CN110138504A - A kind of resource allocation method, resource selection method, message receiving method and equipment - Google Patents

A kind of resource allocation method, resource selection method, message receiving method and equipment Download PDF

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Publication number
CN110138504A
CN110138504A CN201810135139.5A CN201810135139A CN110138504A CN 110138504 A CN110138504 A CN 110138504A CN 201810135139 A CN201810135139 A CN 201810135139A CN 110138504 A CN110138504 A CN 110138504A
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China
Prior art keywords
resource
baseband parameter
data
user equipment
baseband
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CN201810135139.5A
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Chinese (zh)
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CN110138504B (en
Inventor
李晨鑫
彭莹
赵锐
赵丽
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Datang Mobile Communications Equipment Co Ltd
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Telecommunications Science and Technology Research Institute Co Ltd
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Priority to CN201810135139.5A priority Critical patent/CN110138504B/en
Priority to PCT/CN2019/073675 priority patent/WO2019154186A1/en
Publication of CN110138504A publication Critical patent/CN110138504A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/0001Systems modifying transmission characteristics according to link quality, e.g. power backoff
    • H04L1/0023Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the signalling
    • H04L1/0027Scheduling of signalling, e.g. occurrence thereof
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0078Timing of allocation
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • H04W72/044Wireless resource allocation based on the type of the allocated resource
    • H04W72/0446Resources in time domain, e.g. slots or frames
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • H04W72/044Wireless resource allocation based on the type of the allocated resource
    • H04W72/0453Resources in frequency domain, e.g. a carrier in FDMA

Abstract

The embodiment of the invention provides a kind of resource allocation method, resource selection method, message receiving method and equipment, wherein the resource allocation method includes: the second baseband parameter of the first baseband parameter and data DATA for user device configuration dispatch SA, wherein, first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, and the type of the first baseband parameter is less equal than the type of the second baseband parameter.The target that the embodiment of the present invention, which can achieve, to be reduced time delay, improve reliability and meet high data rate demand, while solving the problems, such as that existing baseband parameter configuration causes SA blind examination Capability Requirement to be promoted and can not decode different baseband parameters with user equipment.

Description

A kind of resource allocation method, resource selection method, message receiving method and equipment
Technical field
The present invention relates to mobile communication technology fields, and in particular to a kind of resource allocation method, resource selection method, information Method of reseptance and equipment.
Background technique
In existing LTE (Long Term Evolution, long term evolution)-V2X (Vehicle-to-Everything, vehicle Networking) in, time-domain resource granularity is subframe, and length 1ms, the subcarrier spacing of frequency domain resource is 15kHz;Existing LTE V2X The minimum-time lag of support is 20ms.
In LTE-V2X, the Basic Design of D2D (Device to Device, device-to-device) frame structure, TTI are continued to use (transmission time interval) length is 1ms, and a TTI includes two time slots, and first symbol of subframe is used for bearer service data, Receiving end carries out AGC (Automatic Gain Control, automatic growth control) adjustment on the symbol.Subframe last A symbol is used as GP (Guard Period, protection interval), and GP carries out RE (Resource using the method for puncture Element, resource element) mapping.
In PC5V2X signal, dedicated AGC measured zone is not introduced, and wherein the measurement of AGC passes through first of subframe Symbol carries out, and such way has following features: not introducing additional mechanism in a standard, is one and realizes the method solved; The resource overhead of fixed AGC is not needed, an OFDM (Orthogonal is only lost when D2D generating state is converted Frequency Division Multiplexing, orthogonal frequency division multiplexing) symbol.
Due to the higher relative moving speed of car networking, carrier frequency can arrive 6GHz, so the correlation time for receiving signal shortens, The pilot tone time domain interval of channel needs to shorten.Further, additional frequency shift (FS) is introduced in synchronizing process, therefore, Under each subframe of PC5V2X, four frequency pilot signs are needed, as shown in figure 1 PSCCH (the Pysical Sidelink of PC5V2X Control Channel, physical bypass control channel) and PSSCH (Pysical Sidelink Share Channel, physics Bypass shared channel) shown in the frame structure of channel, specific frequency pilot sign DMRS (Demodulation Reference Signal, demodulation reference mark) position be (2,5,8,11).
In PC5V2X system, since covering radius target is only 300 meters, LTE routine CP (Cyclic is supported Prefix, cyclic prefix) length, i.e. routine CP length, system covering can be met and required.
For PSBCH (Pysical Sidelink Broadcast Channel, physical bypass broadcast channel), The frame structure of PSBCH channel occupies as (4,6,9), the frame knot as shown in Fig. 2, the DMRS number of frequency pilot sign occupied is 3 It further include PSSS (Primary Sidelink Synchronization Signal, main bypass synchronization signal) and SSSS in structure (Secondary Sidelink Synchronization Signal, auxiliary bypass synchronization signal).
It wherein, include altogether 3 class physical channels in PC5V2X system, PSSCH channel is the channel for carrying data, Coding, rate-matched, the physical layer process mechanism such as intertexture are identical as D2D;PSCCH is the channel for carrying control information, SA (Scheduling Assignment, dispatch), coding, rate-matched, the physical layer process mechanism such as intertexture are identical as D2D; PSBCH channel is used for synchronously control and adjustment, increases 8 bits as reserving compared to D2D, leads to avoid head and the tail symbol is destroyed The decoding error problem of cause.Wherein the generation of PSSS is identical as D2D, and SSSS uses the SS sequence of LTE subframe 5.
The configuration of the resource pool of SA and DATA (data) includes two kinds of adjacent band and non-adjacent band in the prior art.SA be associated with DATA Sent in the adjacent band of the same subframe, SA be associated with DATA resource and sent in same subframe, and the two is adjacent on frequency domain. SA be associated with DATA and sent in the non-adjacent band of the same subframe, SA and DATA use separate physical resource, and the two is on frequency domain Not overlapping, from user level, SA is also frequency division multiplexing with DATA is associated with, and the DATA resource that SA is indicated with it is in same son Frame.
In the configuration of resource pool, respectively the transmission mode in adjacent band and non-adjacent band defines the method that resource pool configures, It is wherein as shown in Figure 3a for the resource pool configuration method that defines of transmission mode in adjacent band, for the money that defines of transmission mode in non-adjacent band Source pond configuration method is as shown in Figure 3b.
Wherein, include: that can not support minimum 1ms or less delay requirement the shortcomings that existing LTE-V2X, do not support single carrier The message transmission rate of every sub-frame transmission 31704bit or more, the correlated performance in LTE-V2X are unable to satisfy low time delay, higher The demand of reliability and message transmission rate.
Meanwhile in LTE-V2X, the time-domain resource and frequency domain resource of SA and DATA use identical granularity.But if branch It has held different numerology (time-domain resource granularity and frequency domain resource subcarrier spacing), reception UE (User Equipment, User equipment) it needs to carry out blind examination to SA based on different numerology, it will it is obviously improved UE and the blind examination ability of SA is wanted It asks.
On the other hand, for backwards compatibility the considerations of, more in support if NR (New Radio, the newly eat dishes without rice or wine) technology of introducing The NRV2X UE of kind of numerology and only the Release14V2X UE of support 1msTTI length are the shared resource pond the case where Under, resource exclusion can not be carried out since Release14 can not decode the SA of other numerology, to increase resource collision Probability.
Summary of the invention
The embodiment of the present invention provides a kind of resource allocation method, resource selection method, message receiving method and equipment, with solution Certainly existing LTE-V2X is unable to satisfy the demand of low time delay, high reliability and message transmission rate, and flexible due to introducing Baseband parameter configuration, which causes SA blind examination Capability Requirement to be obviously improved, can not decode the SA of different baseband parameters with UE to can not be into The problem of row resource excludes.
In order to solve the above technical problems, the embodiment of the invention provides a kind of resource allocation methods, comprising:
For the first baseband parameter of user device configuration dispatch SA and the second baseband parameter of data DATA, In, the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, and first The type of baseband parameter is less equal than the type of the second baseband parameter.
Wherein, the first baseband parameter of the SA is configured, comprising:
Network side equipment sends the configuration information including at least one first baseband parameter to the user equipment, or Person, by way of pre-configuration, at least one first baseband parameter of the user device configuration.
Wherein, the second baseband parameter of the DATA is configured, comprising:
Network side equipment sends the configuration information including at least one second baseband parameter to the user equipment, or Person, by way of pre-configuration, at least one second baseband parameter of the user device configuration.
Wherein, the time-domain resource granularity in first baseband parameter and frequency domain resource subcarrier spacing correspond;With/ Or, the time-domain resource granularity and frequency domain resource subcarrier spacing in second baseband parameter correspond.
Wherein, first baseband parameter includes:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported Subcarrier spacing;And/or
Time domain length is frequency domain resource corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Carrier wave interval.
Wherein, described for the first baseband parameter of user device configuration dispatch SA and the second base band of data DATA Parameter, further includes:
Configure the corresponding relationship between the first baseband parameter and the second baseband parameter.
Wherein, in the corresponding relationship, any first baseband parameter is corresponding with all second baseband parameters, alternatively, Any first baseband parameter is only corresponding with the second baseband parameter of part.
Wherein, when any first baseband parameter is only corresponding with the second baseband parameter of part, according in baseband parameter The sequencing of time-domain resource granularity from small to large, is ranked up the first baseband parameter and the second baseband parameter respectively;Then exist In the corresponding relationship, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to sort rearward first Second baseband parameter corresponding to baseband parameter.
The embodiment of the present invention also provides a kind of resource selection method, comprising:
The first object baseband parameter of user equipment selection scheduling signaling SA and the second target base band ginseng of data DATA Number, the first object baseband parameter are one of the first baseband parameter of preconfigured SA, the second target base band Parameter is one of the second baseband parameter of preconfigured DATA, and the first baseband parameter and the second baseband parameter wrap respectively Time-domain resource granularity and frequency domain resource subcarrier spacing are included, the type of the first baseband parameter is less equal than the second baseband parameter Type;
The user equipment carries out SA transmission according to the first object baseband parameter and the second target baseband parameter, selection Transmission with frequency range, carrier wave, portions of bandwidth Bandwidth part and the resource pool for carrying out DATA transmission, and then selection SA provides The transmission resource in source and DATA.
Wherein, the first object baseband parameter of SA and the second target baseband parameter of DATA are selected, comprising:
The first object baseband parameter of SA and the second target baseband parameter of DATA are selected respectively;
Alternatively, the first object baseband parameter of selection SA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship determines the corresponding second target baseband parameter of the first object baseband parameter;
Alternatively, the second target baseband parameter of selection DATA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship, determine corresponding first baseband parameter of the second target baseband parameter, as the first object base band join Number.
Wherein, the first object baseband parameter of SA is selected, comprising:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter condition group Corresponding first baseband parameter is closed, as the first object baseband parameter, wherein the baseband parameter conditional combination includes industry Business delay requirement, message transmission rate demand, reliability requirement, service quality QoS demand, the corresponding vehicle of the user equipment At least one of speed condition;
Alternatively, the synchronization signal of the target UE detected in the user equipment synchronizing process is obtained, this is same The time-domain resource granularity and frequency domain resource subcarrier spacing for walking signal, as the first object baseband parameter.
Wherein, the second target baseband parameter of DATA is selected, comprising:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter condition group Corresponding second baseband parameter is closed, as the second target baseband parameter, wherein the baseband parameter participates in conditional combination packet Include service delay demand, message transmission rate demand, reliability requirement, QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, according to the synchronization signal of the target UE detected in the user equipment synchronizing process, this is same The time-domain resource granularity and frequency domain resource subcarrier spacing for walking signal, as the second target baseband parameter.
Wherein, the target UE is to carry out the user equipment of unicast communication with this user equipment, set with this user The standby group membership's user equipment for carrying out cast communication or the broadcasting user equipment for sending broadcast message.
Wherein, the transmission resource of the selection SA, specifically includes:
According to the first object baseband parameter, selection carry out the frequency range of SA transmission, carrier wave, bandwidth part and Resource pool;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the first candidate resource set is determined;
Not available candidate resource is excluded from the first candidate resource set;And according to being received in effective historical juncture To the content that is decoded of SA, carry out the measurement of PSCCH channel, or to carry out the SA received in effective historical juncture corresponding PSSCH channel measurement, and using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel;Based on described Whether the measurement result of the decoded content of SA and corresponding PSCCH channel, the corresponding candidate resource of SA received described in judgement may be used It is considered as occupying, and exclusion is considered as the candidate resource occupied from the first candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the first candidate resource collection It selects energy in conjunction or power sorts the optional resource collection of forward first;
The selection that SA sends resource is carried out in the described first optional resource collection, obtains the selection knot that SA sends resource Fruit.
Wherein, the not available candidate resource includes at least a kind of in following two categories: since user equipment is sent out Give and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to pre- Meter sends the candidate resource that situation exceeds user equipment transmitting capacity.Wherein, if the SA selected sends resource and not can be carried out hair It send, the method also includes:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
Wherein, the transmission resource of the selection DATA, specifically includes:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, It determines that the SA sends the corresponding DATA transmission resource of selection result of resource, the selection result of resource is sent as DATA.
Wherein, the transmission resource of the selection DATA, specifically includes:
According to the second target baseband parameter, selection carry out the frequency range of DATA transmission, carrier wave, bandwidth part with And resource pool;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the second candidate resource set is determined;
Not available candidate resource is excluded from the second candidate resource set;And according to being received in effective historical juncture To the content that is decoded of SA, the measurement of PSSCH channel is carried out, based on the decoded content of the SA and corresponding PSSCH letter Whether the measurement result in road, the corresponding candidate resource of DATA received described in judgement can be considered as occupying, and from described second The candidate resource for being considered as occupying is excluded in candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the second candidate resource collection It selects energy in conjunction or power sorts the optional resource collection of forward second;
The selection that DATA sends resource is carried out in the described second optional resource collection, obtains the selection that DATA sends resource As a result.
Wherein, the not available candidate resource includes at least a kind of in following two categories: since user equipment is sent out Give and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to pre- Meter sends the candidate resource that situation exceeds user equipment transmitting capacity.
Wherein, if the DATA selected sends resource and not can be carried out transmission, the method also includes:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send money Source.
Wherein, the transmission resource of the selection SA, specifically includes:
The selection result of resource is sent according to DATA and DATA sends resource and SA sends corresponding between resource and closes System determines that the DATA sends the corresponding SA transmission resource of selection result of resource, the selection result of resource is sent as SA.
Wherein, in the time domain, the transmission resource of the SA sends resource prior to the DATA, alternatively, the transmission of the SA The initial time of resource is identical as the DATA transmission initial time of resource.
The embodiment of the present invention also provides a kind of message receiving method, comprising:
The baseband parameter of dispatch SA that user equipment is configured according to network side or pre-configuration configures, when corresponding SA blind examination is carried out on frequency resource location, and decodes the instruction information for obtaining SA;
The instruction information for the SA that the user equipment is obtained according to decoding carries out the reception of data DATA;
Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the user equipment The type of the baseband parameter of the SA of support, the type of the baseband parameter less equal than the DATA of user equipment support.
Wherein, the baseband parameter according to network side configuration or pre-configuration dispatch SA configures, corresponding SA blind examination is carried out on running time-frequency resource position, comprising:
The configuration of the baseband parameter of all SA according to acquired in the user equipment, on corresponding running time-frequency resource position Carry out SA blind examination;Alternatively,
By the time-domain resource granularity of the synchronization signal of the target UE detected in the user equipment synchronizing process With frequency domain resource subcarrier spacing, as the baseband parameter of the SA, and SA blind examination is carried out on corresponding running time-frequency resource position.
Wherein, the instruction information of the SA obtained according to decoding, carries out the reception of data DATA, comprising:
In the time-domain resource granularity and/or frequency domain resource subcarrier that the instruction information for the SA that the decoding obtains includes DATA Interval, when further including the running time-frequency resource position of DATA, according to the instruction information of the SA, carries out the reception of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction of the SA The time-domain resource granularity of the synchronization signal of the target UE detected in information and the user equipment synchronizing process and Frequency domain resource subcarrier spacing carries out the reception of DATA.
The embodiment of the present invention also provides a kind of network side equipment, comprising: transceiver, memory, processor and is stored in institute State the computer program that can be run on memory and on the processor;The processor, for reading the journey in memory Sequence executes following process:
For the first baseband parameter of user device configuration dispatch SA and the second baseband parameter of data DATA, In, the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, and first The type of baseband parameter is less equal than the type of the second baseband parameter.
Wherein, the transceiver includes at least one first baseband parameter for sending to the user equipment Configuration information or the processor are used for by way of pre-configuration, for the user device configuration at least one described first Baseband parameter.
Wherein, the transceiver includes at least one second baseband parameter for sending to the user equipment Configuration information or the processor are used for by way of pre-configuration, for the user device configuration at least one described second Baseband parameter.
Wherein, the time-domain resource granularity in first baseband parameter and frequency domain resource subcarrier spacing correspond;With/ Or, the time-domain resource granularity and frequency domain resource subcarrier spacing in second baseband parameter correspond.
Wherein, first baseband parameter includes:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported Subcarrier spacing;And/or
Time domain length is frequency domain resource corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Carrier wave interval.
Wherein, the processor is also used to: the corresponding relationship between the first baseband parameter of configuration and the second baseband parameter.
Wherein, in the corresponding relationship, any first baseband parameter is corresponding with all second baseband parameters, alternatively, Any first baseband parameter is only corresponding with the second baseband parameter of part.
Wherein, when any first baseband parameter is only corresponding with the second baseband parameter of part, according in baseband parameter The sequencing of time-domain resource granularity from small to large, is ranked up the first baseband parameter and the second baseband parameter respectively;Then exist In the corresponding relationship, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to sort rearward first Second baseband parameter corresponding to baseband parameter.
The embodiment of the present invention also provides a kind of network side equipment, comprising:
Configuration module, second for the first baseband parameter and data DATA for user device configuration dispatch SA Baseband parameter, wherein the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier Interval, and the type of the first baseband parameter is less equal than the type of the second baseband parameter.
The embodiment of the present invention also provides a kind of user equipment, comprising: transceiver, memory, processor and is stored in described On memory and the computer program that can run on the processor;The processor, for reading the program in memory, Execute following process:
The first object baseband parameter of selection scheduling signaling SA and the second target baseband parameter of data DATA, described One target baseband parameter is one of the first baseband parameter of preconfigured SA, and the second target baseband parameter is preparatory One of second baseband parameter of the DATA of configuration, and the first baseband parameter and the second baseband parameter respectively include time-domain resource Granularity and frequency domain resource subcarrier spacing, the type of the first baseband parameter are less equal than the type of the second baseband parameter;
According to the first object baseband parameter and the second target baseband parameter, selection carries out SA transmission and carries out DATA hair Frequency range, carrier wave, portions of bandwidth Bandwidth part and the resource pool sent, and then select the transmission resource of SA and the hair of DATA Send resource.
Wherein, the processor is also used to:
The first object baseband parameter of SA and the second target baseband parameter of DATA are selected respectively;
Alternatively, the first object baseband parameter of selection SA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship determines the corresponding second target baseband parameter of the first object baseband parameter;
Alternatively, the second target baseband parameter of selection DATA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship, determine corresponding first baseband parameter of the second target baseband parameter, as the first object base band join Number.
Wherein, the processor is also used to:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter condition group Corresponding first baseband parameter is closed, as the first object baseband parameter, wherein the baseband parameter conditional combination includes industry Business delay requirement, message transmission rate demand, reliability requirement, service quality QoS demand, the corresponding vehicle of the user equipment At least one of speed condition;
Alternatively, the synchronization signal of the target UE detected in the user equipment synchronizing process is obtained, this is same The time-domain resource granularity and frequency domain resource subcarrier spacing for walking signal, as the first object baseband parameter.
Wherein, the processor is also used to:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter condition group Corresponding second baseband parameter is closed, as the second target baseband parameter, wherein the baseband parameter participates in conditional combination packet Include service delay demand, message transmission rate demand, reliability requirement, QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, according to the synchronization signal of the target UE detected in the user equipment synchronizing process, this is same The time-domain resource granularity and frequency domain resource subcarrier spacing for walking signal, as the second target baseband parameter.
Wherein, the target UE is to carry out the user equipment of unicast communication with this user equipment, set with this user The standby group membership's user equipment for carrying out cast communication or the broadcasting user equipment for sending broadcast message.
Wherein, the processor is also used to:
According to the first object baseband parameter, selection carry out the frequency range of SA transmission, carrier wave, bandwidth part and Resource pool;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the first candidate resource set is determined;
Not available candidate resource is excluded from the first candidate resource set;And according to being received in effective historical juncture To the content that is decoded of SA, carry out the measurement of PSCCH channel, or to carry out the SA received in effective historical juncture corresponding PSSCH channel measurement, and using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel;Based on described Whether the measurement result of the decoded content of SA and corresponding PSCCH channel, the corresponding candidate resource of SA received described in judgement may be used It is considered as occupying, and exclusion is considered as the candidate resource occupied from the first candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the first candidate resource collection It selects energy in conjunction or power sorts the optional resource collection of forward first;
The selection that SA sends resource is carried out in the described first optional resource collection, obtains the selection knot that SA sends resource Fruit.
Wherein, the not available candidate resource includes at least a kind of in following two categories: since user equipment is sent out Give and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to pre- Meter sends the candidate resource that situation exceeds user equipment transmitting capacity.Wherein, if the SA selected sends resource and not can be carried out hair It send, the processor is also used to:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
Wherein, the processor is also used to:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, It determines that the SA sends the corresponding DATA transmission resource of selection result of resource, the selection result of resource is sent as DATA.
Wherein, the processor is also used to:
According to the second target baseband parameter, selection carry out the frequency range of DATA transmission, carrier wave, bandwidth part with And resource pool;According to frequency range, carrier wave, bandwidth part and the resource pool selected, the second candidate resource set is determined;
Not available candidate resource is excluded from the second candidate resource set;And according to being received in effective historical juncture To the content that is decoded of SA, the measurement of PSSCH channel is carried out, based on the decoded content of the SA and corresponding PSSCH letter Whether the measurement result in road, the corresponding candidate resource of DATA received described in judgement can be considered as occupying, and from described second The candidate resource for being considered as occupying is excluded in candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the second candidate resource collection It selects energy in conjunction or power sorts the optional resource collection of forward second;
The selection that DATA sends resource is carried out in the described second optional resource collection, obtains the selection that DATA sends resource As a result.
Wherein, the not available candidate resource includes at least a kind of in following two categories: since user equipment is sent out Give and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to pre- Meter sends the candidate resource that situation exceeds user equipment transmitting capacity.
Wherein, if the DATA selected sends resource and not can be carried out transmission, the processor is also used to:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send money Source.
Wherein, the processor is also used to:
The selection result of resource is sent according to DATA and DATA sends resource and SA sends corresponding between resource and closes System determines that the DATA sends the corresponding SA transmission resource of selection result of resource, the selection result of resource is sent as SA.
Wherein, in the time domain, the transmission resource of the SA sends resource prior to the DATA, alternatively, the transmission of the SA The initial time of resource is identical as the DATA transmission initial time of resource.
The embodiment of the present invention also provides a kind of user equipment, comprising:
First choice module, for the first object baseband parameter of selection scheduling signaling SA and the second mesh of data DATA Mark baseband parameter, the first object baseband parameter be preconfigured SA one of the first baseband parameter, described second Target baseband parameter is one of the second baseband parameter of preconfigured DATA, and the first baseband parameter and the second base band are joined Number respectively includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the type of the first baseband parameter is less equal than the second base Type with parameter;
Second selecting module, for according to the first object baseband parameter and the second target baseband parameter, selection to be carried out SA sends and carries out frequency range, carrier wave, portions of bandwidth Bandwidth part and the resource pool of DATA transmission, and then selects SA's Send the transmission resource of resource and DATA.
The embodiment of the present invention also provides a kind of user equipment, comprising: transceiver, memory, processor and is stored in described On memory and the computer program that can run on the processor;The processor, for reading the program in memory, Execute following process:
According to the baseband parameter configuration of network side configuration or pre-configuration dispatch SA, in corresponding running time-frequency resource position It sets and carries out SA blind examination, and decode the instruction information for obtaining SA;
The transceiver is used for: according to the instruction information for the SA that decoding obtains, carrying out the reception of data DATA;
Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the user equipment The type of the baseband parameter of the SA of support, the type of the baseband parameter less equal than the DATA of user equipment support.
Wherein, the processor is also used to:
According to the configuration of the baseband parameter of acquired all SA, SA blind examination is carried out on corresponding running time-frequency resource position; Alternatively,
By time-domain resource granularity and frequency domain resource of the synchronization signal of the target UE detected in synchronizing process Carrier wave interval as the baseband parameter of the SA, and carries out SA blind examination on corresponding running time-frequency resource position.
Wherein, the transceiver is also used to:
In the time-domain resource granularity and/or frequency domain resource subcarrier that the instruction information for the SA that the decoding obtains includes DATA Interval, when further including the running time-frequency resource position of DATA, according to the instruction information of the SA, carries out the reception of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction of the SA The time-domain resource granularity of the synchronization signal of the target UE detected in information and the user equipment synchronizing process and Frequency domain resource subcarrier spacing carries out the reception of DATA.
The embodiment of the present invention also provides a kind of user equipment, comprising:
Processing module, the baseband parameter for dispatch SA configured according to network side or pre-configuration configures, in phase SA blind examination is carried out on the running time-frequency resource position answered, and decodes the instruction information for obtaining SA;
Receiving module, the instruction information of the SA for being obtained according to decoding carry out the reception of data DATA;
Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the user equipment The type of the baseband parameter of the SA of support, the type of the baseband parameter less equal than the DATA of user equipment support.
The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, the calculating Machine program realizes the step of above-mentioned resource allocation method when being executed by processor, or realizes above-mentioned resource selection method Step, or the step of realizing above-mentioned message receiving method.
Technical method beneficial effect achieved provided in an embodiment of the present invention includes at least:
In the embodiment of the present invention, the second of the first baseband parameter and DATA that network side equipment is user device configuration SA Baseband parameter, wherein the first baseband parameter and the second baseband parameter respectively include between time-domain resource granularity and frequency domain resource subcarrier Every, and the type of the first baseband parameter is less equal than the type of the second baseband parameter, so that user equipment is according to the first base band Parameter determines first object baseband parameter, determines the second target baseband parameter according to the second baseband parameter, and according to first The transmission resource and DATA of target baseband parameter and the second target baseband parameter selection SA send resource, when can achieve reduction Prolong, improve reliability and meet the target of the needs of more high data rate, while can solve flexible due to introducing Baseband parameter configuration, which causes SA blind examination Capability Requirement to be obviously improved, can not decode the SA of different baseband parameters with UE to can not be into The problem of row resource excludes.
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 the PSCCH channel of the PC5V2X of the prior art and the frame structure of PSSCH channel;
Fig. 2 is the frame structure of the PSBCH channel of the PC5V2X of the prior art;
Fig. 3 a and Fig. 3 b are the frequency domain indicating means that the resource pool of the prior art configures;
Fig. 4 is a kind of flow chart of resource allocation method provided in an embodiment of the present invention;
Fig. 5 is a kind of example of SA and the optional corresponding relationship of DATA in the embodiment of the present invention;
Fig. 6 is a kind of flow chart of resource selection method provided in an embodiment of the present invention;
Fig. 7 is a kind of flow chart of message receiving method provided in an embodiment of the present invention;
Fig. 8 is a kind of structural schematic diagram of network side equipment provided in an embodiment of the present invention;
Fig. 9 is another structural schematic diagram of network side equipment provided in an embodiment of the present invention.
Figure 10 is one of the structural schematic diagram of user equipment provided in an embodiment of the present invention;
Figure 11 is the second structural representation of user equipment provided in an embodiment of the present invention;
Figure 12 is one of the structural schematic diagram of another user equipment provided in an embodiment of the present invention;
Figure 13 is the second structural representation of another user equipment provided in an embodiment of the present invention.
Figure 14 existing resource selection mechanism schematic diagram.
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.
The embodiment of the present invention provides a kind of resource allocation method, is applied to network side equipment, as shown in Figure 4, comprising:
Step 401, for the first baseband parameter of user device configuration dispatch SA and the second base band of data DATA Parameter, wherein the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, And first baseband parameter type be less equal than the second baseband parameter type.
Network side equipment needs to be respectively configured the first baseband parameter of SA and the second base band ginseng of DATA for user equipment Number, and the first baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, when the second baseband parameter also includes Domain resource granularity and frequency domain resource subcarrier spacing.Here, the embodiment of the present invention is at least one the of user device configuration One baseband parameter and the second at least one baseband parameter.Wherein, the type of the first baseband parameter configured is less than or waits In the type of the second baseband parameter configured.Different types of baseband parameter has different time-domain resource granularity and/or frequency Domain resource subcarrier spacing.Specifically, the time-domain resource granularity of the second baseband parameter is supported to be not less than a kind of configuration, frequency domain resource Subcarrier spacing is supported to be not less than a kind of configuration.First baseband parameter time-domain resource granularity and subcarrier in frequency domain protection interval are matched Set the configuration quantity of not more than the second baseband parameter.
In embodiments of the present invention, the first baseband parameter for configuring the SA may include: network side equipment to the use Family equipment sends the configuration information including at least one first baseband parameter, alternatively, being the use by way of pre-configuration At least one first baseband parameter of family device configuration.
Network side equipment can pass through RRC (Radio Resource when carrying out the configuration of the first baseband parameter of SA Control, wireless heterogeneous networks) signaling to user equipment send include at least one first baseband parameter configuration information, by Configuration information carries out configuration process to user equipment based on the received, and then obtains the first baseband parameter of SA.Or this hair Bright embodiment can also be pre-configured at least one first baseband parameter by way of pre-configuration for user equipment.
In an embodiment of the present invention, the second baseband parameter for configuring the DATA includes: network side equipment to the use Family equipment sends the configuration information including at least one second baseband parameter, alternatively, being the use by way of pre-configuration At least one second baseband parameter of family device configuration.
Network side equipment, can be by RRC signaling to user equipment when carrying out the configuration of the second baseband parameter of DATA The configuration information including at least one second baseband parameter is sent, configuration information is matched based on the received by user equipment Process is set, and then obtains the second baseband parameter of DATA.Or the embodiment of the present invention can also be user by way of pre-configuration Equipment is pre-configured at least one second baseband parameter.
Time-domain resource granularity and frequency domain resource subcarrier spacing one in the embodiment of the present invention, in first baseband parameter One is corresponding;And/or time-domain resource granularity and frequency domain resource subcarrier spacing one-to-one correspondence in second baseband parameter.
Time-domain resource granularity included in first baseband parameter and frequency domain resource subcarrier spacing correspond, the two it Between corresponding relationship can be the product of time-domain resource granularity and frequency domain resource subcarrier spacing be fixed value, such as when time domain provides Source granularity length is 1ms, and the subcarrier spacing of frequency domain resource is 15kHz, when time domain resource granularity length is 0.5ms, frequency domain money The subcarrier spacing in source is 30kHz, and so on.It is corresponded according to time-domain resource granularity and frequency domain resource subcarrier spacing, Frequency domain resource subcarrier spacing can be calculated after obtaining time-domain resource granularity;Or between obtaining frequency domain resource subcarrier Time-domain resource granularity can be calculated after.
As a kind of specific implementation, in an embodiment of the present invention, first baseband parameter may include:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported Subcarrier spacing;And/or
Time domain length is frequency domain resource corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Carrier wave interval.
The first baseband parameter that network side equipment is configured may include the shortest time-domain resource granularity that system is supported, with And frequency domain resource subcarrier spacing corresponding to the shortest time-domain resource granularity;Alternatively, when the first baseband parameter may include Length of field is frequency domain resource subcarrier spacing corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms; Alternatively, the first baseband parameter is including the shortest time-domain resource granularity and the shortest time-domain resource granularity of system support It further include the time-domain resource granularity and the 1ms that time domain length is 1ms while corresponding frequency domain resource subcarrier spacing Time-domain resource granularity corresponding to frequency domain resource subcarrier spacing.
In an embodiment of the present invention, first baseband parameter and data for user device configuration dispatch SA The second baseband parameter of DATA can also include:
Configure the corresponding relationship between the first baseband parameter and the second baseband parameter.
Network side equipment is configuring the first baseband parameter and when the second baseband parameter, can also configure the first baseband parameter and Corresponding relationship between second baseband parameter.When configuring the corresponding relationship of the first baseband parameter and the second baseband parameter, specifically To configure the time-domain resource granularity of the first baseband parameter and the time-domain resource of frequency domain resource subcarrier spacing and the second baseband parameter The corresponding relationship of granularity and frequency domain resource subcarrier spacing.By configuring pair between the first baseband parameter and the second baseband parameter It should be related to, the second baseband parameter can be determined according to the first baseband parameter, or determine first according to the second baseband parameter Baseband parameter.
Wherein, after configuring the corresponding relationship between the first baseband parameter and the second baseband parameter, in the corresponding pass In system, any first baseband parameter is corresponding with all second baseband parameters, alternatively, any first baseband parameter only with part Second baseband parameter is corresponding.
For any first baseband parameter situation corresponding with all second baseband parameters, at this time any one first The time-domain resource granularity of baseband parameter and the configuration of frequency domain resource subcarrier spacing can correspond to the time domain of all second baseband parameters The configuration of resource granularity and frequency domain resource subcarrier spacing.
When any first baseband parameter is only corresponding with the second baseband parameter of part, provided according to the time domain in baseband parameter The sequencing of source granularity from small to large, is ranked up the first baseband parameter and the second baseband parameter respectively;Then described right In should being related to, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to the first base band ginseng to sort rearward The second corresponding baseband parameter of number.
According to the sequence of time-domain resource granularity from small to large in baseband parameter, respectively to the first baseband parameter and the second base Band parameter is ranked up, and after the completion of sequence, to according to preconfigured corresponding relationship, determines forward the first base band ginseng of sequence The second corresponding baseband parameters of number, the front of the second baseband parameter corresponding to the first baseband parameter of sequence rearward.
It is illustrated below with a specific example, as shown in figure 5, the time-domain resource granularity that such as SA is supported is from small to large It is followed successively by N1, the time-domain resource granularity that N2, DATA are supported is followed successively by N1, N2, N3, N4 from small to large, according to corresponding relationship, SA's The time-domain resource granularity that time-domain resource granularity N1 corresponds to DATA is N1, and the time-domain resource granularity N2 of N2, SA correspond to the time domain of DATA Resource granularity is N3, N4.
The above-mentioned resource allocation method process for network side equipment, wherein the first baseband parameter and the second baseband parameter difference Including time-domain resource granularity and frequency domain resource subcarrier spacing, and the type of the first baseband parameter is joined less equal than the second base band Several types, network side equipment by the second baseband parameter of the first baseband parameter and DATA for user device configuration SA, So that user equipment determines first object baseband parameter according to the first baseband parameter, determines second according to the second baseband parameter Target baseband parameter, and sent out according to the transmission resource and DATA of first object baseband parameter and the second target baseband parameter selection SA Resource is sent, can achieve reduces time delay, improves reliability and meet the target of the needs of more high data rate, while can To solve that different bases can not be decoded with UE since the flexible baseband parameter configuration of introducing causes SA blind examination Capability Requirement to be obviously improved The problem of SA with parameter is to carry out resource exclusion.
The embodiment of the present invention also provides a kind of resource selection method, is applied to user equipment, as shown in Figure 6, comprising:
Second mesh of step 601, the first object baseband parameter of user equipment selection scheduling signaling SA and data DATA Mark baseband parameter, the first object baseband parameter be preconfigured SA one of the first baseband parameter, described second Target baseband parameter is one of the second baseband parameter of preconfigured DATA, and the first baseband parameter and the second base band are joined Number respectively includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the type of the first baseband parameter is less equal than the second base Type with parameter.
After the second baseband parameter of the first baseband parameter and DATA that network side equipment is user device configuration SA, User equipment selects the first object baseband parameter of SA in the first baseband parameter of preconfigured SA, and preconfigured The second target baseband parameter of DATA is selected in the second baseband parameter of DATA.Wherein network side equipment is user device configuration SA The first baseband parameter and DATA the second baseband parameter in respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, The type of first baseband parameter is less equal than the type of the second baseband parameter.
When the first baseband parameter for the SA that network side equipment is user device configuration only includes one, it is determined that the first base Band parameter is first object baseband parameter, when the first baseband parameter for the SA that network side equipment is user device configuration includes two Or when multiple, then need to select first object baseband parameter in the first baseband parameter.Correspondingly, when network side equipment is When the second baseband parameter of the DATA of user device configuration only includes one, it is determined that the second baseband parameter is the second target base band Parameter is then needed when the second baseband parameter for the DATA that network side equipment is user device configuration includes two or more The second target baseband parameter is selected in the second baseband parameter.
In an embodiment of the present invention, the first object baseband parameter of SA and the second target base band ginseng of DATA are selected Number, comprising:
The first object baseband parameter of SA and the second target baseband parameter of DATA are selected respectively;
Alternatively, the first object baseband parameter of selection SA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship determines the corresponding second target baseband parameter of the first object baseband parameter;
Alternatively, the second target baseband parameter of selection DATA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship, determine corresponding first baseband parameter of the second target baseband parameter, as the first object base band join Number.
In the second target baseband parameter of the first object baseband parameter and DATA that select SA, can have with lower section Formula:
Mode one
User equipment needs to select the first object baseband parameter of SA and the second target baseband parameter of DATA respectively, can Can also select in the second target baseband parameter of the first object baseband parameter of selection SA and then selection DATA After the second target baseband parameter of DATA, the first object baseband parameter of reselection SA.
Mode two
The first object baseband parameter that SA can first be selected utilizes after determining the first object baseband parameter of SA Corresponding relationship between preconfigured first baseband parameter and the second baseband parameter, is determined according to first object baseband parameter Corresponding second target baseband parameter.Wherein the corresponding relationship between the first baseband parameter and the second baseband parameter is set by network side It is standby to be configured, network side equipment in the second baseband parameter of the first baseband parameter and DATA for user device configuration SA, The corresponding relationship between the first baseband parameter and the second baseband parameter can also be configured.
Mode three
User equipment can first select the second target baseband parameter of DATA, in the second target baseband parameter for determining DATA Later, using the corresponding relationship between preconfigured second baseband parameter and the first baseband parameter, according to the second target base band Parameter determines corresponding first baseband parameter, using identified first baseband parameter as first object baseband parameter.
In an embodiment of the present invention, the first object baseband parameter for selecting SA may include:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter condition group Corresponding first baseband parameter is closed, as the first object baseband parameter, wherein the baseband parameter conditional combination includes industry Business delay requirement, message transmission rate demand, reliability requirement, service quality (QoS) demand, the corresponding vehicle of the user equipment At least one of speed condition;
Alternatively, the synchronization signal of the target UE detected in the user equipment synchronizing process is obtained, this is same The time-domain resource granularity and frequency domain resource subcarrier spacing for walking signal, as the first object baseband parameter.
User equipment selection SA first object baseband parameter when, there are two types of corresponding selection modes, can according to appoint A kind of mode anticipate to determine the first object baseband parameter of SA.Both modes are illustrated respectively below.
The available current baseband parameter conditional combination of user equipment is joined according to baseband parameter conditional combination and the first base band Corresponding relationship between number determines corresponding first baseband parameter of current baseband parameter conditional combination for first object base band ginseng Number.Wherein baseband parameter conditional combination can be service delay demand, message transmission rate demand, reliability requirement, QoS In (Quality of Service, service quality) demand, the corresponding car speed of user equipment any one or it is any Several combinations.
Alternatively, the synchronization of the available user equipment of user equipment target UE detected in synchronizing process Signal, after the synchronization signal for obtaining target UE, by the time-domain resource granularity of the synchronization signal of target UE With frequency domain resource subcarrier spacing, as first object baseband parameter.
In an embodiment of the present invention, the second target baseband parameter for selecting DATA may include:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter condition group Corresponding second baseband parameter is closed, as the second target baseband parameter, wherein the baseband parameter participates in conditional combination packet Include service delay demand, message transmission rate demand, reliability requirement, QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, according to the synchronization signal of the target UE detected in the user equipment synchronizing process, this is same The time-domain resource granularity and frequency domain resource subcarrier spacing for walking signal, as the second target baseband parameter.
In the second target baseband parameter of user equipment selection DATA, there are two types of corresponding selection modes, can basis Any one mode determines the second target baseband parameter of DATA.Both modes are illustrated respectively below.
The available current baseband parameter conditional combination of user equipment is joined according to baseband parameter conditional combination and the second base band Corresponding relationship between number determines corresponding second baseband parameter of current baseband parameter conditional combination for the second target base band ginseng Number.Wherein baseband parameter conditional combination can need for service delay demand, message transmission rate demand, reliability requirement, QoS It asks, any one or any several combination in the corresponding car speed of user equipment.Current baseband parameter conditional combination For at least one in baseband parameter conditional combination.
Or the synchronization of the available user equipment of user equipment target UE detected in synchronizing process Signal, after the synchronization signal for obtaining target UE, by the time-domain resource granularity of the synchronization signal of target UE With frequency domain resource subcarrier spacing, as the second target baseband parameter.
Wherein, the target UE in above-described embodiment be with this user equipment carry out unicast communication user equipment, Group membership's user equipment of cast communication is carried out with this user equipment or sends the broadcasting user equipment of broadcast message.
Target UE can be the user equipment that unicast communication is carried out with this user equipment, can be and sets with this user The standby group membership's user equipment for carrying out multicast and believing all, can also be the broadcasting user equipment for sending broadcast message, certain target User equipment includes but is not limited to above-mentioned several forms.
Step 602, the user equipment according to the first object baseband parameter and the second target baseband parameter, select into Row SA sends and carries out frequency range, carrier wave, portions of bandwidth Bandwidth part and the resource pool of DATA transmission, and then selects SA Transmission resource and DATA transmission resource.
User equipment can choose SA transmission after obtaining first object baseband parameter and the second target baseband parameter Frequency range, carrier wave, Bandwidth part and resource pool, it is also an option that the frequency range of DATA transmission, carrier wave, Bandwidth Part and resource pool, and then the transmission resource of SA and DATA is selected to send resource.
In an embodiment of the present invention, the transmission resource of the selection SA, specifically includes:
According to the first object baseband parameter, selection carry out the frequency range of SA transmission, carrier wave, bandwidth part and Resource pool;According to frequency range, carrier wave, bandwidth part and the resource pool selected, the first candidate resource set is determined;From Not available candidate resource is excluded in the first candidate resource set;And it is carried out according to the SA received in effective historical juncture Decoded content carries out the measurement of PSCCH channel, or carries out the corresponding PSSCH letter of the SA received in effective historical juncture The measurement in road, and using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel;It is decoded based on the SA Whether the measurement result of content and corresponding PSCCH channel, the corresponding candidate resource of SA received described in judgement can be considered as accounting for With, and exclusion is considered as the candidate resource occupied from the first candidate resource set;According in the order history period The sequence from low to high of energy or power, select energy from the first candidate resource set or power sort it is forward First optional resource collection;The selection that SA sends resource is carried out in the described first optional resource collection, is obtained SA and is sent resource Selection result.
User equipment needs to select progress SA transmission according to first object baseband parameter when selecting the transmission resource of SA Frequency range, carrier wave, bandwidth part and resource pool, due to the configuration of a target baseband parameter and bandwidth part Corresponding relationship may be present, so the selection of frequency range, carrier wave, bandwidth part should can come really according to first object baseband parameter It is fixed.Then the first candidate resource collection is determined according to selected frequency range, carrier wave, bandwidth part and resource pool out It closes.In identified first candidate resource set, not available candidate resource is filtered out, not available candidate resource is carried out It excludes.When excluding not available candidate resource, it is also necessary in being decoded according to the SA received in effective historical juncture Hold, carries out the measurement of PSCCH channel, or carry out the measurement of the corresponding PSSCH channel of SA received in effective historical juncture. It, can be using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel when carrying out PSSCH channel measurement.
After carrying out PSCCH channel measurement or PSSCH channel measurement, the measurement result of PSCCH channel is obtained.According to SA The measurement result of decoded content and corresponding PSCCH channel, judges whether the corresponding candidate resource of the SA received can be considered as It occupies, is considered as the candidate resource occupied if it exists, need the candidate for excluding to be considered as occupying from the first candidate resource set Resource.
For the candidate resource not being excluded in the first candidate resource set, according in the order history period energy or Power carries out sequence from low to high to the candidate resource that is not excluded, and selects energy or power sorts forward first Optional resource collection.After determining the first optional resource collection, SA is selected to send resource in the first optional resource collection, And obtain the selection result that SA sends resource.
Wherein, the not available candidate resource includes at least a kind of in following two categories: since user equipment is sent out Give and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to pre- Meter sends the candidate resource that situation exceeds user equipment transmitting capacity.
In above-described embodiment when screening not available candidate resource, can screen can not since user equipment is sent Candidate resource corresponding to the time-domain resource monitored and measured;Or can screen when carrying out resource selection, it will lead to It is expected that sending the candidate resource that situation exceeds user equipment transmitting capacity;Or screening due to user equipment is sent and nothing While candidate resource corresponding to the time-domain resource that method is monitored and measured, screens when carrying out resource selection, will lead to It is expected that sending the candidate resource that situation exceeds user equipment transmitting capacity.
Wherein, if the SA selected sends resource and not can be carried out transmission, this method further include:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
If the SA selected in the first optional resource collection sends resource because of UE capability, reliability requirement, function Rate at least one of the restrictive conditions such as requires and can not be sent, then can reselect in the first optional resource collection SA sends resource, alternatively, abandoning part SA hair according at least one of priority, delay requirement, UE capability condition Send resource.Here, the part SA that is dropped sends resource, comprising: the transmission resource of current SA, and/or, its except current SA The transmission resource of his SA.
In an embodiment of the present invention, the transmission resource for selecting DATA, specifically includes:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, It determines that the SA sends the corresponding DATA transmission resource of selection result of resource, the selection result of resource is sent as DATA.
User equipment, can be after determining the selection result that SA sends resource when selecting the transmission resource of DATA, root The corresponding relationship between resource and SA transmission resource is sent according to DATA, SA is sent into DATA corresponding to the selection result of resource and is sent out Resource is sent, the selection result that DATA sends resource is determined as.It in this manner, can be in the base for guaranteeing selection accurate and effective On plinth, the efficiency of selection is effectively improved.
In an embodiment of the present invention, the transmission resource for selecting DATA, specifically includes:
According to the second target baseband parameter, selection carry out the frequency range of DATA transmission, carrier wave, bandwidth part with And resource pool;According to frequency range, carrier wave, bandwidth part and the resource pool selected, the second candidate resource set is determined; Not available candidate resource is excluded from the second candidate resource set;And according to the SA received in effective historical juncture into The decoded content of row, carries out the measurement of PSSCH channel, the measurement based on the decoded content of the SA and corresponding PSSCH channel As a result, whether the corresponding candidate resource of DATA that receives described in judgement can be considered as occupying, and from second candidate resource The candidate resource for being considered as occupying is excluded in set;According to the row from low to high of energy or power in the order history period Sequence, selects energy from the second candidate resource set or power sorts the optional resource collection of forward second;Described The selection that DATA sends resource is carried out in second optional resource collection, obtains the selection result that DATA sends resource.
User equipment needs to select progress DATA according to the second target baseband parameter when selecting the transmission resource of DATA Frequency range, carrier wave, bandwidth part and the resource pool of transmission, due to the second target baseband parameter and bandwidth part Configuration corresponding relationship may be present, so the selection of frequency range, carrier wave, bandwidth part should can be joined according to the second target base band Number is to determine.Then the second candidate money is determined according to selected frequency range, carrier wave, bandwidth part and resource pool out Source set.In identified second candidate resource set, not available candidate resource is filtered out, by not available candidate resource It is excluded.When excluding not available candidate resource, it is also necessary to be decoded according to the SA received in effective historical juncture Content, carry out PSSCH channel measurement.
After carrying out PSSCH channel measurement, the measurement result of PSSCH channel is obtained.According to the decoded content of SA and right The measurement result for answering PSSCH channel, judges whether the corresponding candidate resource of the DATA received can be considered as occupying, if it exists by It is considered as the candidate resource of occupancy, needs the candidate resource for excluding to be considered as occupying from the second candidate resource set.
For the candidate resource not being excluded in the second candidate resource set, according in the order history period energy or Power carries out sequence from low to high to the candidate resource that is not excluded, and selects energy or power sorts forward second Optional resource collection.After determining the second optional resource collection, DATA is selected to send money in the second optional resource collection Source, and obtain the selection result that DATA sends resource.
Wherein, the not available candidate resource includes at least a kind of in following two categories: since user equipment is sent out Give and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to pre- Meter sends the candidate resource that situation exceeds user equipment transmitting capacity.
When screening not available candidate resource, can screen can not be monitored and be surveyed since user equipment is sent Candidate resource corresponding to the time-domain resource of amount;Or can screen when carrying out resource selection, it will lead to estimated transmission situation Candidate resource beyond user equipment transmitting capacity;Or screening due to user equipment is sent and can not carry out monitor and It while candidate resource corresponding to the time-domain resource of measurement, screens when carrying out resource selection, will lead to estimated transmission situation Candidate resource beyond user equipment transmitting capacity.
Wherein, if the DATA selected sends resource and not can be carried out transmission, the method also includes:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send money Source.
If the DATA that is selected in the second optional resource collection send resource because UE capability, reliability requirement, At least one of restrictive conditions such as power requirement and can not be sent, then can be selected again in the second optional resource collection It selects DATA and sends resource;Or according at least one of priority, delay requirement, UE capability condition, abandon part DATA sends resource
In an embodiment of the present invention, the transmission resource for selecting SA, specifically includes:
The selection result of resource is sent according to DATA and DATA sends resource and SA sends corresponding between resource and closes System determines that the DATA sends the corresponding SA transmission resource of selection result of resource, the selection result of resource is sent as SA.
User equipment, can be after determining the selection result that DATA sends resource when selecting the transmission resource of SA, root The corresponding relationship between resource and SA transmission resource is sent according to DATA, DATA is sent into SA corresponding to the selection result of resource and is sent out Resource is sent, the selection result that SA sends resource is determined as.It in this manner, can be on the basis for guaranteeing selection accurate and effective On, effectively improve the efficiency of selection.
In an embodiment of the present invention, in the time domain, the transmission resource of the SA sends resource prior to the DATA, or The initial time of person, the transmission resource of the SA are identical as the DATA transmission initial time of resource.
In the time domain, the transmission resource of SA sends resource prior to DATA and needs first to carry out SA that is, when carrying out resource transmission The transmission of resource is sent, the rear transmission for carrying out DATA and sending resource, is at this time the multiplex mode of time division multiplexing (TDM).Or SA Initial time and the DATA of transmission resource to send the initial time of resource identical, it can while carry out SA send resource and DATA sends the transmission of resource, is at this time the multiplex mode of frequency division multiplexing (FDM).
In the above process, user equipment obtain network side equipment configuration SA the first baseband parameter and DATA second Baseband parameter, wherein the first baseband parameter and the second baseband parameter respectively include between time-domain resource granularity and frequency domain resource subcarrier Every, and the type of the first baseband parameter is less equal than the type of the second baseband parameter, determines the according to the first baseband parameter One target baseband parameter determines the second target baseband parameter according to the second baseband parameter, and according to first object baseband parameter With the transmission resource of the second target baseband parameter selection SA and the transmission resource of DATA, can achieve reduces time delay, improves reliably Property and meet the target of the needs of more high data rate, while can solve due to introducing flexible baseband parameter configuration The SA of different baseband parameters can not be decoded with UE to carry out resource exclusion by causing SA blind examination Capability Requirement to be obviously improved Problem.
The embodiment of the present invention also provides a kind of message receiving method, is applied to user equipment, as shown in fig. 7, comprises:
Step 701, user equipment are configured according to network side and/or pre-configuration and/or system it is supported and/or from The baseband parameter of the supported dispatch SA of body configures, and SA blind examination is carried out on corresponding running time-frequency resource position, and decode and obtain Obtain the instruction information of SA.
Here, baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the SA that user equipment is supported Baseband parameter type, less equal than user equipment support DATA baseband parameter type.
Any one of in the embodiment of the present invention, user equipment can be configured according to following baseband parameter, when corresponding SA blind examination is carried out on frequency resource location: 1) the baseband parameter configuration of the SA of network side configuration;2) SA that user equipment is pre-configured Baseband parameter configuration;3) the baseband parameter configuration of the supported SA of system;4) the base band ginseng of the supported SA of user equipment itself Number.Wherein, the baseband parameter for the SA that system is supported, can be the base for the SA that the affiliated car networking communication system of user equipment is supported Band parameter.The baseband parameter for the SA that itself is supported can be the base band ginseng for the SA that user equipment equipment of itself ability can be supported Number.In the embodiment of the present invention, user equipment is supported according to network side configuration and/or pre-configuration and/or system first And/or the baseband parameter configuration of itself supported SA, SA blind examination is carried out to corresponding running time-frequency resource position, and be decoded behaviour Make the instruction information of acquisition SA.
Wherein according to network side configuration and/or pre-configuration and/or system is supported and/or itself supported tune The baseband parameter configuration for spending signaling SA, SA blind examination is carried out on corresponding running time-frequency resource position, may include following implementations:
Implementation 1: the configuration of the baseband parameter of all SA according to acquired in user equipment, in corresponding running time-frequency resource SA blind examination is carried out on position, here, the configuration of the baseband parameter of acquired all SA can specifically include: network side configuration The baseband parameter for the SA that the baseband parameter of SA configures and user equipment is pre-configured.
Implementation 2: the time domain of the synchronization signal of the target UE detected in user equipment synchronizing process is provided Source granularity and frequency domain resource subcarrier spacing are carried out as the baseband parameter of the SA, and on corresponding running time-frequency resource position SA blind examination.
There are two types of the user equipment modes corresponding when carrying out SA blind examination:
User equipment can be according to the configuration of the baseband parameter of acquired all SA, to corresponding running time-frequency resource position first It sets and carries out SA blind examination.Specifically: according to network configuration (as configured by RRC signaling) or that user equipment is pre-configured all The time-domain resource granularity of SA and the configuration of frequency domain resource subcarrier spacing carry out SA blind examination on corresponding running time-frequency resource position.
User equipment can also obtain the synchronization signal of the target UE detected in user equipment synchronizing process, will The time-domain resource granularity and frequency domain resource subcarrier spacing of synchronization signal, as the baseband parameter of SA, according to the base of determining SA Band parameter, carries out SA blind examination on corresponding running time-frequency resource position.
The instruction information for the SA that step 702, user equipment are obtained according to decoding, carries out the reception of data DATA.
User equipment is after the instruction information for being decoded operation acquisition SA, the instruction for the SA for needing to be obtained according to decoding Information carries out the reception of data DATA.The instruction information of the SA wherein obtained according to decoding carries out the reception of data DATA, packet It includes:
In the time-domain resource granularity and/or frequency domain resource subcarrier that the instruction information for the SA that the decoding obtains includes DATA Interval, when further including the running time-frequency resource position of DATA, according to the instruction information of the SA, carries out the reception of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction of the SA The time-domain resource granularity of the synchronization signal of the target UE detected in information and the user equipment synchronizing process and Frequency domain resource subcarrier spacing carries out the reception of DATA.
User equipment according to the instruction information of SA, carry out DATA received process can there are two types of mode, modes one are as follows: It further include the time-frequency of DATA if the instruction information of SA includes the time-domain resource granularity and/or frequency domain resource subcarrier spacing of DATA When resource location, then according to SA instruction the time-domain resource granularity of DATA and/or the configuration of frequency domain resource subcarrier spacing and Running time-frequency resource location information carries out DATA decoding, to receive DATA.
Mode two are as follows: when the instruction information of SA includes the running time-frequency resource position of DATA, then obtain in synchronizing process and detect The time-domain resource granularity and frequency domain resource subcarrier spacing of the synchronization signal of the target UE arrived, according to the instruction information of SA And the time-domain resource granularity and frequency domain resource subcarrier spacing of synchronization signal.DATA decoding is carried out, to receive DATA.
In the embodiment of the present invention, baseband parameter of the user equipment based on SA carries out SA on corresponding running time-frequency resource position Blind examination, and the instruction information for obtaining SA is decoded, the reception of DATA is carried out according to the instruction information of SA, so far completes data receiver Process.
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 the embodiment of the present invention, network side equipment typically refers to base station.In an embodiment of the present invention, the shape of the base station Formula is unlimited, and can be macro base station (Macro Base Station), micro-base station (Pico Base Station), Node B, (3G is moved The address of dynamic base station), enhanced base station (eNB), family's enhanced base station (Femto eNB or Home eNode B or Home ENB or HeNB), relay station, access point, RRU (Remote Radio Unit, far-end RF module), RRH (Remote Radio Head, remote radio head), the network side node in 5G mobile communication system, such as central location (CU, Central Unit) and point Cloth unit (DU, Distributed Unit) etc..The terminal can be mobile phone (or mobile phone) or other and can send out The equipment for sending or receiving wireless signal, including it is user equipment (UE), personal digital assistant (PDA), radio modem, wireless Communication device, hand-held device, laptop computer, wireless phone, wireless local loop (WLL) stand, can turn movable signal It is changed to the CPE (Customer Premise Equipment, client terminal) or intelligent movable hot spot, intelligent family of WiFi signal Electricity or other obstructed remarkable operations can the spontaneous equipment etc. communicated with mobile communications network.
Equipment based on above method, the embodiment of the invention also provides the above method is implemented.
Referring to FIG. 8, the embodiment of the invention provides a structural schematic diagrams of network side equipment 800, comprising: processor 801, transceiver 802, memory 803 and bus interface, in which:
In embodiments of the present invention, network side equipment 800 further include: be stored on memory 803 and can be in processor 801 The computer program of upper operation.The processor 801 executes following process for reading the program in memory 803: for The first baseband parameter of family device configuration dispatch SA and the second baseband parameter of data DATA, wherein the first base band ginseng Several and the second baseband parameter respectively includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the type of the first baseband parameter Less equal than the type of the second baseband parameter.
In fig. 8, bus architecture may include the bus and bridge of any number of interconnection, specifically be represented by processor 801 One or more processors and the various circuits of memory that represent of memory 803 link together.Bus architecture can be with Various other circuits of such as peripheral equipment, voltage-stablizer and management circuit or the like are linked together, these are all these Well known to field, therefore, it will not be further described herein.Bus interface provides interface.Transceiver 802 can be Multiple element includes transmitter and receiver, provides the unit for communicating over a transmission medium with various other devices.
Processor 801, which is responsible for management bus architecture and common processing, memory 803, can store processor 801 and is holding Used data when row operation.
Optionally, the transceiver 802 includes at least one first base band ginseng for sending to the user equipment Several configuration informations or the processor 801 is used for by way of pre-configuration, for the user device configuration at least one institute State the first baseband parameter.
The optional transceiver 802 includes at least one second base band ginseng for sending to the user equipment Several configuration informations or the processor 801 is used for by way of pre-configuration, for the user device configuration at least one institute State the second baseband parameter.
Optionally, the time-domain resource granularity in first baseband parameter and frequency domain resource subcarrier spacing correspond; And/or time-domain resource granularity and frequency domain resource subcarrier spacing one-to-one correspondence in second baseband parameter.
Optionally, first baseband parameter includes:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported Subcarrier spacing;And/or
Time domain length is frequency domain resource corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Carrier wave interval.
Optionally, the processor 801 is also used to: the corresponding pass between the first baseband parameter of configuration and the second baseband parameter System.
Optionally, in the corresponding relationship, any first baseband parameter is corresponding with all second baseband parameters, or Person, any first baseband parameter are only corresponding with the second baseband parameter of part.
Optionally, when any first baseband parameter is only corresponding with the second baseband parameter of part, according in baseband parameter Time-domain resource granularity sequencing from small to large, the first baseband parameter and the second baseband parameter are ranked up respectively;Then In the corresponding relationship, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to sort rearward the Second baseband parameter corresponding to one baseband parameter.
Fig. 9 is please referred to, the embodiment of the invention provides another structures of network side equipment 90, as shown in figure 9, the network Side apparatus 90 includes:
Configuration module 91, for the first baseband parameter and data DATA for user device configuration dispatch SA Two baseband parameters, wherein the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource load Wave spacing, and the type of the first baseband parameter is less equal than the type of the second baseband parameter.
Optionally, the configuration module is further used for: it includes at least one described first that Xiang Suoshu user equipment, which is sent, The configuration information of baseband parameter, alternatively, by way of pre-configuration, at least one first base band of the user device configuration Parameter.
Optionally, the configuration module is further used for: it includes at least one described second that Xiang Suoshu user equipment, which is sent, The configuration information of baseband parameter, alternatively, by way of pre-configuration, at least one second base band of the user device configuration Parameter.
Optionally, the time-domain resource granularity in first baseband parameter and frequency domain resource subcarrier spacing correspond; And/or time-domain resource granularity and frequency domain resource subcarrier spacing one-to-one correspondence in second baseband parameter.
Optionally, first baseband parameter includes:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported Subcarrier spacing;And/or
Time domain length is frequency domain resource corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Carrier wave interval.
Optionally, the configuration module is also used to:
Configure the corresponding relationship between the first baseband parameter and the second baseband parameter.
Optionally, in the corresponding relationship, any first baseband parameter is corresponding with all second baseband parameters, or Person, any first baseband parameter are only corresponding with the second baseband parameter of part.
Optionally, when any first baseband parameter is only corresponding with the second baseband parameter of part, according in baseband parameter Time-domain resource granularity sequencing from small to large, the first baseband parameter and the second baseband parameter are ranked up respectively;Then In the corresponding relationship, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to sort rearward the Second baseband parameter corresponding to one baseband parameter.
The second base band ginseng of the first baseband parameter and DATA that network side equipment of the invention is user device configuration SA Number, so that user equipment is determined first object baseband parameter according to the first baseband parameter, determined according to the second baseband parameter Second target baseband parameter, and according to first object baseband parameter and the second target baseband parameter selection SA transmission resource and DATA sends resource, can achieve and reduces time delay, improves reliability and meet the target of the needs of more high data rate, Can solve simultaneously can not decode since the flexible baseband parameter configuration of introducing causes SA blind examination Capability Requirement to be obviously improved with UE The problem of SA of different baseband parameters is to carry out resource exclusion.
Please refer to Figure 10, a kind of structural schematic diagram of user equipment provided in an embodiment of the present invention, the user equipment 1000 It include: processor 1001, transceiver 1002, memory 1003, user interface 1004 and bus interface, in which:
In embodiments of the present invention, user equipment 1000 further include: be stored on memory 1003 and can be in processor The computer program run on 1001.The processor 1001 executes following mistake for reading the program in memory 1003 Journey: the first object baseband parameter of selection scheduling signaling SA and the second target baseband parameter of data DATA, first mesh One of the first baseband parameter that baseband parameter is preconfigured SA is marked, the second target baseband parameter is to be pre-configured with One of the second baseband parameter of DATA, and the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity With frequency domain resource subcarrier spacing, the type of the first baseband parameter is less equal than the type of the second baseband parameter;According to described First object baseband parameter and the second target baseband parameter, selection carry out SA transmission and carry out the frequency range of DATA transmission, carrier wave, band Wide portion Bandwidth part and resource pool, and then select the transmission resource of SA and the transmission resource of DATA.
In Figure 10, bus architecture may include the bus and bridge of any number of interconnection, specifically by 1001 generation of processor The various circuits for the memory that the one or more processors and memory 1003 of table represent link together.Bus architecture may be used also To 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, therefore, it will not be further described herein.Bus interface provides interface.Transceiver 1002 can To be multiple element, that is, includes transmitter and receiver, the list for communicating over a transmission medium with various other devices is provided Member.For different user equipmenies, user interface 1004, 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 1001, which is responsible for management bus architecture and common processing, memory 1003, can store processor 1001 and exists Execute used data when operation.
Optionally, the processor 1001, be also used to select respectively SA first object baseband parameter and DATA Two target baseband parameters;Alternatively, the first object baseband parameter of selection SA, and according to the first baseband parameter and the second baseband parameter Between corresponding relationship, determine the corresponding second target baseband parameter of the first object baseband parameter;Alternatively, selection DATA Second target baseband parameter, and according to the corresponding relationship between the first baseband parameter and the second baseband parameter, determine described second Corresponding first baseband parameter of target baseband parameter, as the first object baseband parameter.
Optionally, the processor 1001 is also used to:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter condition group Corresponding first baseband parameter is closed, as the first object baseband parameter, wherein the baseband parameter conditional combination includes industry Business delay requirement, message transmission rate demand, reliability requirement, service quality QoS demand, the corresponding vehicle of the user equipment At least one of speed condition;
Alternatively, obtaining the synchronization signal of the target UE detected in user equipment synchronizing process, which is believed Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the first object baseband parameter.
Optionally, the processor 1001 is also used to:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter condition group Corresponding second baseband parameter is closed, as the second target baseband parameter, wherein the baseband parameter participates in conditional combination packet Include service delay demand, message transmission rate demand, reliability requirement, QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, the synchronization is believed according to the synchronization signal of the target UE detected in user equipment synchronizing process Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the second target baseband parameter.
Optionally, the target UE is user equipment and this user that unicast communication is carried out with this user equipment Equipment carries out group membership's user equipment of cast communication or sends the broadcasting user equipment of broadcast message.
Optionally, the processor 1001 is also used to:
According to the first object baseband parameter, selection carry out the frequency range of SA transmission, carrier wave, bandwidth part and Resource pool;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the first candidate resource set is determined;
Not available candidate resource is excluded from the first candidate resource set;And according to being received in effective historical juncture To the content that is decoded of SA, carry out the measurement of PSCCH channel, or to carry out the SA received in effective historical juncture corresponding PSSCH channel measurement, and using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel;Based on described Whether the measurement result of the decoded content of SA and corresponding PSCCH channel, the corresponding candidate resource of SA received described in judgement may be used It is considered as occupying, and exclusion is considered as the candidate resource occupied from the first candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the first candidate resource collection It selects energy in conjunction or power sorts the optional resource collection of forward first;
The selection that SA sends resource is carried out in the described first optional resource collection, obtains the selection knot that SA sends resource Fruit.
Optionally, the not available candidate resource includes at least a kind of in following two categories: since user equipment carries out Send and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to It is expected that sending the candidate resource that situation exceeds user equipment transmitting capacity.Optionally, if the SA that selects send resource cannot be into Row is sent, and the processor 1001 is also used to:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
Optionally, the processor 1001 is also used to:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, It determines that the SA sends the corresponding DATA transmission resource of selection result of resource, the selection result of resource is sent as DATA.
Optionally, the processor 1001 is also used to:
According to the second target baseband parameter, selection carry out the frequency range of DATA transmission, carrier wave, bandwidth part with And resource pool;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the second candidate resource set is determined;
Not available candidate resource is excluded from the second candidate resource set;And according to being received in effective historical juncture To the content that is decoded of SA, the measurement of PSSCH channel is carried out, based on the decoded content of the SA and corresponding PSSCH letter Whether the measurement result in road, the corresponding candidate resource of DATA received described in judgement can be considered as occupying, and from described second The candidate resource for being considered as occupying is excluded in candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the second candidate resource collection It selects energy in conjunction or power sorts the optional resource collection of forward second;
The selection that DATA sends resource is carried out in the described second optional resource collection, obtains the selection that DATA sends resource As a result.
Optionally, the not available candidate resource includes at least a kind of in following two categories: since user equipment carries out Send and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to It is expected that sending the candidate resource that situation exceeds user equipment transmitting capacity.
Optionally, if the DATA selected sends resource and not can be carried out transmission, the processor 1001 is also used to:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send money Source.
Optionally, the processor 1001 is also used to:
The selection result of resource is sent according to DATA and DATA sends resource and SA sends corresponding between resource and closes System determines that the DATA sends the corresponding SA transmission resource of selection result of resource, the selection result of resource is sent as SA.
Optionally, in the time domain, the transmission resource of the SA sends resource prior to the DATA, alternatively, the hair of the SA Send the initial time of resource identical as the DATA transmission initial time of resource.
Figure 11 is please referred to, the embodiment of the invention provides another user equipmenies 110, comprising:
First choice module 111, for selection scheduling signaling SA first object baseband parameter and data DATA Two target baseband parameters, the first object baseband parameter is one of the first baseband parameter of preconfigured SA, described Second target baseband parameter is one of the second baseband parameter of preconfigured DATA, and the first baseband parameter and the second base Band parameter respectively includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the type of the first baseband parameter is less equal than the The type of two baseband parameters;
Second selecting module 112, for according to the first object baseband parameter and the second target baseband parameter, select into Row SA sends and carries out frequency range, carrier wave, portions of bandwidth Bandwidth part and the resource pool of DATA transmission, and then selects SA Transmission resource and DATA transmission resource.
Optionally, first choice module is also used to:
The first object baseband parameter of SA and the second target baseband parameter of DATA are selected respectively;
Alternatively, the first object baseband parameter of selection SA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship determines the corresponding second target baseband parameter of the first object baseband parameter;
Alternatively, the second target baseband parameter of selection DATA, and according between the first baseband parameter and the second baseband parameter Corresponding relationship, determine corresponding first baseband parameter of the second target baseband parameter, as the first object base band join Number.
Optionally, first choice module is further used for:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter condition group Corresponding first baseband parameter is closed, as the first object baseband parameter, wherein the baseband parameter conditional combination includes industry Business delay requirement, message transmission rate demand, reliability requirement, service quality QoS demand, the corresponding vehicle of the user equipment At least one of speed condition;
Alternatively, obtaining the synchronization signal of the target UE detected in user equipment synchronizing process, which is believed Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the first object baseband parameter.
Optionally, first choice module is further used for:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter condition group Corresponding second baseband parameter is closed, as the second target baseband parameter, wherein the baseband parameter participates in conditional combination packet Include service delay demand, message transmission rate demand, reliability requirement, QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, the synchronization is believed according to the synchronization signal of the target UE detected in user equipment synchronizing process Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the second target baseband parameter.
Optionally, the target UE is user equipment and this user that unicast communication is carried out with this user equipment Equipment carries out group membership's user equipment of cast communication or sends the broadcasting user equipment of broadcast message.
Optionally, the second selecting module includes:
First selecting unit, for according to the first object baseband parameter, selection carry out the frequency range of SA transmission, carrier wave, Bandwidth part and resource pool;
First determination unit, for determining according to frequency range, carrier wave, bandwidth part and the resource pool selected First candidate resource set;
First processing units, for excluding not available candidate resource from the first candidate resource set;And according to The content that the SA received in effective historical juncture is decoded carries out the measurement of PSCCH channel, or when the effective history of progress The measurement of the corresponding PSSCH channel of the SA received in quarter, and using the measurement result of PSSCH channel as corresponding PSCCH channel Measurement result;Measurement result based on the decoded content of the SA and corresponding PSCCH channel, SA pairs received described in judgement Whether the candidate resource answered, which can be considered as, occupies, and the candidate for excluding to be considered as occupying from the first candidate resource set provides Source;
Second selecting unit, for the sequence from low to high according to energy or power in the order history period, from It selects energy in the first candidate resource set or power sorts the optional resource collection of forward first;
First acquisition unit, the selection for sending resource for carrying out SA in the described first optional resource collection, obtains SA Send the selection result of resource.
Optionally, the not available candidate resource includes at least a kind of in following two categories: since user equipment carries out Send and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to It is expected that sending the candidate resource that situation exceeds user equipment transmitting capacity.Optionally, if the SA that selects send resource cannot be into Row is sent, and second selecting module is further used for:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
Optionally, second selecting module is further used for:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, It determines that the SA sends the corresponding DATA transmission resource of selection result of resource, the selection result of resource is sent as DATA.
Optionally, the second selecting module includes:
Third selecting unit, for according to the second target baseband parameter, selection to carry out the frequency range of DATA transmission, carries Wave, bandwidth part and resource pool;
Second determination unit, for determining according to frequency range, carrier wave, bandwidth part and the resource pool selected Second candidate resource set;
The second processing unit, for excluding not available candidate resource from the second candidate resource set;And according to The content that the SA received in effective historical juncture is decoded, carries out the measurement of PSSCH channel, decoded interior based on the SA Hold and correspond to the measurement result of PSSCH channel, whether the corresponding candidate resource of DATA received described in judgement can be considered as It occupies, and exclusion is considered as the candidate resource occupied from the second candidate resource set;
4th selecting unit, for the sequence from low to high according to energy or power in the order history period, from It selects energy in the second candidate resource set or power sorts the optional resource collection of forward second;
Second acquisition unit, the selection for sending resource for carrying out DATA in the described second optional resource collection, obtains The selection result of DATA transmission resource.
Optionally, the not available candidate resource includes at least a kind of in following two categories: since user equipment carries out Send and the time-domain resource that can not be monitored and be measured corresponding to candidate resource;And it if carrying out resource selection, will lead to It is expected that sending the candidate resource that situation exceeds user equipment transmitting capacity.
Optionally, if the DATA selected sends resource and not can be carried out transmission, second selecting module is further used for:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send money Source.
Optionally, second selecting module is further used for:
The selection result of resource is sent according to DATA and DATA sends resource and SA sends corresponding between resource and closes System determines that the DATA sends the corresponding SA transmission resource of selection result of resource, the selection result of resource is sent as SA.
Optionally, in the time domain, the transmission resource of the SA sends resource prior to the DATA, alternatively, the hair of the SA Send the initial time of resource identical as the DATA transmission initial time of resource.
User equipment of the invention obtains the first baseband parameter of the SA of network side equipment configuration and the second base of DATA Band parameter, wherein the first baseband parameter and the second baseband parameter respectively include between time-domain resource granularity and frequency domain resource subcarrier Every, and the type of the first baseband parameter is less equal than the type of the second baseband parameter, determines the according to the first baseband parameter One target baseband parameter determines the second target baseband parameter according to the second baseband parameter, and according to first object baseband parameter Resource is sent with the transmission resource and DATA of the second target baseband parameter selection SA, can achieve reduces time delay, improves reliability And meets the target of the needs of more high data rate, while can solve and make due to introducing flexible baseband parameter configuration The SA of different baseband parameters can not be decoded with UE to carry out asking for resource exclusion by being obviously improved at SA blind examination Capability Requirement Topic.
Please refer to Figure 12, the structural schematic diagram of another kind user equipment provided in an embodiment of the present invention, the user equipment 1200 include: processor 1201, transceiver 1202, memory 1203, user interface 1204 and bus interface, in which:
In embodiments of the present invention, user equipment 1200 further include: be stored on memory 1203 and can be in processor The computer program run on 1201.The processor 1201 executes following mistake for reading the program in memory 1203 Journey: it is configured according to the baseband parameter of network side configuration or pre-configuration dispatch SA, on corresponding running time-frequency resource position SA blind examination is carried out, and decodes the instruction information for obtaining SA;The transceiver 1202 is used for: the instruction of the SA obtained according to decoding is believed Breath carries out the reception of data DATA;Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, And the type of the baseband parameter of the SA of the user equipment support, the base band less equal than the DATA that the user equipment is supported The type of parameter.
In Figure 12, bus architecture may include the bus and bridge of any number of interconnection, specifically by 1201 generation of processor The various circuits for the memory that the one or more processors and memory 1203 of table represent link together.Bus architecture may be used also To 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, therefore, it will not be further described herein.Bus interface provides interface.Transceiver 1202 can To be multiple element, that is, includes transmitter and receiver, the list for communicating over a transmission medium with various other devices is provided Member.For different user equipmenies, user interface 1204, 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 1201, which is responsible for management bus architecture and common processing, memory 1203, can store processor 1201 and exists Execute used data when operation.
Optionally, the processor 1201 is also used to: according to the configuration of the baseband parameter of acquired all SA, corresponding Running time-frequency resource position on carry out SA blind examination;Alternatively,
By time-domain resource granularity and frequency domain resource of the synchronization signal of the target UE detected in synchronizing process Carrier wave interval as the baseband parameter of the SA, and carries out SA blind examination on corresponding running time-frequency resource position.
Optionally, the transceiver 1202 is also used to:
In the time-domain resource granularity and/or frequency domain resource subcarrier that the instruction information for the SA that the decoding obtains includes DATA Interval, when further including the running time-frequency resource position of DATA, according to the instruction information of the SA, carries out the reception of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction of the SA The time-domain resource granularity of the synchronization signal of the target UE detected in information and the user equipment synchronizing process and Frequency domain resource subcarrier spacing carries out the reception of DATA.
Figure 13 is please referred to, the embodiment of the invention provides another user equipmenies 130, comprising:
Processing module 131, the baseband parameter for dispatch SA configured according to network side or pre-configuration configure, SA blind examination is carried out on corresponding running time-frequency resource position, and decodes the instruction information for obtaining SA;
Receiving module 132, the instruction information of the SA for being obtained according to decoding carry out the reception of data DATA;Wherein, institute Stating baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the base band of the SA of user equipment support is joined Several types, the type of the baseband parameter less equal than the DATA of user equipment support.
Optionally, the processing module 131 is further used for:
According to the configuration of the baseband parameter of acquired all SA, SA blind examination is carried out on corresponding running time-frequency resource position; Alternatively,
By time-domain resource granularity and frequency domain resource of the synchronization signal of the target UE detected in synchronizing process Carrier wave interval as the baseband parameter of the SA, and carries out SA blind examination on corresponding running time-frequency resource position.
Optionally, the receiving module 132 is further used for:
In the time-domain resource granularity and/or frequency domain resource subcarrier that the instruction information for the SA that the decoding obtains includes DATA Interval, when further including the running time-frequency resource position of DATA, according to the instruction information of the SA, carries out the reception of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction of the SA The time-domain resource granularity of the synchronization signal of the target UE detected in information and the user equipment synchronizing process and Frequency domain resource subcarrier spacing carries out the reception of DATA.
The user equipment of the embodiment of the present invention, the baseband parameter based on SA carry out SA on corresponding running time-frequency resource position Blind examination, and the instruction information for obtaining SA is decoded, the reception of DATA is carried out according to the instruction information of SA, so far completes data receiver Process.
It should be noted that the embodiment of the present invention carry out resource distribution when, can use 3GPP agreement TS36.331 about The related IE of resource pool configuration carries out the configuration of resource pool.In the configuration of resource pool, above-mentioned first baseband parameter and the second base With the partial parameters that parameter is in resource pool configuration.
In addition, the embodiment of the present invention when carrying out resource selection, can refer to the resource selection mechanism of existing LTE-V2X, Existing resource selection mode is Sensing+SPS mechanism, specific method referring to Figure 14.
At present on LTE-V2X single carrier send resource selection the following steps are included:
All candidate resources in resource selection window are labeled as can be used by step 1.
Step 2, the exclusion for carrying out occupied resource, specific exclusion content includes 2 classes:
The first kind is in sensing window, and UE itself is sent and can not listen to other UE hair on sending subframe The business packet sent, above-mentioned subframe become skip subframe, need to assume that other UE are equal with all periods of system configuration in the subframe Be subscribed to resource next time, and the resource and candidate's subframes reserved are overlapping, or with 1,2 after candidate's subframes ..., 10* Counter-1 times transmission subframe is overlapping, needs to exclude above-mentioned candidate's subframes.
Second class is the SA that other UE transmission has been listened in sensing window, according to period for knowing from SA and Resource reservation information, if the resource of reservation and candidate resource are overlapping, or with 1,2 after candidate's subframes ..., 10* Counter-1 times transmission resource is overlapping, and the threshold value being higher than according to the PSSCH-RSRP that SA is measured, then corresponding candidate money Source needs to be excluded.
If surplus resources ratio is lower than 20% after step 2 exclusion, then threshold value is promoted into 3dB, re-execute exclusion Process, until surplus resources ratio reaches at or above 20%.
Step 3: S-RSSI measurement and sequence being carried out to candidate resource, select 20% minimum money of S-RSSI measured value Source carries out resource selection from above-mentioned 20% candidate resource by high level.
The above-mentioned resource selection mechanism for existing LTE-V2X, the embodiment of the present invention can be borrowed when carrying out resource selection Selection mechanism is stated in view of this.
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 side equipment etc.) execute all or part of the steps of each embodiment method of the present invention.And Storage medium above-mentioned, which includes: that USB flash disk, mobile hard disk, ROM, RAM, magnetic or disk etc. are various, can store program code Medium.
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 (54)

1. a kind of resource allocation method characterized by comprising
For the first baseband parameter of user device configuration dispatch SA and the second baseband parameter of data DATA, wherein the One baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, and the first base band is joined Several types is less equal than the type of the second baseband parameter.
2. resource allocation method as described in claim 1, which is characterized in that configure the first baseband parameter of the SA, comprising:
Network side equipment sends the configuration information including at least one first baseband parameter to the user equipment, alternatively, By way of pre-configuration, at least one first baseband parameter of the user device configuration.
3. resource allocation method as described in claim 1, which is characterized in that configure the second baseband parameter of the DATA, wrap It includes:
Network side equipment sends the configuration information including at least one second baseband parameter to the user equipment, alternatively, By way of pre-configuration, at least one second baseband parameter of the user device configuration.
4. resource allocation method as claimed in claim 2 or claim 3, which is characterized in that
Time-domain resource granularity and frequency domain resource subcarrier spacing in first baseband parameter correspond;
And/or
Time-domain resource granularity and frequency domain resource subcarrier spacing in second baseband parameter correspond.
5. resource allocation method as claimed in claim 2, which is characterized in that
First baseband parameter includes:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported carries Wave spacing;And/or
Time domain length is frequency domain resource subcarrier corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Interval.
6. resource allocation method as described in claim 1, which is characterized in that described for user device configuration dispatch SA's Second baseband parameter of the first baseband parameter and data DATA, further includes:
Configure the corresponding relationship between the first baseband parameter and the second baseband parameter.
7. resource allocation method as claimed in claim 6, which is characterized in that
In the corresponding relationship, any first baseband parameter is corresponding with all second baseband parameters, alternatively, any first base Band parameter is only corresponding with the second baseband parameter of part.
8. resource allocation method as claimed in claim 7, which is characterized in that
When any first baseband parameter is only corresponding with the second baseband parameter of part, according to the time-domain resource grain in baseband parameter The sequencing of degree from small to large, is ranked up the first baseband parameter and the second baseband parameter respectively;Then in the corresponding pass In system, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to the first baseband parameter institute to sort rearward Corresponding second baseband parameter.
9. a kind of resource selection method characterized by comprising
The first object baseband parameter of user equipment selection scheduling signaling SA and the second target baseband parameter of data DATA, institute One of the first baseband parameter that first object baseband parameter is preconfigured SA is stated, the second target baseband parameter is One of second baseband parameter of preconfigured DATA, and the first baseband parameter and the second baseband parameter respectively include time domain Resource granularity and frequency domain resource subcarrier spacing, the type of the first baseband parameter are less equal than the type of the second baseband parameter;
The user equipment according to the first object baseband parameter and the second target baseband parameter, selection carry out SA transmission and into Row DATA send frequency range, carrier wave, portions of bandwidth Bandwidth part and resource pool, and then select SA transmission resource and The transmission resource of DATA.
10. resource selection method as claimed in claim 9, which is characterized in that select SA first object baseband parameter and The second target baseband parameter of DATA, comprising:
The first object baseband parameter of SA and the second target baseband parameter of DATA are selected respectively;
Alternatively, the first object baseband parameter of selection SA, and according to corresponding between the first baseband parameter and the second baseband parameter Relationship determines the corresponding second target baseband parameter of the first object baseband parameter;
Alternatively, the second target baseband parameter of selection DATA, and according to pair between the first baseband parameter and the second baseband parameter It should be related to, corresponding first baseband parameter of the second target baseband parameter be determined, as the first object baseband parameter.
11. resource selection method as claimed in claim 10, which is characterized in that select the first object baseband parameter of SA, wrap It includes:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter conditional combination pair The first baseband parameter answered, as the first object baseband parameter, wherein when the baseband parameter conditional combination includes business Prolong demand, message transmission rate demand, reliability requirement, service quality QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, obtaining the synchronization signal of the target UE detected in the user equipment synchronizing process, which is believed Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the first object baseband parameter.
12. resource selection method as claimed in claim 10, which is characterized in that the second target baseband parameter of DATA is selected, Include:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter conditional combination pair The second baseband parameter answered, as the second target baseband parameter, wherein it includes industry that the baseband parameter, which participates in conditional combination, Be engaged in delay requirement, message transmission rate demand, reliability requirement, QoS demand, in the corresponding car speed of the user equipment At least one condition;
Alternatively, the synchronization is believed according to the synchronization signal of the target UE detected in the user equipment synchronizing process Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the second target baseband parameter.
13. the resource selection method as described in claim 11 or 12, which is characterized in that
The target UE is that the user equipment that unicast communication is carried out with this user equipment and this user equipment carry out multicast Group membership's user equipment of communication or the broadcasting user equipment for sending broadcast message.
14. resource selection method as claimed in claim 9, which is characterized in that the transmission resource of the selection SA is specific to wrap It includes:
According to the first object baseband parameter, selection carries out frequency range, carrier wave, bandwidth part and the resource of SA transmission Pond;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the first candidate resource set is determined;
Not available candidate resource is excluded from the first candidate resource set;And according to receiving in effective historical juncture It is corresponding to carry out the SA received in the measurement of PSCCH channel, or progress effective historical juncture for the content that SA is decoded The measurement of PSSCH channel, and using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel;Based on the SA The measurement result of decoded content and corresponding PSCCH channel, whether the corresponding candidate resource of SA received described in judgement can quilt It is considered as occupancy, and exclusion is considered as the candidate resource occupied from the first candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the first candidate resource set It selects energy or power sorts the optional resource collection of forward first;
The selection that SA sends resource is carried out in the described first optional resource collection, obtains the selection result that SA sends resource.
15. resource selection method as claimed in claim 14, which is characterized in that the not available candidate resource includes following It is at least a kind of in two classes: time corresponding to the time-domain resource that can not be monitored and be measured since user equipment is sent Select resource;And if carrying out resource selection, the estimated candidate resource for sending situation and exceeding user equipment transmitting capacity will lead to.
16. resource selection method as claimed in claim 14, which is characterized in that if the SA selected sends resource and not can be carried out It sends, the method also includes:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
17. resource selection method as claimed in claim 14, which is characterized in that the transmission resource for selecting DATA specifically includes:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, is determined The corresponding DATA of selection result that the SA sends resource sends resource, and the selection result of resource is sent as DATA.
18. resource selection method as claimed in claim 9, which is characterized in that the transmission resource for selecting DATA specifically includes:
According to the second target baseband parameter, selection carries out frequency range, carrier wave, bandwidth part and the money of DATA transmission Source pond;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the second candidate resource set is determined;
Not available candidate resource is excluded from the second candidate resource set;And according to receiving in effective historical juncture The content that SA is decoded carries out the measurement of PSSCH channel, based on the decoded content of the SA and corresponds to PSSCH channel Whether measurement result, the corresponding candidate resource of DATA received described in judgement can be considered as occupying, and candidate from described second The candidate resource for being considered as occupying is excluded in resource collection;
According to the sequence from low to high of energy or power in the order history period, from the second candidate resource set It selects energy or power sorts the optional resource collection of forward second;
The selection that DATA sends resource is carried out in the described second optional resource collection, obtains the selection knot that DATA sends resource Fruit.
19. resource selection method as claimed in claim 18, which is characterized in that the not available candidate resource includes following It is at least a kind of in two classes: time corresponding to the time-domain resource that can not be monitored and be measured since user equipment is sent Select resource;And if carrying out resource selection, the estimated candidate resource for sending situation and exceeding user equipment transmitting capacity will lead to.
20. resource selection method as claimed in claim 18, which is characterized in that if the DATA that selects send resource cannot be into Row is sent, the method also includes:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send resource.
21. resource selection method as claimed in claim 18, which is characterized in that the transmission resource of the selection SA is specific to wrap It includes:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to DATA, really The corresponding SA of selection result that the fixed DATA sends resource sends resource, and the selection result of resource is sent as SA.
22. resource selection method as claimed in claim 21, which is characterized in that
In the time domain, the transmission resource of the SA sends resource prior to the DATA, alternatively, the starting of the transmission resource of the SA Time is identical as the DATA transmission initial time of resource.
23. a kind of message receiving method characterized by comprising
The baseband parameter of dispatch SA that user equipment is configured according to network side or pre-configuration configures, and provides in corresponding time-frequency SA blind examination is carried out on source position, and decodes the instruction information for obtaining SA;
The instruction information for the SA that the user equipment is obtained according to decoding carries out the reception of data DATA;
Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the user equipment is supported SA baseband parameter type, less equal than the user equipment support DATA baseband parameter type.
24. message receiving method as claimed in claim 23, which is characterized in that described being configured according to network side or pre-configuration Dispatch SA baseband parameter configuration, on corresponding running time-frequency resource position carry out SA blind examination, comprising:
The configuration of the baseband parameter of all SA according to acquired in the user equipment carries out on corresponding running time-frequency resource position SA blind examination;Alternatively,
By the time-domain resource granularity and frequency of the synchronization signal of the target UE detected in the user equipment synchronizing process Domain resource subcarrier spacing as the baseband parameter of the SA, and carries out SA blind examination on corresponding running time-frequency resource position.
25. message receiving method as claimed in claim 23, which is characterized in that the instruction of the SA obtained according to decoding is believed Breath carries out the reception of data DATA, comprising:
It include between the time-domain resource granularity and/or frequency domain resource subcarrier of DATA in the instruction information for the SA that the decoding obtains Every according to the instruction information of the SA, carrying out the reception of DATA when further including the running time-frequency resource position of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction information of the SA And the time-domain resource granularity and frequency domain of the synchronization signal of the target UE detected in the user equipment synchronizing process Resource subcarrier spacing carries out the reception of DATA.
26. a kind of network side equipment, comprising: transceiver, memory, processor and be stored on the memory and can be described The computer program run on processor;It is characterized in that,
The processor executes following process for reading the program in memory:
For the first baseband parameter of user device configuration dispatch SA and the second baseband parameter of data DATA, wherein the One baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, and the first base band is joined Several types is less equal than the type of the second baseband parameter.
27. network side equipment as claimed in claim 26, which is characterized in that
The transceiver, for sending the configuration information including at least one first baseband parameter to the user equipment, Or the processor is used for by way of pre-configuration, at least one first baseband parameter of the user device configuration.
28. network side equipment as claimed in claim 26, which is characterized in that
The transceiver, for sending the configuration information including at least one second baseband parameter to the user equipment, Or the processor is used for by way of pre-configuration, at least one second baseband parameter of the user device configuration.
29. the network side equipment as described in claim 27 or 28, which is characterized in that
Time-domain resource granularity and frequency domain resource subcarrier spacing in first baseband parameter correspond;
And/or
Time-domain resource granularity and frequency domain resource subcarrier spacing in second baseband parameter correspond.
30. network side equipment as claimed in claim 27, which is characterized in that
First baseband parameter includes:
Frequency domain resource corresponding to the shortest time-domain resource granularity and the shortest time-domain resource granularity that system is supported carries Wave spacing;And/or
Time domain length is frequency domain resource subcarrier corresponding to the time-domain resource granularity of 1ms and the time-domain resource granularity of the 1ms Interval.
31. network side equipment as claimed in claim 26, which is characterized in that
The processor is also used to: the corresponding relationship between the first baseband parameter of configuration and the second baseband parameter.
32. network side equipment as claimed in claim 31, which is characterized in that
In the corresponding relationship, any first baseband parameter is corresponding with all second baseband parameters, alternatively, any first base Band parameter is only corresponding with the second baseband parameter of part.
33. network side equipment as claimed in claim 32, which is characterized in that
When any first baseband parameter is only corresponding with the second baseband parameter of part, according to the time-domain resource grain in baseband parameter The sequencing of degree from small to large, is ranked up the first baseband parameter and the second baseband parameter respectively;Then in the corresponding pass In system, sort the second baseband parameter corresponding to the first forward baseband parameter, prior to the first baseband parameter institute to sort rearward Corresponding second baseband parameter.
34. a kind of network side equipment characterized by comprising
Configuration module, the second base band for the first baseband parameter and data DATA for user device configuration dispatch SA Parameter, wherein the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity and frequency domain resource subcarrier spacing, And first baseband parameter type be less equal than the second baseband parameter type.
35. a kind of user equipment, comprising: transceiver, memory, processor and be stored on the memory and can be at the place The computer program run on reason device;It is characterized in that,
The processor executes following process for reading the program in memory:
The first object baseband parameter of selection scheduling signaling SA and the second target baseband parameter of data DATA, first mesh One of the first baseband parameter that baseband parameter is preconfigured SA is marked, the second target baseband parameter is to be pre-configured with One of the second baseband parameter of DATA, and the first baseband parameter and the second baseband parameter respectively include time-domain resource granularity With frequency domain resource subcarrier spacing, the type of the first baseband parameter is less equal than the type of the second baseband parameter;
According to the first object baseband parameter and the second target baseband parameter, selection carries out SA transmission and carries out DATA transmission Frequency range, carrier wave, portions of bandwidth Bandwidth part and resource pool, and then select the transmission resource of SA and the transmission money of DATA Source.
36. user equipment as claimed in claim 35, which is characterized in that the processor is also used to:
The first object baseband parameter of SA and the second target baseband parameter of DATA are selected respectively;
Alternatively, the first object baseband parameter of selection SA, and according to corresponding between the first baseband parameter and the second baseband parameter Relationship determines the corresponding second target baseband parameter of the first object baseband parameter;
Alternatively, the second target baseband parameter of selection DATA, and according to pair between the first baseband parameter and the second baseband parameter It should be related to, corresponding first baseband parameter of the second target baseband parameter be determined, as the first object baseband parameter.
37. user equipment as claimed in claim 36, which is characterized in that the processor is also used to:
According to the corresponding relationship between baseband parameter conditional combination and the first baseband parameter, by current baseband parameter conditional combination pair The first baseband parameter answered, as the first object baseband parameter, wherein when the baseband parameter conditional combination includes business Prolong demand, message transmission rate demand, reliability requirement, service quality QoS demand, the corresponding car speed of the user equipment At least one of condition;
Alternatively, obtaining the synchronization signal of the target UE detected in the user equipment synchronizing process, which is believed Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the first object baseband parameter.
38. user equipment as claimed in claim 36, which is characterized in that the processor is also used to:
According to the corresponding relationship between baseband parameter conditional combination and the second baseband parameter, by current baseband parameter conditional combination pair The second baseband parameter answered, as the second target baseband parameter, wherein it includes industry that the baseband parameter, which participates in conditional combination, Be engaged in delay requirement, message transmission rate demand, reliability requirement, QoS demand, in the corresponding car speed of the user equipment At least one condition;
Alternatively, the synchronization is believed according to the synchronization signal of the target UE detected in the user equipment synchronizing process Number time-domain resource granularity and frequency domain resource subcarrier spacing, as the second target baseband parameter.
39. the user equipment as described in claim 37 or 38, which is characterized in that
The target UE is that the user equipment that unicast communication is carried out with this user equipment and this user equipment carry out multicast Group membership's user equipment of communication or the broadcasting user equipment for sending broadcast message.
40. user equipment as claimed in claim 35, which is characterized in that the processor is also used to:
According to the first object baseband parameter, selection carries out frequency range, carrier wave, bandwidth part and the resource of SA transmission Pond;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the first candidate resource set is determined;
Not available candidate resource is excluded from the first candidate resource set;And according to receiving in effective historical juncture It is corresponding to carry out the SA received in the measurement of PSCCH channel, or progress effective historical juncture for the content that SA is decoded The measurement of PSSCH channel, and using the measurement result of PSSCH channel as the measurement result of corresponding PSCCH channel;Based on the SA The measurement result of decoded content and corresponding PSCCH channel, whether the corresponding candidate resource of SA received described in judgement can quilt It is considered as occupancy, and exclusion is considered as the candidate resource occupied from the first candidate resource set;
According to the sequence from low to high of energy or power in the order history period, from the first candidate resource set It selects energy or power sorts the optional resource collection of forward first;
The selection that SA sends resource is carried out in the described first optional resource collection, obtains the selection result that SA sends resource.
41. user equipment as claimed in claim 40, which is characterized in that
The not available candidate resource includes at least a kind of in following two categories: can not be into since user equipment is sent Candidate resource corresponding to the time-domain resource that row is monitored and measured;And if carrying out resource selection, estimated transmission situation will lead to Candidate resource beyond user equipment transmitting capacity.
42. user equipment as claimed in claim 40, which is characterized in that if the SA selected sends resource and not can be carried out hair It send, the processor is also used to:
The selection that SA sends resource is re-started in the described first optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part SA and send resource.
43. user equipment as claimed in claim 40, which is characterized in that the processor is also used to:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to SA, is determined The corresponding DATA of selection result that the SA sends resource sends resource, and the selection result of resource is sent as DATA.
44. user equipment as claimed in claim 35, which is characterized in that the processor is also used to:
According to the second target baseband parameter, selection carries out frequency range, carrier wave, bandwidth part and the money of DATA transmission Source pond;
According to frequency range, carrier wave, bandwidth part and the resource pool selected, the second candidate resource set is determined;
Not available candidate resource is excluded from the second candidate resource set;And according to receiving in effective historical juncture The content that SA is decoded carries out the measurement of PSSCH channel, based on the decoded content of the SA and corresponds to PSSCH channel Whether measurement result, the corresponding candidate resource of DATA received described in judgement can be considered as occupying, and candidate from described second The candidate resource for being considered as occupying is excluded in resource collection;
According to the sequence from low to high of energy or power in the order history period, from the second candidate resource set It selects energy or power sorts the optional resource collection of forward second;
The selection that DATA sends resource is carried out in the described second optional resource collection, obtains the selection knot that DATA sends resource Fruit.
45. user equipment as claimed in claim 44, which is characterized in that
The not available candidate resource includes at least a kind of in following two categories: can not be into since user equipment is sent Candidate resource corresponding to the time-domain resource that row is monitored and measured;And if carrying out resource selection, estimated transmission situation will lead to Candidate resource beyond user equipment transmitting capacity.
46. user equipment as claimed in claim 44, which is characterized in that if the DATA selected sends resource and not can be carried out hair It send, the processor is also used to:
The selection that DATA sends resource is re-started in the described second optional resource collection;Alternatively,
According at least one of priority, delay requirement, UE capability condition, abandons part DATA and send resource.
47. user equipment as claimed in claim 44, which is characterized in that the processor is also used to:
The corresponding relationship between the selection result and DATA transmission resource and SA transmission resource of resource is sent according to DATA, really The corresponding SA of selection result that the fixed DATA sends resource sends resource, and the selection result of resource is sent as SA.
48. user equipment as claimed in claim 47, which is characterized in that
In the time domain, the transmission resource of the SA sends resource prior to the DATA, alternatively, the starting of the transmission resource of the SA Time is identical as the DATA transmission initial time of resource.
49. a kind of user equipment characterized by comprising
First choice module, for the first object baseband parameter of selection scheduling signaling SA and the second target base of data DATA Band parameter, the first object baseband parameter are one of the first baseband parameter of preconfigured SA, second target Baseband parameter is one of the second baseband parameter of preconfigured DATA, and the first baseband parameter and the second baseband parameter divide Not Bao Kuo time-domain resource granularity and frequency domain resource subcarrier spacing, the type of the first baseband parameter joins less equal than the second base band Several types;
Second selecting module, for according to the first object baseband parameter and the second target baseband parameter, selection to carry out SA hair Frequency range, carrier wave, portions of bandwidth Bandwidth part and the resource pool of DATA transmission are sent and carried out, and then selects the transmission of SA The transmission resource of resource and DATA.
50. a kind of user equipment, comprising: transceiver, memory, processor and be stored on the memory and can be at the place The computer program run on reason device;It is characterized in that,
The processor executes following process for reading the program in memory:
According to the baseband parameter configuration of network side configuration or pre-configuration dispatch SA, on corresponding running time-frequency resource position SA blind examination is carried out, and decodes the instruction information for obtaining SA;
The transceiver is used for: according to the instruction information for the SA that decoding obtains, carrying out the reception of data DATA;
Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the user equipment is supported SA baseband parameter type, less equal than the user equipment support DATA baseband parameter type.
51. user equipment as claimed in claim 50, which is characterized in that the processor is also used to:
According to the configuration of the baseband parameter of acquired all SA, SA blind examination is carried out on corresponding running time-frequency resource position;Alternatively,
By the time-domain resource granularity and frequency domain resource subcarrier of the synchronization signal of the target UE detected in synchronizing process Interval as the baseband parameter of the SA, and carries out SA blind examination on corresponding running time-frequency resource position.
52. user equipment as claimed in claim 50, which is characterized in that the transceiver is also used to:
It include between the time-domain resource granularity and/or frequency domain resource subcarrier of DATA in the instruction information for the SA that the decoding obtains Every according to the instruction information of the SA, carrying out the reception of DATA when further including the running time-frequency resource position of DATA;Alternatively,
When the instruction information for the SA that the decoding obtains includes the running time-frequency resource position of DATA, according to the instruction information of the SA And the time-domain resource granularity and frequency domain of the synchronization signal of the target UE detected in the user equipment synchronizing process Resource subcarrier spacing carries out the reception of DATA.
53. a kind of user equipment characterized by comprising
Processing module, the baseband parameter for dispatch SA configured according to network side or pre-configuration configures, corresponding SA blind examination is carried out on running time-frequency resource position, and decodes the instruction information for obtaining SA;
Receiving module, the instruction information of the SA for being obtained according to decoding carry out the reception of data DATA;
Wherein, the baseband parameter includes time-domain resource granularity and frequency domain resource subcarrier spacing, and the user equipment is supported SA baseband parameter type, less equal than the user equipment support DATA baseband parameter type.
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 such as the step of resource allocation method described in any item of the claim 1 to 8, or realizes such as right It is required that the step of resource selection method described in any one of 9 to 22, or realize such as any one of claim 23 to 25 institute The step of message receiving method stated.
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