is sent Period and time domain (such as subframe position).The out-hole run resource parameters can serve to indicate that parameter srs-ConfigIndex Value.

Optionally an example, this is used to terminal device and sends the resource of measuring signal may include parameter srs- The corresponding resource of the value of ConfigIndex all values from 0-1023.The third configuration information can serve to indicate that the ginseng The specific value (it should be understood that the specific value of third configuration information instruction belongs to 0-1023) of number srs-ConfigIndex, this The corresponding resource of value of three configuration informations instruction is the information resources.Second terminal equipment can be according to the third configuration information The value of the parameter srs-ConfigIndex of instruction determines information resources.

Uplink and downlink measurement resource parameters in existing configuration are by different message arrangements, and terminal device is according to downlink It configures resource parameters combination downlink resource allocation list and obtains the configuration parameters such as the running time-frequency resource of downstream measurement reference signal.Terminal root The configuration parameters such as the running time-frequency resource of uplink measurement reference signal are obtained according to uplink configuration resource parameters combination ascending resource allocation list.

If network equipments configuration second terminal measures the measuring signal that first terminal is sent, the network equipment is second whole Holding the measuring signal resource distribution of configuration at least to need includes the out-hole run signal resource configuration of first terminal device configuration.

As the application, optionally an example, the second terminal equipment can store the downlink measurement resource distribution table of extension, The relevant parameter of corresponding out-hole run resource distribution is copied in downlink measuring signal resource table set.The CSI-RS of the extension Relevant parameter can be as follows in allocation list:

resourceConfig_r15 INTEGER(0..xx)

subframeConfig_r15 INTEGER(0..yy)

…

Wherein, the value range of parameter resourceConfig_r15 is 0-xx, which contains for measuring from net The resource distribution for the measuring signal that network equipment is sent, and the resource distribution of the measuring signal from the transmission of other terminal devices.Ginseng The value range of number subframeConfig_r15 is 0-yy, which can be used in determining the measurement letter sent from the network equipment Number resource distribution where subframe position.The information resources specifically can serve to indicate that parameter resourceConfig_r15's The value of value and parameter subframeConfig_r15.The second terminal equipment can be according to the information resources and the expansion The downlink of exhibition measures resource distribution table, the measuring reference signals that measurement first terminal is sent.

As the application optionally another example, which, which can be separately stored for measuring this subzone network, is set The measurement resource distribution table of standby measuring signal and the measurement resource distribution of the measuring signal for measuring other terminal devices Table.

The network equipment is accordingly measured by configuring measurement resource parameters, instruction first terminal equipment.

The allocation list can be as follows:

resourceConfig_r15 INTEGER(0..31)

subframeConfig_r15 INTEGER(0..154)

srs-ConfigIndex_r15 INTEGER(0..1023)

…

Second terminal is determined according to parameter resourceConfig_r15 and parameter subframeConfig_r15 for surveying The resource for measuring the measuring signal that the network equipment is sent is determined by parameter srs-ConfigIndex_r15 for measuring other ends The resource for the measuring signal that end equipment is sent.

Optionally, the information resources include first time unit, the second terminal equipment on the information resources, Received measuring signal is measured, comprising:

If the second time quantum after the first time unit receives data for the second terminal equipment, described Second terminal equipment measures received measuring signal on the first time unit.

Specifically, the related description of the step may refer to the associated description of method 200 above, in order to succinctly not superfluous It states.

Optionally, which can determine whether the second time quantum is used for described second in several ways Terminal device receives data.

For example, optionally, this method 300 may include:

301, the network equipment sends scheduling information to the second terminal equipment, and the scheduling information is for being described Second terminal equipment receives data and distributes the second time quantum, and the scheduling information is also used to the second terminal equipment and determines The Second Type measuring signal is sent on the first time unit.

Optionally, the network equipment in this method 300 can be first network equipment or second network equipment above. Second terminal equipment in this method 200 can be the second terminal equipment in method 200.

It should be understood that this method 300 illustrates the associated description that may refer to method 200 above, in order to not exist succinctly This is repeated.

Fig. 9 is the schematic block diagram according to an example of the communication equipment of the embodiment of the present application.As shown in figure 9, the communication is set Standby 400 include:

Receiving unit 410, for receiving the first configuration information and the second configuration information from first network equipment, described the One configuration information, which is used to send first kind measuring signal for the communication equipment, configures first resource, second configuration information Secondary resource is configured for sending Second Type measuring signal for the communication equipment, wherein the first kind measuring signal It is measured for the first network equipment, the Second Type measuring signal is set for second network equipment and second terminal It is at least one of standby to measure；

Transmission unit 420, for sending the first kind measuring signal according to the first resource, according to described second Resource sends the Second Type measuring signal.

Optionally, the first kind measuring signal is the dedicated measuring signal of the communication equipment, the Second Type Measuring signal is the common measuring signal of multiple equipment, and the multiple equipment includes the communication equipment；And/or

The sequence of the first kind measuring signal is First ray, and the sequence of the Second Type measuring signal is second Sequence, the First ray are different with second sequence；And/or

It is the first scrambling code, the transmission that the transmission unit 420, which sends the scrambling code that the first kind measuring signal uses, It is the second scrambling code that unit 420, which sends the scrambling code that the Second Type signal uses, and first scrambling code and second scrambling code are not Together.

Optionally, the running time-frequency resource that the first resource includes has Chong Die with the running time-frequency resource that the Secondary resource includes Part；The transmission unit 420 is specifically used for: in the lap, sending the first kind measuring signal or described Two categorical measures signals.

Optionally, the receiving unit 410 is also used to: receiving instruction information, the instruction from the first network equipment Information is used to indicate the transmission unit 420 and sends first kind measuring signal or Second Type measurement letter in the lap Number；

The transmission unit 420 is specifically used for: sending the measuring signal of the instruction information instruction in the lap.

Optionally, the Secondary resource includes first time unit,

The transmission unit 420 is specifically used for: if the second time quantum after the first time unit is for described 420 uplink data sending of transmission unit sends the Second Type measuring signal on the first time unit.

Optionally, the Secondary resource includes the first symbol, and first symbol is non-for the first network equipment Row transmission；The transmission unit 420 is specifically used for: the Second Type measuring signal is sent on first symbol.

It should be understood that each unit and other above-mentioned operations or function in communication equipment 400 provided by the embodiments of the present application It is executed respectively in order to realize in communication means 200 (or communication means 300) provided by the embodiments of the present application by first terminal equipment Corresponding process.For sake of simplicity, not repeating herein.

Figure 10 is another schematic block diagram according to the communication equipment of the embodiment of the present application.As shown in Figure 10, this is logical Believe that equipment 500 includes:

Processing unit 510, for determining that the first configuration information and the second configuration information, first configuration information are used for First kind measuring signal is sent for the first terminal equipment and configures first resource, and second configuration information is for being described First terminal equipment sends Second Type measuring signal and configures Secondary resource, wherein the first kind measuring signal is used for institute It states communication equipment to measure, the Second Type measuring signal is in second network equipment and second terminal equipment at least one Kind measures；

Transmission unit 520, for sending first configuration information and second configuration information.

Optionally, the first kind measuring signal be the equipment-specific measuring signal of the first terminal, described second Categorical measures signal is the common measuring signal of multiple terminal devices, and the multiple terminal device includes that the first terminal is set It is standby；And/or

The sequence of the first kind measuring signal is First ray, and the sequence of the Second Type measuring signal is second Sequence, the First ray are different with second sequence；And/or

It is the first scrambling code that the first terminal equipment, which sends scrambling code that the first kind measuring signal uses, described second It is the second scrambling code that terminal device, which sends the scrambling code that the Second Type signal uses, and first scrambling code and second scrambling code are not Together.

Optionally, the running time-frequency resource that the first resource includes has Chong Die with the running time-frequency resource that the Secondary resource includes Part.

Optionally, the transmission unit 520 is also used to: Xiang Suoshu first terminal equipment sends instruction information, the instruction Information is used to indicate the first terminal equipment and sends first kind measuring signal or Second Type measurement in the lap Signal.

Optionally, the Secondary resource includes first time unit, and the transmission unit 520 is also used to: Xiang Suoshu first Terminal device sends scheduling information, when the scheduling information is used to distribute second for the first terminal equipment uplink data sending Between unit, the scheduling information is also used to first terminal equipment determination and sends described second on the first time unit Categorical measures signal, wherein second time quantum is located at after the first time unit.

It should be understood that each unit and other above-mentioned operations or function in communication equipment 500 provided by the embodiments of the present application It is executed respectively in order to realize in communication means 200 (or communication means 300) provided by the embodiments of the present application by first network equipment Corresponding process.For sake of simplicity, not repeating herein.

Figure 11 is the schematic block diagram according to the another example of the communication equipment of the embodiment of the present application.As shown in figure 11, described Communication equipment 600 includes:

Receiving unit 610, for receiving third configuration information from the network equipment, the third configuration information is for being described Transceiver receives measuring signal and configures information resources, and the information resources belong to the money that measuring signal is sent for terminal device Source；

Processing unit 620 measures received measuring signal on the information resources.

Optionally, the information resources include first time unit,

The processing unit 620 is specifically used for: if the second time quantum after the first time unit is for described Receiving unit 610 receives data, and the processing unit surveys received measuring signal on the first time unit Amount.

It should be understood that each unit and other above-mentioned operations or function in communication equipment 600 provided by the embodiments of the present application It is executed respectively in order to realize in communication means 300 (or communication means 200) provided by the embodiments of the present application by second network equipment Corresponding process.For sake of simplicity, not repeating herein.

Figure 12 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.As shown in figure 12, described Communication equipment 700 includes:

Processing unit 710, the information resources belong to the resource that measuring signal is sent for terminal device；

Transmission unit 720, for sending third configuration information to the second terminal equipment, the third configuration information is used The information resources are configured in receiving measuring signal for the transceiver.

Optionally, the information resources include first time unit,

The transmission unit 720 is also used to: Xiang Suoshu second terminal equipment sends scheduling information, and the scheduling information is used for Data are received for the second terminal equipment and distribute the second time quantum, and the scheduling information is also used to the second terminal equipment Determination sends the Second Type measuring signal on the first time unit.

It should be understood that each unit and other above-mentioned operations or function in communication equipment 600 provided by the embodiments of the present application Respectively in order to realize in communication means 300 (or communication means 200) provided by the embodiments of the present application by the network equipment execute phase Answer process.For sake of simplicity, not repeating herein.

Figure 13 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.As shown in figure 13, described Communication equipment 800 includes transceiver 810 and processor 820.Processor 820 is for controlling transceiver 810.The processor 820 are configured as that communication equipment is supported to execute the corresponding function of first terminal equipment in the above method.Optionally, the communication is set Standby 800 can also include memory 830, and it is necessary to save communication equipment 800 for coupling with processor 820 for the memory 830 Program instruction and data.Processor 820 is specifically used for executing the instruction stored in memory 830, when executed, institute It states communication equipment and executes method performed by first terminal equipment in the above method.

It should be noted that communication equipment 400 shown in Fig. 9 can by communication equipment 800 shown in Figure 13 come It realizes.For example, receiving unit 410 shown in Fig. 9 and transmission unit 420 can be realized by transceiver 810.

Figure 14 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.As shown in figure 14, described Communication equipment 900 includes transceiver 910 and processor 920, and the processor 920 is configured as supporting in communication equipment execution State the corresponding function of first network equipment in method.Optionally, the communication equipment 900 can also include memory 930, described Memory 930 saves the necessary program instruction of communication equipment and data for coupling with processor 920.Processor 920 is specifically used In executing the instruction stored in memory 930, when executed, the communication equipment executes first network in the above method Method performed by equipment.

It should be noted that communication equipment 500 shown in Figure 10 can by communication equipment 900 shown in Figure 14 come It realizes.For example, transmission unit 520 shown in Figure 10 can be realized by transceiver 910, processing unit 510 can be by processor 720 It realizes.

Figure 15 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.As shown in figure 15, described Communication equipment 1000 includes transceiver 1010 and processor 1020.The processor 1020 is configured as that communication equipment is supported to hold The corresponding function of second terminal equipment in the row above method.Optionally, the communication equipment 1000 can also include memory 1030, the memory 1030 saves the necessary program instruction of communication equipment 1000 and data for coupling with processor 1020. Processor 1020 is specifically used for executing the instruction stored in memory 1030, and when executed, the communication equipment executes Method performed by second terminal equipment in the above method.

It should be noted that communication equipment 600 shown in Figure 11 can pass through communication equipment 1000 shown in Figure 15 To realize.For example, receiving unit 610 shown in Figure 11 can be realized that processing unit 620 can be by processor by transceiver 1010 1020 realize.

Figure 16 is the schematic block diagram according to an example again of the communication equipment of the embodiment of the present application.As shown in figure 16, described The network equipment 1100 includes transceiver 1110 and processor 1120, and the processor 1120 is configured as that the network equipment is supported to hold The corresponding function of the network equipment in the row above method.Optionally, the network equipment can also include memory 1130, described to deposit Reservoir 1130 saves the necessary program instruction of the network equipment and data for coupling with processor 1120.Processor 1120 is specific For executing the instruction stored in memory 1130, when executed, the network equipment executes network in the above method Method performed by equipment.

It should be noted that the network equipment 700 shown in Figure 12 can pass through the network equipment 1100 shown in Figure 16 To realize.For example, processing unit 710 shown in Figure 12 can be realized that transmission unit 720 can be with transceiver by processor 1120 1110 realize.

It should be noted that the application by taking terminal device and the network equipment as an example, describes the communication means of the embodiment of the present application And communication equipment.It should be understood that the communication means of the embodiment of the present application can also be realized by multiple baseband chips, for example, the first base Microarray strip can be used to implement the relevant operation of first terminal equipment in the embodiment of the present application.In another example the second baseband chip can With the relevant operation for realizing first network equipment in the embodiment of the present application, for another example third baseband chip can be used for reality The relevant operation of the second terminal equipment of existing the embodiment of the present application, for another example the 4th baseband chip can be used to implement the application The relevant operation of the network equipment of embodiment.

Also it should be noted that, the input/output circuitry of first baseband chip is implemented for first terminal above and sets The relevant operation of standby transceiver, the input/output circuitry of second baseband chip are implemented for first network above and set The relevant operation of standby transceiver, the input/output circuitry of the third baseband chip are implemented for second terminal above and set The input/output circuitry of the relevant operation of standby transceiver, the 4th baseband chip is implemented for the network equipment above The relevant operation of transceiver.

It should be understood that the processor can be central processing unit (central processing in the embodiment of the present application Unit, CPU), which can also be other general processors, digital signal processor (digital signal Processor, DSP), it is specific integrated circuit (application specific integrated circuit, ASIC), existing At programmable gate array (field programmable gate array, FPGA) or other programmable logic device, discrete Door or transistor logic, discrete hardware components etc..

It should also be understood that the memory in the embodiment of the present application can be volatile memory or nonvolatile memory, or It may include both volatile and non-volatile memories.Wherein, nonvolatile memory can be read-only memory (read- Only memory, ROM), programmable read only memory (programmable ROM, PROM), the read-only storage of erasable programmable Device (erasable PROM, EPROM), electrically erasable programmable read-only memory (electrically EPROM, EEPROM) or Flash memory.Volatile memory can be random access memory (random access memory, RAM), be used as external high Speed caching.By exemplary but be not restricted explanation, random access memory (the random access of many forms Memory, RAM) it is available, such as static random access memory (static RAM, SRAM), dynamic random access memory (DRAM), Synchronous Dynamic Random Access Memory (synchronous DRAM, SDRAM), Double Data Rate synchronous dynamic with Machine accesses memory (double data rate SDRAM, DDR SDRAM), enhanced Synchronous Dynamic Random Access Memory (enhanced SDRAM, ESDRAM), synchronized links dynamic random access memory (synchlink DRAM, SLDRAM) and straight Meet rambus random access memory (direct rambus RAM, DR RAM).

Above-described embodiment can be realized wholly or partly by software, hardware, firmware or any other combination.When When using software realization, above-described embodiment can be realized entirely or partly in the form of a computer program product.The calculating Machine program product includes one or more computer instructions.When loading on computers or executing the computer program instructions, It entirely or partly generates according to process or function described in the embodiment of the present application.The computer can for general purpose computer, Special purpose computer, computer network or other programmable devices.The computer instruction can store to be deposited computer-readable In storage media, or from a computer readable storage medium to the transmission of another computer readable storage medium, for example, described Computer instruction can pass through wired (such as infrared, wireless, micro- from a web-site, computer, server or data center Wave etc.) mode transmitted to another web-site, computer, server or data center.The computer-readable storage Medium can be any usable medium that computer can access or include the service of one or more usable medium set The data storage devices such as device, data center.The usable medium can be magnetic medium (for example, floppy disk, hard disk, tape), light Medium (for example, digital versatile disc (digital versatile disc, DVD)) or semiconductor medium.Semiconductor medium It can be solid state hard disk.

It should be understood that the terms "and/or", only a kind of incidence relation for describing affiliated partner, expression can deposit In three kinds of relationships, for example, A and/or B, can indicate: individualism A exists simultaneously A and B, these three situations of individualism B. In addition, character "/" herein, typicallys represent the relationship that forward-backward correlation object is a kind of "or".

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed Scope of the present application.

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

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

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.

It, can be with if the function is realized in the form of SFU software functional unit and when sold or used as an independent product It is stored in a computer readable storage medium.Based on this understanding, the technical solution of the application is substantially in other words The part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products, the meter Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be a People's computer, server or network equipment etc.) execute each embodiment the method for the application all or part of the steps. And storage medium above-mentioned include: USB flash disk, mobile hard disk, read-only memory (ROM), random access memory (RAM), magnetic disk or The various media that can store program code such as person's CD.

The above, the only specific embodiment of the application, but the protection scope of the application is not limited thereto, it is any Those familiar with the art within the technical scope of the present application, can easily think of the change or the replacement, and should all contain Lid is within the scope of protection of this application.Therefore, the protection scope of the application should be based on the protection scope of the described claims.

Claims (30)

1. a kind of communication means, which is characterized in that the described method includes:

First terminal equipment receives the first configuration information and the second configuration information from first network equipment, and described first matches confidence Breath configures first resource for sending first kind measuring signal for the first terminal equipment, and second configuration information is used for Second Type measuring signal is sent for the first terminal equipment and configures Secondary resource, wherein the first kind measuring signal It is measured for the first network equipment, the Second Type measuring signal is set for second network equipment and second terminal It is at least one of standby to measure；

The first terminal equipment sends the first kind measuring signal according to the first resource；

The first terminal equipment sends the Second Type measuring signal according to the Secondary resource.

2. the method according to claim 1, wherein the first kind measuring signal is that the first terminal is set Standby dedicated measuring signal, the Second Type measuring signal are the common measuring signal of multiple terminal devices, the multiple end End equipment includes the first terminal equipment；And/or

The sequence of the first kind measuring signal is First ray, and the sequence of the Second Type measuring signal is the second sequence Column, the First ray are different with second sequence；And/or

It is the first scrambling code, the second terminal that the first terminal equipment, which sends the scrambling code that the first kind measuring signal uses, It is the second scrambling code that equipment, which sends the scrambling code that the Second Type signal uses, and first scrambling code is different with second scrambling code.

3. method according to claim 1 or 2, which is characterized in that the running time-frequency resource that the first resource includes with it is described The running time-frequency resource that Secondary resource includes has lap；

The first terminal equipment sends the first kind measuring signal and the first terminal according to the first resource Equipment sends the Second Type measuring signal according to the Secondary resource, comprising:

The first terminal equipment sends the first kind measuring signal or Second Type measurement in the lap Signal.

4. according to the method described in claim 3, it is characterized in that, the method also includes:

The first terminal equipment receives instruction information from the first network equipment, and the instruction information is used to indicate the first kind Type measuring signal or Second Type measuring signal；

The first terminal equipment sends the first kind measuring signal or Second Type measurement in the lap Signal, comprising:

The first terminal equipment sends the measuring signal of the instruction information instruction in the lap.

5. method according to claim 1 to 4, which is characterized in that the Secondary resource includes at the first time Unit, the first terminal equipment send the Second Type measuring signal according to the Secondary resource, comprising:

If the second time quantum after the first time unit sends data for the first terminal equipment, described first Terminal device sends the Second Type measuring signal on the first time unit.

6. the method according to any one of claims 1 to 5, which is characterized in that the Secondary resource includes the first symbol, First symbol is used for the non-uplink of first network equipment,

The first terminal equipment sends the Second Type measuring signal according to the Secondary resource, comprising:

The first terminal equipment sends the Second Type measuring signal on first symbol.

7. a kind of communication means, which is characterized in that the described method includes:

First network equipment determines the first configuration information and the second configuration information, and first configuration information is used to be described the One terminal device sends first kind measuring signal and configures first resource, and second configuration information is used to be the first terminal Equipment sends Second Type measuring signal and configures Secondary resource, wherein the first kind measuring signal is used for first net Network equipment measures, the Second Type measuring signal at least one of second network equipment and second terminal equipment into Row measurement；

The first network equipment sends first configuration information and second configuration information.

8. the method according to the description of claim 7 is characterized in that the first kind measuring signal is that the first terminal is set Standby dedicated measuring signal, the Second Type measuring signal are the common measuring signal of multiple terminal devices, the multiple end End equipment includes the first terminal equipment；And/or

The sequence of the first kind measuring signal is First ray, and the sequence of the Second Type measuring signal is the second sequence Column, the First ray are different with second sequence；And/or

It is the first scrambling code, the second terminal that the first terminal equipment, which sends the scrambling code that the first kind measuring signal uses, It is the second scrambling code that equipment, which sends the scrambling code that the Second Type signal uses, and first scrambling code is different with second scrambling code.

9. method according to claim 7 or 8, which is characterized in that the running time-frequency resource that the first resource includes with it is described The running time-frequency resource that Secondary resource includes has lap.

10. according to the method described in claim 9, it is characterized in that, the method also includes:

The first network equipment sends instruction information to the first terminal equipment, and the instruction information is used to indicate described the One terminal device sends the first kind measuring signal or the Second Type measuring signal in the lap.

11. method according to any one of claims 7 to 10, which is characterized in that when the Secondary resource includes first Between unit, the method also includes:

The first network equipment sends scheduling information to the first terminal equipment, and the scheduling information is used to be described first Terminal device sends data and distributes the second time quantum, and the scheduling information is also used to the first terminal equipment and determines described The Second Type measuring signal is sent on first time unit, wherein second time quantum is located at the first time After unit.

12. a kind of communication means, which is characterized in that the described method includes:

Second terminal equipment receives third configuration information from the network equipment, and the third configuration information is used to be the second terminal Equipment receives measuring signal and configures information resources, and the information resources belong to the resource that measuring signal is sent for terminal device；

The second terminal equipment measures received measuring signal on the information resources.

13. according to the method for claim 12, which is characterized in that the information resources include first time unit, described Second terminal equipment measures received measuring signal on the information resources, comprising:

If the second time quantum after the first time unit receives data for the second terminal equipment, described second Terminal device measures received measuring signal on the first time unit.

14. a kind of communication means, which is characterized in that the described method includes:

The network equipment determines that information resources, the information resources belong to the resource that measuring signal is sent for terminal device；

The network equipment sends third configuration information to the second terminal equipment, and the third configuration information is for being described Second terminal equipment receives measuring signal and configures the information resources.

15. according to the method for claim 14, which is characterized in that the information resources include first time unit, described Method further include:

The network equipment sends scheduling information to the second terminal equipment, and the scheduling information is used to be the second terminal Equipment receives data and distributes the second time quantum, and the scheduling information is also used to the second terminal equipment and determines described first The Second Type measuring signal is sent on time quantum.

16. a kind of communication equipment, which is characterized in that the communication equipment includes processor and transceiver, and the processor is used for Control the transceiver；

The transceiver is used for: receiving the first configuration information and the second configuration information from first network equipment, described first matches Confidence breath configures first resource for sending first kind measuring signal for the communication equipment, and second configuration information is used for Second Type measuring signal is sent for the communication equipment and configures Secondary resource, wherein the first kind measuring signal is used for The first network equipment measures, and the Second Type measuring signal is in second network equipment and second terminal equipment At least one measures；The first kind measuring signal is sent according to the first resource；It is sent out according to the Secondary resource Send the Second Type measuring signal.

17. communication equipment according to claim 16, the first kind measuring signal is that the communication equipment is dedicated Measuring signal, the Second Type measuring signal are the common measuring signal of multiple equipment, and the multiple equipment includes described logical Believe equipment；And/or

The sequence of the first kind measuring signal is First ray, and the sequence of the Second Type measuring signal is the second sequence Column, the First ray are different with second sequence；And/or

It is the first scrambling code that the transceiver, which sends the scrambling code that the first kind measuring signal uses, described in the transceiver transmission The scrambling code that Second Type signal uses is the second scrambling code, and first scrambling code is different with second scrambling code.

18. communication equipment according to claim 16 or 17, which is characterized in that the running time-frequency resource that the first resource includes The running time-frequency resource for including with the Secondary resource has lap；

The transceiver is specifically used for: in the lap, sending the first kind measuring signal or the Second Type Measuring signal.

19. communication equipment according to claim 18, which is characterized in that the transceiver is also used to: from first net Network equipment receives instruction information, and the instruction information is used to indicate the transceiver and sends first kind survey in the lap Measure signal or Second Type measuring signal；

The transceiver is specifically used for: sending the measuring signal of the instruction information instruction in the lap.

20. communication equipment described in any one of 6 to 19 according to claim 1, which is characterized in that the Secondary resource includes the One time quantum,

The transceiver is specifically used for: if the second time quantum after the first time unit is sent for the transceiver Data send the Second Type measuring signal on the first time unit.

21. communication equipment described in any one of 6 to 20 according to claim 1, which is characterized in that the Secondary resource includes the One symbol, first symbol are used for the non-uplink of first network equipment；

The transceiver is specifically used for: the Second Type measuring signal is sent on first symbol.

22. a kind of communication equipment, which is characterized in that the communication equipment includes processor and transceiver, and the processor is used for Control the transceiver；

The processor is also used to: determining the first configuration information and the second configuration information, first configuration information is for being The first terminal equipment sends first kind measuring signal and configures first resource, and second configuration information is used to be described the One terminal device sends Second Type measuring signal and configures Secondary resource, wherein the first kind measuring signal is for described Communication equipment measures, and the Second Type measuring signal is used at least one of second network equipment and second terminal equipment It measures；

The transceiver is used for: sending first configuration information and second configuration information.

23. communication equipment according to claim 22, which is characterized in that the first kind measuring signal is described first The dedicated measuring signal of terminal device, the Second Type measuring signal is the common measuring signal of multiple terminal devices, described Multiple terminal devices include the first terminal equipment；And/or

The sequence of the first kind measuring signal is First ray, and the sequence of the Second Type measuring signal is the second sequence Column, the First ray are different with second sequence；And/or

It is the first scrambling code, the second terminal that the first terminal equipment, which sends the scrambling code that the first kind measuring signal uses, It is the second scrambling code that equipment, which sends the scrambling code that the Second Type signal uses, and first scrambling code is different with second scrambling code.

24. the communication equipment according to claim 22 or 23, which is characterized in that the running time-frequency resource that the first resource includes The running time-frequency resource for including with the Secondary resource has lap.

25. communication equipment according to claim 24, which is characterized in that the transceiver is also used to: Xiang Suoshu first is eventually End equipment sends instruction information, and the instruction information is used to indicate the first terminal equipment and sends first in the lap Categorical measures signal or Second Type measuring signal.

26. the communication equipment according to any one of claim 22 to 25, which is characterized in that the Secondary resource includes the One time quantum,

The transceiver is also used to: Xiang Suoshu first terminal equipment sends scheduling information, and the scheduling information is used to be described the One terminal device sends data and distributes the second time quantum, and the scheduling information is also used to the first terminal equipment and determines in institute It states and sends the Second Type measuring signal on first time unit, wherein when second time quantum is located at described first Between after unit.

27. a kind of communication equipment, which is characterized in that the communication equipment includes:

Transceiver, for receiving third configuration information from the network equipment, the third configuration information is used to connect for the transceiver It receives measuring signal and configures information resources, the information resources belong to the resource for sending measuring signal for terminal device；

Processor measures received measuring signal on the information resources.

28. communication equipment according to claim 27, which is characterized in that the information resources include first time unit,

The processor is specifically used for: if the second time quantum after the first time unit is received for the transceiver Data measure received measuring signal on the first time unit.

29. a kind of communication equipment, which is characterized in that the communication equipment includes:

Processor, for determining that information resources, the information resources belong to the resource for sending measuring signal for terminal device；

Transceiver, for sending third configuration information to the second terminal equipment, the third configuration information is for being described Transceiver receives measuring signal and configures the information resources.

30. communication equipment according to claim 29, which is characterized in that the information resources include first time unit,

The transceiver is also used to: Xiang Suoshu second terminal equipment sends scheduling information, and the scheduling information is used to be described the Two terminal devices receive data and distribute the second time quantum, and the scheduling information is also used to the second terminal equipment and determines in institute It states and sends the Second Type measuring signal on first time unit.