CN110139374A

CN110139374A - A kind of resource indicating method, user equipment and network side equipment

Info

Publication number: CN110139374A
Application number: CN201810136893.0A
Authority: CN
Inventors: 李晨鑫; 彭莹; 赵锐; 赵丽
Original assignee: Telecommunications Science and Technology Research Institute Co Ltd
Current assignee: Datang Mobile Communications Equipment Co Ltd
Priority date: 2018-02-09
Filing date: 2018-02-09
Publication date: 2019-08-16
Anticipated expiration: 2038-02-09
Also published as: WO2019153853A1; CN110139374B

Abstract

The embodiment of the invention provides a kind of resource indicating method, user equipment and network side equipments；Resource indicating method, comprising: for the resource information that user device configuration can support business to send and receive, the resource information is comprised at least one of the following: the index of frequency range；The frequency domain resource position of the frequency range；The index of carrier wave；The frequency domain resource position of the carrier wave；The index of portions of bandwidth；The corresponding baseband parameter of the index of the portions of bandwidth and/or frequency domain resource position；Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing.The problem of information that the embodiment of the present invention solves the instruction of SA in the prior art cannot achieve in technology of newly eating dishes without rice or wine, high band frequency domain resource, support across forms such as frequency range/cross-carrier scheduling, flexible numerology configurations.

Description

A kind of resource indicating method, user equipment and network side equipment

Technical field

The present invention relates to mobile communication technology fields, and in particular to a kind of resource indicating method, user equipment and network side Equipment.

Background technique

In third generation partner program (3rd Generation Partnership Project, 3GPP) released version (Release) 14 vehicle is in extraneous information exchange (vehicle to X, V2X) agreement, user equipment (User Equipment, UE) only single carrier is supported to send, the maximum traffic load sent can be supported in each time-domain resource It (payload) is 31704bit, i.e. 3963byte.In 3GPP Release 15, it is polymerize by carrier wave and promotes what data were sent Peak rate, maximum can support 8 carrier waves, however in the limited situation of frequency domain resource bandwidth, it is still difficult to be obviously improved data Transmission rate.

Therefore, intend the frequency domain resource by using higher frequency section, obtain bigger bandwidth, promote message transmission rate, example Such as 30GHz frequency range, 63-70GHz frequency range.However, as the covering performance of the raising of frequency, signal can reduce.

After frequency domain resource bandwidth expands, different UE may support different bands due to sending and receiving ability difference It is wide；Simultaneously as the delay requirement of the business of transmission is different, prolong when sending demand lower than 10ms (such as 3ms time delay or down to The business etc. of 1ms time delay) business when, newly eating dishes without rice or wine to configure using flexible baseband parameter (numerology) in technology, Support different time-domain resource granularity and the configuration of frequency domain resource subcarrier spacing, the result and 1ms time-domain resource that the two is multiplied Granularity * 15KHz frequency domain resource subcarrier spacing is equal.

The transmission of V2X business packet includes instruction dispatch (Scheduling Assignment, SA) and data (DATA) Two parts；Wherein, SA is used to refer to the related of DATA data and sends parameter, including service priority, running time-frequency resource, re-transmission time Number, adjustment and coding mode etc..Also, the effect of SA had both included that instruction reception UE carries out reception decoding, also included that instruction receives UE is measured accordingly, as measuring reference signals receive power (Reference Signal Receiving Power, RSRP) etc., to judge occupation condition, the detection (Sensing) before of resource selection is carried out for other UE.

However, the information of SA instruction is based on the 1ms time-domain resource grain to single carrier, fixation in current protocol version Degree and 15kHz frequency domain resource subcarrier spacing are indicative, while the DATA for also only supporting SA scheduling same carrier wave to send, With certain limitation, cannot achieve to newly eating dishes without rice or wine in technology, high band frequency domain resource, across frequency range/cross-carrier scheduling, flexibly The support of the forms such as numerology configuration.

Summary of the invention

The embodiment of the invention provides a kind of resource indicating method, user equipment and network side equipments, solve existing skill The information that SA is indicated in art cannot achieve to newly eating dishes without rice or wine in technology, high band frequency domain resource, across frequency range/cross-carrier scheduling, flexibly The problem of supports of forms such as numerology configuration.

The embodiment provides a kind of resource indicating methods, comprising:

For the resource information that user device configuration can support business to send and receive, the resource information include it is following at least It is a kind of:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

The corresponding baseband parameter of the index of the portions of bandwidth and/or frequency domain resource position；Wherein, the baseband parameter packet Include time-domain resource granularity and frequency domain resource subcarrier spacing.

Wherein, the resource information further include: supported time division multiplexing tdm mode and/or frequency division multiplexing FDM mode.

Wherein, the resource information that business can be supported to send and receive for user device configuration, comprising:

Network side equipment sends the configuration information of the resource information to the user equipment, alternatively, passing through pre-configuration side Formula is resource information described in the user device configuration.

Wherein, the corresponding baseband parameter of index of the portions of bandwidth in the resource information, passes through following at least one Kind information is indicated:

Indicate whether dispatch SA and data DATA is configured with the information of identical baseband parameter；

Indicate the time-domain resource granularity of DATA and/or the information of frequency domain resource subcarrier spacing；

When SA is configured with different baseband parameters from DATA, the time-domain resource granularity and/or frequency domain resource of SA are indicated The information at carrier wave interval.

Wherein, the corresponding frequency domain resource position of the index of the portions of bandwidth in the resource information, by with down toward A kind of few information is indicated:

The index of the starting frequency domain unit of the frequency domain resource position；

The quantity for the frequency domain unit that the frequency domain resource position includes, the frequency domain unit are Physical Resource Block PRB or son Channel；And

Occupied 1/2 bandwidth of the center frequency point of the frequency domain resource position and frequency domain resource position.

Wherein, the index of the portions of bandwidth is to be followed successively by each portions of bandwidth according to frequency domain resource position and be numbered It obtains, alternatively, the index of the portions of bandwidth is the starting point and length according to frequency domain resource position, passes through combined coding mode Each portions of bandwidth is numbered to obtain.

Wherein, the TDM mode and/or FDM mode are indicated by 1 bit indication information, wherein 1 bit indication TDM+FDM mode is indicated when information value 0, FDM mode is indicated when value 1, alternatively, table when the 1 bit indication information value 1 Show TDM+FDM mode, when value 0 indicates FDM mode.

The embodiments of the present invention also provide a kind of network side equipments, comprising: transceiver, memory, processor and storage On the memory and the computer program that can run on the processor；

The processor performs the steps of when executing the computer program

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Wherein, it is performed the steps of when the processor executes the computer program

Wherein,

The index of the portions of bandwidth is to be followed successively by each portions of bandwidth according to frequency domain resource position and be numbered to obtain , alternatively, the index of the portions of bandwidth is the starting point and length according to frequency domain resource position, it is every by combined coding mode What a portions of bandwidth was numbered.

The embodiments of the present invention also provide a kind of network side equipments, comprising:

Configuration module, the resource information for that business can be supported to send and receive for user device configuration, the resource letter Breath comprises at least one of the following:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

The embodiments of the present invention also provide a kind of computer readable storage mediums, are stored thereon with computer program, should The step of above-mentioned resource indicating method is realized when computer program is executed by processor.

The embodiments of the present invention also provide a kind of resource indicating methods, comprising:

Be retrieved as the resource information for supporting business to send and receive of user device configuration, the resource information include with Lower at least one:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

The corresponding baseband parameter of the index of the portions of bandwidth and/or frequency domain resource position, wherein the baseband parameter packet Include time-domain resource granularity and frequency domain resource subcarrier spacing；

In business transmission process, the user equipment indicates at least one of following transmission parameter by SA:

Scheduling mode；

The time-domain resource granularity of at least one DATA and/or the frequency domain resource subcarrier spacing of at least one DATA；

The running time-frequency resource position of at least one DATA.

Wherein, the resource information further include: supported time division multiplexing tdm or frequency division multiplexing FDM multiplex mode.

Wherein, the user equipment also passes through the following at least one parameter that sends of dispatch SA instruction: priority parameters, Resource reservation parameter, modulation and coding strategy MCS parameter and retransmission instruction parameter.

Wherein, the user equipment also passes through the retransmission instruction parameter that dispatch SA is indicated, is used to indicate current SA Whether corresponding data transmission is re-transmission and retransmission index.

Wherein, the scheduling mode includes: the first scheduling mode dispatched on same carrier wave or portions of bandwidth, and, Across frequency range or the second scheduling mode cross-carrier or across portions of bandwidth scheduling.

Wherein, when the scheduling mode is first scheduling mode, the running time-frequency resource position of at least one DATA Set, indicated by following at least one information: the first instruction information, second indication information and third indicate information；Its In,

The first instruction letter includes the 4th instruction information and/or the 5th instruction information, and the 4th instruction information is institute The index of the portions of bandwidth where at least one DATA is stated, the 5th instruction information includes the time-domain resource granularity of SA, DATA Time-domain resource granularity, at least one of frequency domain resource subcarrier spacing and the frequency domain resource subcarrier spacing of DATA of SA；

The second indication information is the running time-frequency resource position of corresponding first DATA of current SA；

The running time-frequency resource that the third instruction information is other DATA in current transmission block TB in addition to the first DATA Position.

Wherein, the second indication information specifically includes:

Time interval between current SA and the first DATA；And

The number for the frequency domain unit that the index and the first DATA of the starting frequency domain unit of first DATA include Amount, the frequency domain unit is Physical Resource Block PRB or subchannel, and the index of the starting frequency domain unit is starting frequency domain unit Index on current carrier or current bandwidth part.

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

The number for the frequency domain unit that the index of the starting frequency domain unit of other DATA and other described DATA include Amount, the frequency domain unit is Physical Resource Block PRB or subchannel, and the index of the starting frequency domain unit is starting frequency domain unit Index on current carrier or current bandwidth part.

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

The index of the starting frequency domain unit of other DATA and the index of the starting frequency domain unit of the first DATA Difference, the frequency domain unit are Physical Resource Block PRB or subchannel.

Wherein, it when other described DATA have multiple, for other each described DATA, is successively indicated using the third Information, indicates the running time-frequency resource position of other DATA, alternatively, information is indicated to all or part of third, using joint Coding mode indicates the running time-frequency resource position of other DATA.

Wherein, when the scheduling mode is second scheduling mode, the running time-frequency resource position of at least one DATA Set, indicated by following at least one information: the first instruction information, second indication information and third indicate information；Its In,

Wherein, the second indication information specifically includes following at least one:

The index of frequency range where the running time-frequency resource of first DATA or the frequency domain resource position of place frequency range；

The index of carrier wave where the running time-frequency resource of first DATA or the frequency domain resource position of place carrier wave；

The frequency domain of the portions of bandwidth of the index or place of portions of bandwidth where the running time-frequency resource of first DATA provides Source position；

Time interval between current SA and the first DATA；And

Wherein, the third instruction information comprises at least one of the following:

The index of frequency range where the running time-frequency resource of other DATA or the frequency domain resource position of place frequency range；

The index of carrier wave where the running time-frequency resource of other DATA or the frequency domain resource position of place carrier wave；

The frequency domain of the portions of bandwidth of the index or place of portions of bandwidth where the running time-frequency resource of other DATA provides Source position；

Time interval between current SA and other described DATA；And

Wherein, using the smaller of time-domain resource granularity in current SA and DATA as the basic unit of the time interval, Indicate the difference of the initial time of the time-domain resource of current SA and the time-domain resource initial time of DATA；

Wherein, in initial time of the time-domain resource initial time of DATA earlier than current SA time-domain resource, the time Interval further includes having the positive and negative instruction information for indicating the difference；

Current SA with time-domain resource granularity is identical in DATA when, the time interval value be 0 indicate current SA with DATA is sent by FDM mode.

Wherein, the user equipment also by SA indicate used by multiplex mode, the multiplex mode be TDM mode or FDM mode.

Wherein, the used multiplex mode, which passes through 1 bit indication information, indicates, wherein the 1 bit indication information TDM+FDM mode is indicated when value 0, FDM mode is indicated when value 1, alternatively, indicating when the 1 bit indication information value 1 TDM+FDM mode indicates FDM mode when value 0.

The embodiments of the present invention also provide a kind of user equipmenies, comprising: transceiver, memory, processor and is stored in On memory and the computer program that can run on a processor, the processor are realized following when executing the computer program Step:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Scheduling mode；

The running time-frequency resource position of at least one DATA.

Wherein, the second indication information specifically includes:

Time interval between current SA and the first DATA；And

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Time interval between current SA and the first DATA；And

Time interval between current SA and other described DATA；And

The embodiments of the present invention also provide a kind of user equipmenies, comprising:

Module is obtained, it is described for being retrieved as the resource information for supporting business to send and receive of user device configuration Resource information comprises at least one of the following:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Sending module, in business transmission process, the user equipment to indicate following send in parameter by SA It is at least one:

Scheduling mode；

The running time-frequency resource position of at least one DATA.

The embodiments of the present invention also provide a kind of computer readable storage mediums, are stored thereon with computer program, should The step in above-mentioned resource indicating method is realized when computer program is executed by processor.

Compared with prior art, resource indicating method provided in an embodiment of the present invention, user equipment and network side equipment lead to The resource information that business can be supported to send and receive for user device configuration is crossed, resource information includes the index of carrier wave, bandwidth portion At least one of the corresponding baseband parameter of index of the index and the portions of bandwidth that divide and/or frequency domain resource position；This Inventive embodiments may be implemented to technology medium-high frequency section frequency domain resource of newly eating dishes without rice or wine, across frequency range/cross-carrier scheduling and flexibly The instruction of numerology configuration etc..

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below by institute in the description to the embodiment of the present invention Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the invention Example, for those of ordinary skill in the art, without any creative labor, can also be according to these attached drawings Obtain other attached drawings.

Fig. 1 is a kind of flow chart of resource indicating method in the embodiment of the present invention；

Fig. 2 is a kind of structural schematic diagram figure of network side equipment provided in an embodiment of the present invention；

Fig. 3 is another structural schematic diagram of network side equipment provided in an embodiment of the present invention；

Fig. 4 is another flow chart of resource indicating method in the embodiment of the present invention；

Fig. 5 is a kind of structural schematic diagram of user equipment provided in an embodiment of the present invention；

Fig. 6 is another structural schematic diagram of user equipment provided in an embodiment of the present invention.

Specific embodiment

To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool Body embodiment is described in detail.In the following description, such as specific configuration is provided and the specific detail of component is only In order to help comprehensive understanding the embodiment of the present invention.It therefore, it will be apparent to those skilled in the art that can be to reality described herein Example is applied to make various changes and modifications without departing from scope and spirit of the present invention.In addition, for clarity and brevity, it is omitted pair The description of known function and construction.

It should be understood that " one embodiment " or " embodiment " that specification is mentioned in the whole text mean it is related with embodiment A particular feature, structure, or characteristic is included at least one embodiment of the present invention.Therefore, occur everywhere in the whole instruction " in one embodiment " or " in one embodiment " not necessarily refer to identical embodiment.In addition, these specific features, knot Structure or characteristic can combine in any suitable manner in one or more embodiments.

In various embodiments of the present invention, it should be appreciated that the size of the serial number of following each processes is not meant to execute suitable Sequence 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 invention Process constitutes any restriction.

In addition, the terms " system " and " network " are often used interchangeably herein.

In embodiment provided herein, it should be appreciated that " B corresponding with A " indicates that B is associated with A, can be with according to A Determine B.It is also to be understood that determine that B is not meant to determine B only according to A according to A, it can also be according to A and/or other information Determine B.

Referring to Fig. 1, the embodiment of the invention provides a kind of resource indicating methods, comprising:

Step 101, the resource information that business can be supported to send and receive for user device configuration, the resource information include Following at least one:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Wherein, the corresponding index of frequency range that the index of frequency range can support business to send and receive, the frequency domain of the frequency range Resource location where the frequency range that resource location can support business to send and receive；The index of carrier wave can support business to send Index corresponding with received carrier wave is used to indicate the carrier wave that business can be supported to send and receive surely, the frequency domain money of the carrier wave Resource location where the carrier wave that source position can support business to send and receive；The index of portions of bandwidth can each support industry It is engaged on the carrier wave sent and received, supported portions of bandwidth (bandwidth part) index can be supported to indication carrier wave Bandwidth information；The corresponding design parameter of the index of the portions of bandwidth includes baseband parameter and/or frequency domain resource position, base band Parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing.

The resource information further include: supported time division multiplexing tdm mode and/or frequency division multiplexing FDM mode, it can It include: 1) TDM mode；2) FDM mode；3) TDM and FDM mode, i.e. TDM+FDM mode.Here, TDM+FDM mode refers to together The mode of Shi Jinhang time division multiplexing and frequency division multiplexing.

In view of in the specific implementation, being usually mostly above-mentioned 2nd kind and the 3rd kind of multiplex mode, therefore, the TDM mode And/or FDM mode can be indicated by 1 bit indication information.For example, indicating TDM+ when the 1 bit indication information value 0 FDM mode indicates FDM mode when value 1, alternatively, indicating TDM+FDM mode, value 0 when the 1 bit indication information value 1 When indicate FDM mode.

That is, TDM/FDM indicating mode occupies 1 bit in resource information, i.e., using this hair of 1 bit indication The resource information sent is FDM mode or TDM mode, for example, indicating the side TDM+FDM when the 1 bit indication information value 0 Formula indicates FDM mode when value 1, alternatively, indicate TDM+FDM mode when the 1 bit indication information value 1, table when value 0 Show FDM mode.

Specifically, step 101, comprising:

Wherein, network side equipment can be base station etc..The configuration information of resource information can be sent from network side equipment to UE； Resource information can also be configured for UE in advance by way of pre-configuration.

In an embodiment of the present invention, the corresponding baseband parameter of index of the portions of bandwidth in the resource information, It is indicated by following at least one information:

Specifically, corresponding to support business under the bandwidth part index that network side configures or is pre-configured It may include that instruction SA and DATA is that the time-domain resource granularity and frequency domain resource subcarrier spacing of transmission, which configure specific indicating mode, The no information configured with identical baseband parameter；And it is divided into according to the information whether SA and DATA is configured with identical baseband parameter Following two situation:

Situation one: if SA and DATA is configured with the information of identical baseband parameter, baseband parameter includes instruction DATA The information of time-domain resource granularity and/or frequency domain resource subcarrier spacing；

Or situation two: if SA and DATA is configured with the information of different baseband parameters, baseband parameter includes instruction The time-domain resource granularity of DATA and/or the information of frequency domain resource subcarrier spacing and, indicate SA time-domain resource granularity and/or The information of frequency domain resource subcarrier spacing.

Wherein, in an embodiment of the present invention, the corresponding frequency domain of index of the portions of bandwidth in the resource information Resource location is indicated by following at least one information:

Wherein, frequency domain unit can be Physical Resource Block (Physical Resource Block, PRB) or subchannel, For example, a kind of possible situation is, what single PRB pair was answered is 12 continuous carrier wave (feelings at 15kHz carrier wave interval on frequency domain It is 180kHz under condition), it is the resource of a time slot (half of subframe, 0.5ms) in time domain.The index of starting frequency domain unit is for referring to Show the initial position of frequency domain unit.

And the quantity of the frequency domain resource position frequency domain unit that includes, it is used to indicate including how many a frequency domain units；

Occupied 1/2 bandwidth of the center frequency point of frequency domain resource position and frequency domain resource position, for according to center frequency The whole bandwidth position of the position of point and 1/2 bandwidth instruction frequency domain resource position.

Wherein, in an embodiment of the present invention, the index of the portions of bandwidth is to be followed successively by every according to frequency domain resource position What a portions of bandwidth was numbered, alternatively, the index of the portions of bandwidth is the starting point and length according to frequency domain resource position Degree, is numbered to obtain by each portions of bandwidth of combined coding mode.

Specifically, the instruction of network side equipment configuration mode or the bandwidth part index of pre-configuration mode, can It supports following manner: being followed successively by the number of each bandwidth part index according to frequency domain resource position；Or according to frequency domain Position starting point and length carry out the volume of bandwidth part index by way of combined coding for each portions of bandwidth Number.

In the above embodiment of the invention, believed by the resource that business can be supported to send and receive for user device configuration Breath, resource information include the index of carrier wave, portions of bandwidth index and the portions of bandwidth the corresponding baseband parameter of index At least one of the frequency domain resource position and/or；The embodiment of the present invention realize to newly eat dishes without rice or wine technology medium-high frequency section frequency domain resource, Across frequency range/cross-carrier scheduling and the flexibly support of numerology configuration etc..

As shown in Fig. 2, the network side equipment includes: processor the embodiment of the invention provides a kind of network side equipment 200；The memory 220 being connected by bus interface with the processor 200, and pass through bus interface and processor 200 The transceiver 210 being connected；The memory 220 is for storing the processor used program sum number when executing operation According to；Data information or pilot tone are sent by the transceiver 210, uplink control channel is also received by the transceiver 210； When processor 200 calls and executes the program and data stored in the memory 220, following functional module is realized:

Processor 200 is used to read the program in memory 220, executes following process:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Transceiver 210, for sending and receiving data under the control of processor 200.

Wherein, it is performed the steps of when the processor 200 executes the computer program

The quantity for the frequency domain unit that the frequency domain resource position includes, the frequency domain unit are Physical Resource Block PRB or son Channel；

Alternatively,

Wherein,

Specifically, in embodiments of the present invention, the TDM mode and/or FDM mode can pass through 1 bit indication information It indicates, wherein indicate TDM+FDM mode when the 1 bit indication information value 0, FDM mode is indicated when value 1, alternatively, institute Indicate TDM+FDM mode when stating 1 bit indication information value 1, when value 0 indicates FDM mode.

Wherein, in Fig. 2, bus architecture may include the bus and bridge of any number of interconnection, specifically by processor 200 The various circuits for the memory that the one or more processors and memory 220 of representative represent link together.Bus architecture is also Various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like can be linked together, these are all It is it is known in the art, therefore, it will not be further described herein.Bus interface provides interface.Transceiver 210 can To be multiple element, that is, includes transmitter and transceiver, the list for communicating over a transmission medium with various other devices is provided Member.Processor 200, which is responsible for management bus architecture and common processing, memory 220, can store processor 200 and is executing operation When used data.

It will be understood by those skilled in the art that realize above-described embodiment all or part of step can by hardware come It completes, relevant hardware can also be indicated by computer program to complete, the computer program includes executing above-mentioned side The instruction of some or all of step of method；And the computer program can store in a readable storage medium storing program for executing, storage medium It may be any type of storage medium.

Referring to Fig. 3, the embodiments of the present invention also provide a kind of network side equipments 300, comprising:

Configuration module 301, the resource information for that business can be supported to send and receive for user device configuration, the resource Information comprises at least one of the following:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Wherein, the configuration module 301 includes:

First configuration submodule, the configuration of the resource information is sent for network side equipment 300 to the user equipment Information, alternatively, being resource information described in the user device configuration by way of pre-configuration.

And

Wherein,

The TDM mode and/or FDM mode are indicated by 1 bit indication information, wherein the 1 bit indication information takes TDM+FDM mode is indicated when value 0, FDM mode is indicated when value 1, alternatively, indicating TDM+ when the 1 bit indication information value 1 FDM mode indicates FDM mode when value 0.

Network side equipment embodiment of the invention be it is corresponding with the embodiment of the above method, in above method embodiment All realization rates can also reach identical technical effect suitable for the embodiment of the network side equipment.

The resource indicating method of the embodiment of the present invention is described from network side equipment above, below the present embodiment will combine it is attached Figure is described further the resource indicating method of user equipment side.

Referring to fig. 4, the embodiment provides a kind of resource indicating methods, comprising:

Step 401, the resource information for supporting business to send and receive of user device configuration, the resource letter are retrieved as Breath comprises at least one of the following:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

The corresponding baseband parameter of the index of the portions of bandwidth and/or frequency domain resource position, wherein the baseband parameter packet Include time-domain resource granularity and frequency domain resource subcarrier spacing.

It is retrieved as the resource information for supporting business to send and receive of user device configuration, so as in business transmission process In, it is indicated to send parameter according to resource information.

Step 402, in business transmission process, the user equipment indicates following at least one sent in parameter by SA Kind:

Scheduling mode；

The running time-frequency resource position of at least one DATA.

Wherein, scheduling mode may include self scheduling mode alternatively, non-self scheduling mode cross-carrier or across portions of bandwidth；SA But indicate the time-domain resource granularity and/or frequency domain resource subcarrier spacing or at least one DATA of also at least one DATA Running time-frequency resource position, i.e. time-frequency domain resources position instruction.Wherein, in an embodiment of the present invention, the resource information further include: Supported time division multiplexing tdm or frequency division multiplexing FDM multiplex mode.

Wherein, in an embodiment of the present invention, multiplex mode used by the user equipment is also indicated by SA, it is described Multiplex mode is TDM mode or FDM mode.

Wherein, in an embodiment of the present invention, the used multiplex mode can pass through 1 bit indication information table Show, wherein indicate TDM+FDM mode when the 1 bit indication information value 0, FDM mode is indicated when value 1, alternatively, described 1 TDM+FDM mode is indicated when bit indication information value 1, and FDM mode is indicated when value 0.

Wherein, in an embodiment of the present invention, it is following at least one also to pass through dispatch SA instruction for the user equipment Send parameter: priority parameters, resource reservation parameter, modulation and coding strategy MCS parameter and retransmission instruction parameter.

Specifically, SA can indicate the DATA resource position that current business packet is sent, in the embodiment of the present invention, SA Including following instructions field:

1) priority parameters (Priority): 3bits；

2) resource reservation parameter (Resource reservation): 4bits；

Wherein, the subchannel number that the frequency domain resource position of other transmission and transmission use is using combined coding.

For mode3 dispatch, UE by the Downlink Control Information received (Downlink Control Information, DCI) corresponding domain is directly placed into SCI.

3) modulation and coding parameter (MCS): 5bits；

4) 32 kinds of modulation and coding strategy index value are indicated；

5) retransmission instruction parameter (Retransmission index): 1bit, indicate that the corresponding DATA of current SA is just to pass Or it retransmits；

Wherein, SA can also include following instructions field:

6) reserved bit Reserved bits:7bits.Under Rel-14V2V WI frame, reserved in the SCI that UE is sent Bit all take 0.

7) CRC length is 16bits, shares channel (Physical Sidelink Share for generating physical bypass Channel, PSSCH) DMRS sequence and DATA scrambling sequence.

In addition to above-mentioned instructions field, SA also indicates at least one of following transmission parameter:

Scheduling mode；

The frequency domain resource position of at least one DATA.

Wherein, in an embodiment of the present invention, the user equipment also passes through the retransmission instruction ginseng that dispatch SA is indicated Number, is used to indicate whether the corresponding data transmission of current SA is re-transmission and retransmission index.

That is, whether it is to retransmit and retransmit that retransmission instruction parameter is used to indicate the corresponding data of current SA and sends Index.

Wherein, in an embodiment of the present invention, the scheduling mode includes: to dispatch on same carrier wave or portions of bandwidth First scheduling mode, and, across frequency range or the second scheduling mode cross-carrier or across portions of bandwidth scheduling.

Wherein, first scheduling mode may also be referred to as self scheduling mode, and scheduling is for same carrier wave or same Scheduling of resource in portions of bandwidth.Second scheduling mode is referred to as non-self scheduling mode, and scheduling is for across frequency The scheduling of resource of section, perhaps for cross-carrier scheduling of resource or for the scheduling of resource across portions of bandwidth.

It will be specifically introduced below for first scheduling mode and the second scheduling mode.

A: under the first scheduling mode:

Wherein, in an embodiment of the present invention, when the scheduling mode is first scheduling mode, described at least one The running time-frequency resource position of a DATA is indicated by following at least one information: the first instruction information, second indication information with And third indicates information；Wherein,

Specifically, when scheduling mode is the first scheduling mode, the running time-frequency resource position of DATA can be believed by the first instruction Breath, second indication information and third indicate at least one of information to indicate；

First instruction letter includes the 4th instruction information and/or the 5th instruction information, and the 4th instruction information is at least one The instruction of the index of portions of bandwidth where DATA, i.e. Bandwidth part index, the portions of bandwidth being used to indicate where DATA； 5th instruction information include SA time-domain resource granularity, the time-domain resource granularity of DATA, the frequency domain resource subcarrier spacing of SA and At least one of frequency domain resource subcarrier spacing of DATA is used to indicate time-domain resource position and/or the frequency domain resource of DATA Position.

Second indication information is the running time-frequency resource position of corresponding first DATA of current SA；

Wherein, in an embodiment of the present invention, the second indication information specifically includes:

Time interval between current SA and the first DATA；And

Specifically, under the first scheduling mode, the indicating mode that current SA corresponds to the running time-frequency resource position of DATA may include Current SA is indicated with the time interval of corresponding DATA, to indicate the corresponding DATA of current SA after time interval arrival；

And the index of the starting frequency domain unit of the first DATA, and the index for originating frequency domain unit is the starting frequency domain Index of the unit on current carrier or current bandwidth part, is used to indicate the starting frequency domain unit of the first DATA in current carrier Or the position on current bandwidth part；

And the quantity of the first DATA frequency domain unit that includes, the frequency domain unit are Physical Resource Block PRB or son Channel indicates the specific frequency domain resource position of the first DATA by frequency domain unit quantity and initial position.

Wherein, in an embodiment of the present invention, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Wherein, under the first scheduling mode, third indicates the time-frequency for the DATA that information, that is, SA sends other in current TB The indicating mode of resource location:

Time interval, that is, current SA and other DATA transmission time interval between current SA and other described DATA, is used In the time-domain resource position for indicating other DATA；

The number for the frequency domain unit that the index of the starting frequency domain unit of other DATA and other described DATA include Amount, is used to indicate the occupied frequency domain unit position other DATA；

And the frequency domain unit is Physical Resource Block PRB or subchannel, and the index of the starting frequency domain unit is starting Index of the frequency domain unit on current carrier or current bandwidth part.

Time interval between current SA and other described DATA；And

As another embodiment, third instruction information is removed including between the time between current SA and other described DATA Every being used to indicate the time-domain resource position of other DATA；Can also by the index of the starting frequency domain unit of other DATA with The difference of the index of the starting frequency domain unit of first DATA indicates the occupied frequency domain unit position other DATA.

Wherein, in an embodiment of the present invention, when other described DATA have multiple, for other each described DATA, Information is successively indicated using the third, indicates the running time-frequency resource position of other DATA, alternatively, to all or part of the Three instruction information, the running time-frequency resource position of other DATA is indicated using combined coding mode.

Wherein, when, there are when other multiple DATA, for other each DATA, third being successively respectively adopted in resource information It indicates information, indicates running time-frequency resource position；Or information is indicated to all or part of third, it is indicated using combined coding mode Running time-frequency resource position.

B: under the second scheduling mode:

In an embodiment of the present invention, the scheduling mode be second scheduling mode when, it is described at least one The running time-frequency resource position of DATA is indicated by following at least one information: the first instruction information, second indication information and Third indicates information；Wherein,

Wherein, when scheduling mode is the second scheduling mode, the running time-frequency resource position of at least one DATA can pass through first Instruction information, second indication information and third indicate at least one of information to indicate；

Wherein, in an embodiment of the present invention, the second indication information specifically includes following at least one:

Time interval between current SA and the first DATA；And

Wherein, the running time-frequency resource position of corresponding first DATA of the second indication information, that is, current SA, the first DATA's Running time-frequency resource position includes: the index of the frequency range where the running time-frequency resource of the first DATA or the frequency domain resource position of place frequency range It sets, is used to indicate the running time-frequency resource position of the first DATA；The index of carrier wave where the running time-frequency resource of first DATA or place The frequency domain resource position of carrier wave, i.e., the frequency domain of carrier index instruction or place carrier wave where the corresponding DATA resource of current SA Resource location, the carrier wave being used to indicate where the running time-frequency resource of the first DATA；Bandwidth portion where the running time-frequency resource of first DATA Point index or place portions of bandwidth frequency domain resource position, i.e., where the corresponding DATA resource of current SA The frequency domain resource position of the portions of bandwidth at the instruction of bandwidth part index or place, is used to indicate where running time-frequency resource Portions of bandwidth；Time interval between current SA and the first DATA, is used to indicate the sending time of the first DATA；First The quantity for the frequency domain unit that the index of the starting frequency domain unit of DATA and the first DATA include, i.e. starting PRB or son letter Road index and the PRB or number of subchannels occupied.

Wherein, in an embodiment of the present invention, the third instruction information comprises at least one of the following:

Time interval between current SA and other described DATA；And

Wherein, the instruction of the running time-frequency resource position for the DATA that the third instruction information, that is, SA sends other in current TB Mode, the running time-frequency resource position of other DATA include: the frequency range in current TB where the running time-frequency resource of other DATA index or The frequency domain resource position of frequency range, is used to indicate the running time-frequency resource position of other DATA where person；The running time-frequency resource institute of other DATA Carrier wave index or place carrier wave frequency domain resource position, the carrier wave being used to indicate where the running time-frequency resource of other DATA Or the frequency domain resource position of place carrier wave；The index of portions of bandwidth where the running time-frequency resource of other DATA or the band at place The frequency domain resource position of wide portion, i.e., the instruction of bandwidth part index or institute where the corresponding DATA resource of current SA Portions of bandwidth frequency domain resource position, the portions of bandwidth being used to indicate where the running time-frequency resource of other DATA；Current SA with Time interval between other described DATA, is used to indicate the sending time of other DATA；The starting frequency domain unit of other DATA Index and other described DATA frequency domain unit for including quantity, i.e. starting PRB or sub-channel index and occupancy PRB or number of subchannels.

Time interval between current SA and other described DATA；And

Wherein, the instruction of the running time-frequency resource position for the DATA that the third instruction information, that is, SA sends other in current TB Mode, the running time-frequency resource position of other DATA include: the frequency range in current TB where the running time-frequency resource of other DATA index or The frequency domain resource position of frequency range, is used to indicate the running time-frequency resource position of other DATA where person；The running time-frequency resource institute of other DATA Carrier wave index where frequency range frequency domain resource position, be used to indicate where the carrier wave where the running time-frequency resource of other DATA The frequency domain resource position of frequency range；The portions of bandwidth of the index or place of portions of bandwidth where the running time-frequency resource of other DATA Frequency domain resource position, i.e., the bandwidth part index instruction where the corresponding DATA resource of current SA, is used to indicate other The frequency domain resource position of the portions of bandwidth of portions of bandwidth or place where the running time-frequency resource of DATA；Current SA and it is described other Time interval between DATA is used to indicate the sending time of other DATA；

As another embodiment, third instruction information can also pass through the rope of the starting frequency domain unit of other DATA Draw the difference with the index of the starting frequency domain unit of the first DATA, indicates the occupied frequency domain unit position other DATA.

Under first scheduling mode or the second scheduling mode, when the embodiment of the present invention can be in current SA and DATA Basic unit of the smaller of domain resource granularity as the time interval, indicate the initial time of the time-domain resource of current SA with The difference of the time-domain resource initial time of DATA；

As a kind of specific implementation, current SA with time-domain resource granularity is identical in DATA when, the time interval value Indicate that current SA and DATA is sent by FDM mode for 0.

Here, the time interval can be the time interval between above-mentioned current SA and the first DATA, at this point, The smaller of time-domain resource granularity can refer to time-domain resource granularity in current SA and the first DATA in the current SA and DATA Smaller.The time interval is also possible to the time interval between above-mentioned current SA and other described DATA, at this point, institute The smaller for stating time-domain resource granularity in current SA and DATA can refer to time-domain resource grain in current SA and other described DATA The smaller of degree.

Wherein, the basic unit of time interval is the smaller of time-domain resource granularity in current SA and DATA, between the time Every basic unit instruction SA time-domain resource initial time and DATA time-domain resource initial time difference；And if DATA when For domain resource initial time earlier than the initial time of current SA time-domain resource, increase indicates the positive and negative of the difference in a time interval Instruction information；

If current SA is identical as time-domain resource granularity in DATA, time interval value indicates current SA and DATA if being 0 It is to be sent by FDM mode.

In the above embodiment of the invention, support what business sent and received by be retrieved as user device configuration Resource information, resource information include the index of carrier wave, portions of bandwidth index and the portions of bandwidth the corresponding base of index Band at least one of parameter and/or frequency domain resource position；In business transmission process, the transmission of resource information is indicated by SA Parameter sends the frequency domain money that parameter includes scheduling mode, the time-domain resource granularity of at least one DATA, at least one DATA At least one of source subcarrier spacing and the running time-frequency resource position of at least one DATA；The embodiment of the present invention realizes To technology medium-high frequency section frequency domain resource of newly eating dishes without rice or wine, across frequency range/cross-carrier scheduling and the flexibly support of numerology configuration etc..

As shown in figure 5, the embodiment of the invention provides a kind of user equipmenies, comprising:

Processor 51；And the memory 53 being connected by bus interface 52 with the processor 51, the memory 53 for storing the processor 51 used program and data when executing operation, when processor 51 calls and executes described When the program and data that are stored in memory 53, following process is executed.

Wherein, transceiver 54 is connect with bus interface 52, for sending and receiving data under the control of processor 51；

Specifically, it is performed the steps of when the processor 51 executes the computer program

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Scheduling mode；

The running time-frequency resource position of at least one DATA.

Wherein,

The scheduling mode includes: the first scheduling mode dispatched on same carrier wave or portions of bandwidth, and, across frequency range Or the second scheduling mode cross-carrier or across portions of bandwidth scheduling.

Wherein, the second indication information specifically includes:

Time interval between current SA and the first DATA；And

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Time interval between current SA and the first DATA；And

Time interval between current SA and other described DATA；And

Wherein,

Multiplex mode used by described is indicated by 1 bit indication information, wherein the 1 bit indication information value 0 When indicate TDM+FDM mode, FDM mode is indicated when value 1, alternatively, indicating TDM+FDM when the 1 bit indication information value 1 Mode indicates FDM mode when value 0.

It should be noted that bus architecture may include the bus and bridge of any number of interconnection in Fig. 5, specifically by The various circuits for the memory that the one or more processors and memory 53 that processor 51 represents represent link together.Bus Framework can also link together various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like, These are all it is known in the art, and therefore, it will not be further described herein.Bus interface provides interface.Transmitting-receiving Machine 54 can be multiple element, that is, includes transmitter and transceiver, provide for logical with various other devices over a transmission medium The unit of letter.For different terminals, user interface 55, which can also be, external the interface for needing equipment is inscribed, and connection is set Standby including but not limited to keypad, display, loudspeaker, microphone, control stick etc..Processor 41 be responsible for management bus architecture and Common processing, memory 43 can store the used data when executing operation of processor 41.

As shown in fig. 6, the embodiment of the invention provides a kind of user equipmenies 600, comprising:

Module 601 is obtained, for being retrieved as the resource letter for supporting business to send and receive of the configuration of user equipment 600 Breath, the resource information comprise at least one of the following:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Sending module 602, in business transmission process, the user equipment 600 to indicate that following send is joined by SA At least one of number:

Scheduling mode；

The running time-frequency resource position of at least one DATA.

Wherein, the user equipment 600 also passes through the following at least one parameter that sends of dispatch SA instruction: priority ginseng Number, resource reservation parameter, modulation and coding strategy MCS parameter and retransmission instruction parameter.

Wherein, the retransmission instruction parameter that the user equipment 600 is also indicated by dispatch SA, is used to indicate current Whether the corresponding data transmission of SA is re-transmission and retransmission index.

Wherein,

Wherein, the second indication information specifically includes:

Time interval between current SA and the first DATA；And

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Wherein, the third instruction information specifically includes:

Time interval between current SA and other described DATA；And

Time interval between current SA and the first DATA；And

Time interval between current SA and other described DATA；And

Wherein, multiplex mode used by the user equipment 600 is also indicated by SA, the multiplex mode are the side TDM Formula or FDM mode.

Wherein,

In the above embodiment of the invention, by be retrieved as user equipment 600 configuration support business send and connect The resource information of receipts, resource information include that the index of the index of carrier wave, the index of portions of bandwidth and the portions of bandwidth is corresponding Baseband parameter and/or at least one of frequency domain resource position；In business transmission process, resource information is indicated by SA Parameter is sent, the frequency that parameter includes scheduling mode, the time-domain resource granularity of at least one DATA, at least one DATA is sent At least one of domain resource subcarrier spacing and the running time-frequency resource position of at least one DATA；The embodiment of the present invention is real Show to technology medium-high frequency section frequency domain resource of newly eating dishes without rice or wine, across frequency range/cross-carrier scheduling and flexibly numerology configuration etc. It supports.

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 The scope of the present invention.

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 embodiment provided herein, it should be understood that disclosed device and method can pass through others Mode is realized.For example, the apparatus embodiments described above are merely exemplary, for example, the division of the unit, only A kind of logical function partition, there may be another division manner in actual implementation, for example, multiple units or components can combine or Person is desirably integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed is mutual Between coupling, direct-coupling or communication connection can be through some interfaces, the INDIRECT COUPLING or communication link of device or unit It connects, 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.Some or all of unit therein can be selected to realize the embodiment of the present invention according to the actual needs Purpose.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into 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, technical solution of the present invention 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 all or part of the steps of each embodiment method of the present invention.And it is preceding The storage medium stated includes: various Jie that can store program code such as USB flash disk, mobile hard disk, ROM, RAM, magnetic or disk Matter.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims

1. a kind of resource indicating method characterized by comprising

For the resource information that user device configuration can support business to send and receive, the resource information includes following at least one Kind:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；The index of portions of bandwidth；

The corresponding baseband parameter of the index of the portions of bandwidth and/or frequency domain resource position；Wherein, when the baseband parameter includes Domain resource granularity and frequency domain resource subcarrier spacing.

2. resource indicating method as described in claim 1, which is characterized in that the resource information further include: when supported Divide multiplexing TDM mode and/or frequency division multiplexing FDM mode.

3. resource indicating method as claimed in claim 1 or 2, which is characterized in that described to support industry for user device configuration The resource information that business sends and receives, comprising:

Network side equipment sends the configuration information of the resource information to the user equipment, alternatively, being by way of pre-configuration Resource information described in the user device configuration.

4. resource indicating method as claimed in claim 3, which is characterized in that the portions of bandwidth in the resource information Corresponding baseband parameter is indexed, is indicated by following at least one information:

When SA is configured with different baseband parameters from DATA, the time-domain resource granularity and/or frequency domain resource subcarrier of SA are indicated The information at interval.

5. resource indicating method as claimed in claim 3, which is characterized in that the portions of bandwidth in the resource information Corresponding frequency domain resource position is indexed, is indicated by following at least one information:

The quantity for the frequency domain unit that the frequency domain resource position includes, the frequency domain unit are Physical Resource Block PRB or subchannel； And

6. resource indicating method as claimed in claim 3, which is characterized in that

The index of the portions of bandwidth be according to frequency domain resource position, be followed successively by what each portions of bandwidth was numbered, or Person, the index of the portions of bandwidth are starting point and length according to frequency domain resource position, are each band by combined coding mode What wide portion was numbered.

7. resource indicating method as claimed in claim 2, which is characterized in that

The TDM mode and/or FDM mode are indicated by 1 bit indication information, wherein the 1 bit indication information value 0 When indicate TDM+FDM mode, FDM mode is indicated when value 1, alternatively, indicating TDM+FDM when the 1 bit indication information value 1 Mode indicates FDM mode when value 0.

8. a kind of network side equipment characterized by comprising transceiver, memory, processor and be stored on the memory And the computer program that can be run on the processor；It is characterized in that,

The processor performs the steps of when executing the computer program

The index of frequency range；

The frequency domain resource position of frequency range；

The index of carrier wave；

The frequency domain resource position of carrier wave；

The index of portions of bandwidth；

9. network side equipment as claimed in claim 8, which is characterized in that the resource information further include: the supported time-division It is multiplexed TDM mode and/or frequency division multiplexing FDM mode.

10. network side equipment as claimed in claim 8 or 9, which is characterized in that the processor executes the computer program When perform the steps of

11. network side equipment as claimed in claim 10, which is characterized in that the portions of bandwidth in the resource information Corresponding baseband parameter is indexed, is indicated by following at least one information:

12. network side equipment as claimed in claim 10, which is characterized in that the portions of bandwidth in the resource information Corresponding frequency domain resource position is indexed, is indicated by following at least one information:

13. network side equipment as claimed in claim 10, which is characterized in that

14. network side equipment as claimed in claim 9, which is characterized in that

15. a kind of network side equipment characterized by comprising

Configuration module, the resource information for that business can be supported to send and receive for user device configuration, the resource information packet Include following at least one:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

16. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program quilt It is realized when processor executes as described in any one of claims 1 to 7 the step of resource indicating method.

17. a kind of resource indicating method characterized by comprising

Be retrieved as the resource information for supporting business to send and receive of user device configuration, the resource information include with down toward Few one kind:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The corresponding baseband parameter of the index of the portions of bandwidth and/or frequency domain resource position, wherein when the baseband parameter includes Domain resource granularity and frequency domain resource subcarrier spacing；

Scheduling mode；

The running time-frequency resource position of at least one DATA.

18. resource indicating method as claimed in claim 17, which is characterized in that the resource information further include: supported Time division multiplexing tdm and/or frequency division multiplexing FDM multiplex mode.

19. resource indicating method as claimed in claim 17, which is characterized in that the user equipment also passes through dispatch SA The following at least one transmission parameter of instruction: priority parameters, resource reservation parameter, modulation and coding strategy MCS parameter and re-transmission Indicate parameter.

20. resource indicating method as claimed in claim 17, which is characterized in that the user equipment also passes through dispatch SA The retransmission instruction parameter of instruction, is used to indicate whether the corresponding data transmission of current SA is re-transmission and retransmission index.

21. resource indicating method as claimed in claim 17, which is characterized in that

The scheduling mode includes: the first scheduling mode dispatched on same carrier wave or portions of bandwidth, and, across frequency range or across Carrier wave or the second scheduling mode dispatched across portions of bandwidth.

22. resource indicating method as claimed in claim 21, which is characterized in that

The scheduling mode be first scheduling mode when, the running time-frequency resource position of at least one DATA, by with Lower at least one information is indicated: the first instruction information, second indication information and third instruction information；Wherein,

Described first indicates to believe that the described 4th indicates information for described in extremely including the 4th instruction information and/or the 5th instruction information The index of portions of bandwidth where a few DATA, the 5th instruction information include the time-domain resource granularity of SA, DATA when Domain resource granularity, at least one of frequency domain resource subcarrier spacing and the frequency domain resource subcarrier spacing of DATA of SA；

The running time-frequency resource position that the third instruction information is other DATA in current transmission block TB in addition to the first DATA.

23. resource indicating method as claimed in claim 22, which is characterized in that

The second indication information specifically includes:

Time interval between current SA and the first DATA；And

The quantity for the frequency domain unit that the index and the first DATA of the starting frequency domain unit of first DATA include, institute Stating frequency domain unit is Physical Resource Block PRB or subchannel, and the index of the starting frequency domain unit is that starting frequency domain unit is being worked as Index on preceding carrier wave or current bandwidth part.

24. resource indicating method as claimed in claim 22, which is characterized in that

The third instruction information specifically includes:

Time interval between current SA and other described DATA；And

The quantity for the frequency domain unit that the index of the starting frequency domain unit of other DATA and other described DATA include, institute Stating frequency domain unit is Physical Resource Block PRB or subchannel, and the index of the starting frequency domain unit is that starting frequency domain unit is being worked as Index on preceding carrier wave or current bandwidth part.

25. resource indicating method as claimed in claim 22, which is characterized in that

The third instruction information specifically includes:

Time interval between current SA and other described DATA；And

The difference of the index and the index of the starting frequency domain unit of the first DATA of the starting frequency domain unit of other DATA, The frequency domain unit is Physical Resource Block PRB or subchannel.

26. the resource indicating method as described in claim 24 or 25, which is characterized in that

When other described DATA have multiple, for other each described DATA, information, instruction are successively indicated using the third The running time-frequency resource position of other DATA is referred to alternatively, indicating information to all or part of third using combined coding mode Show the running time-frequency resource position of other DATA.

27. resource indicating method as claimed in claim 21, which is characterized in that

The scheduling mode be second scheduling mode when, the running time-frequency resource position of at least one DATA, by with Lower at least one information is indicated: the first instruction information, second indication information and third instruction information；Wherein,

28. resource indicating method as claimed in claim 27, which is characterized in that

The second indication information specifically includes following at least one:

The frequency domain resource position of the portions of bandwidth of the index or place of portions of bandwidth where the running time-frequency resource of first DATA It sets；

Time interval between current SA and the first DATA；And

29. resource indicating method as claimed in claim 27, which is characterized in that

The third instruction information comprises at least one of the following:

The frequency domain resource position of the portions of bandwidth of the index or place of portions of bandwidth where the running time-frequency resource of other DATA It sets；

Time interval between current SA and other described DATA；And

30. resource indicating method as claimed in claim 27, which is characterized in that

The third instruction information comprises at least one of the following:

Time interval between current SA and other described DATA；And

31. the resource indicating method as described in claim 29 or 30, which is characterized in that

32. the resource indicating method as described in any one of claim 23 to 25,28 to 30, which is characterized in that with current SA Basic unit with the smaller of time-domain resource granularity in DATA as the time interval, indicates the time-domain resource of current SA The difference of the time-domain resource initial time of initial time and DATA；

Wherein, in initial time of the time-domain resource initial time of DATA earlier than current SA time-domain resource, the time interval It further include having the positive and negative instruction information for indicating the difference；

Current SA with time-domain resource granularity is identical in DATA when, the time interval value be 0 indicate current SA and DATA It is to be sent by FDM mode.

33. resource indicating method as claimed in claim 18, which is characterized in that the user equipment is also adopted by SA instruction Multiplex mode, the multiplex mode are TDM mode and/or FDM mode.

34. resource indicating method as claimed in claim 33, which is characterized in that

Multiplex mode used by described is indicated by 1 bit indication information, wherein table when the 1 bit indication information value 0 Show TDM+FDM mode, when value 1 indicates FDM mode, alternatively, indicating the side TDM+FDM when the 1 bit indication information value 1 Formula indicates FDM mode when value 0.

35. a kind of user equipment, comprising: transceiver, memory, processor and storage can transport on a memory and on a processor Capable computer program, which is characterized in that the processor performs the steps of when executing the computer program

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Scheduling mode；

The running time-frequency resource position of at least one DATA.

36. user equipment as claimed in claim 35, which is characterized in that the resource information further include: the supported time-division It is multiplexed TDM and/or frequency division multiplexing FDM multiplex mode.

37. user equipment as claimed in claim 35, which is characterized in that the user equipment also passes through dispatch SA and indicates Following at least one transmission parameter: priority parameters, resource reservation parameter, modulation and coding strategy MCS parameter and retransmission instruction Parameter.

38. user equipment as claimed in claim 35, which is characterized in that the user equipment also passes through dispatch SA and indicates Retransmission instruction parameter, be used to indicate whether current SA corresponding data transmission is re-transmission and retransmission index.

39. user equipment as claimed in claim 35, which is characterized in that

40. user equipment as claimed in claim 39, which is characterized in that

41. user equipment as claimed in claim 40, which is characterized in that

The second indication information specifically includes:

Time interval between current SA and the first DATA；And

42. user equipment as claimed in claim 40, which is characterized in that

The third instruction information specifically includes:

Time interval between current SA and other described DATA；And

43. user equipment as claimed in claim 40, which is characterized in that

The third instruction information specifically includes:

Time interval between current SA and other described DATA；And

44. the user equipment as described in claim 42 or 43, which is characterized in that

45. user equipment as claimed in claim 39, which is characterized in that

46. user equipment as claimed in claim 45, which is characterized in that

The second indication information comprises at least one of the following:

The index of portions of bandwidth where the running time-frequency resource of first DATA or the frequency domain resource position of place portions of bandwidth；

Time interval between current SA and the first DATA；And

47. user equipment as claimed in claim 45, which is characterized in that

The third instruction information comprises at least one of the following:

The index of portions of bandwidth where the running time-frequency resource of other DATA or the frequency domain resource position of place portions of bandwidth；

Time interval between current SA and other described DATA；And

48. user equipment as claimed in claim 45, which is characterized in that

The third instruction information comprises at least one of the following:

The index of carrier wave where the running time-frequency resource of other DATA or the frequency domain resource position of place Carrier section；

Time interval between current SA and other described DATA；And

49. the user equipment as described in claim 47 or 48, which is characterized in that

50. the user equipment as described in any one of claim 41 to 43,46 to 48, which is characterized in that with current SA with Basic unit of the smaller of time-domain resource granularity as the time interval in DATA indicates rising for the time-domain resource of current SA The difference of the time-domain resource initial time of moment beginning and DATA；

51. user equipment as claimed in claim 40, which is characterized in that used by the user equipment is also indicated by SA Multiplex mode, the multiplex mode are TDM mode and/or FDM mode.

52. user equipment as claimed in claim 51, which is characterized in that

Multiplex mode used by described is indicated by 1 bit indication information, wherein table when the 1 bit indication information value 0 Show TDM+FMD mode, when value 1 indicates FDM mode, alternatively, indicating the side TDM+FDM when the 1 bit indication information value 1 Formula indicates FDM mode when value 0.

53. a kind of user equipment characterized by comprising

Module is obtained, for being retrieved as the resource information for supporting business to send and receive of user device configuration, the resource Information comprises at least one of the following:

The index of frequency range；

The frequency domain resource position of the frequency range；

The index of carrier wave；

The frequency domain resource position of the carrier wave；

The index of portions of bandwidth；

Sending module, in business transmission process, the user equipment to indicate following send in parameter at least by SA It is a kind of:

Scheduling mode；

The running time-frequency resource position of at least one DATA.

54. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program quilt It is realized when processor executes as described in any one of claim 17 to 34 the step of resource indicating method.