method and apparatus for determining data return capability

专利摘要:
this application describes a method and apparatus for determining a data feedback feature, to solve a relatively poor data transmission reliability problem in an existing vehicle internet technology. the method includes: receiving, through a first terminal, first data sent by a second terminal; determining a first data return resource, where the first data return resource is a return resource in a grouping of return resources; and sending feedback information from the first data to the second terminal on the feedback facility, where feedback information is used to indicate a status of receiving the first data. therefore, the second terminal serving as the transmission end can determine, by detecting the feedback, whether the first data sent is received successfully, thereby improving the reliability of data transmission.
公开号:BR112019019560A2
申请号:R112019019560
申请日:2018-03-19
公开日:2020-04-22
发明作者:Liu Deping；Zhao Zhenshan
申请人:Huawei Tech Co Ltd；
IPC主号:

专利说明:

METHOD AND APPARATUS FOR DETERMINING DATA RETURN FEATURE [001] This application claims priority for Chinese Patent Application No. 201710166177.2, filed at the Chinese Patent Office on March 20, 2017 and entitled METHOD AND APPARATUS FOR DETERMINING DATA FEEDBACK RESOURCE, which is incorporated herein by reference in its entirety.
TECHNICAL FIELD [002] This application refers to the field of wireless communication technologies and, in particular, to a method and apparatus for determining a data return feature.
FUNDAMENTALS [003] A vehicle Internet system was designed to improve road safety, improve traffic efficiency and provide a rich continuous transmission service to users through communication between a vehicle and another device (V2X). The other device includes a vehicle, a portable terminal, a roadside unit (MSW), a network and the like. Communication between a vehicle and another device includes vehicle to vehicle communication (V2V), vehicle to pedestrian communication (V2P), vehicle to network communication (V2N) and the like, and V2V communication, V2P communication, and communication V2I are collectively called V2X.
[004] Currently, technologies such as 2G / 3G / 4G are used for cellular communication. A long-term evolution technology (LTE) used in a 4G system has advantages of high rate, low latency, great coverage, support for a high speed mobile terminal and the like. Therefore, during the communication of information
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2/44 between a vehicle and the outside on a cellular network, a central scheduler as a base station (eNB) can be fully used to dynamically schedule a transmission resource, reduce the likelihood of a communication conflict, and resolve a communication problem. uncontrollable delay. An LTE-V2X technology is a technology for exchanging information between a vehicle and another device based on an LTE cell network and is an extension of an existing cellular network technology.
[005] In an LTE-V2X system, there are generally two ways of communication between a vehicle and another device. In a first way, as shown in Figure IA, a vehicle sends vehicle status information to another vehicle or nearby node in a broadcast manner, and a base station does not need to forward data. In a second way, as shown in Figure 1B, a vehicle first sends vehicle status information to a base station and then the base station sends the received data to another vehicle or node in a unicast or broadcast way.
[006] However, in the field of existing vehicle internet technologies, a vehicle serving as a transmission end can only determine whether the sending of data that needs to be sent is completed. Because a data feedback feature is not defined, the vehicle serving as the transmission end cannot determine whether the data sent is received successfully, and, consequently, the reliability of the data transmission is low.
SUMMARY [007] This application provides a method and apparatus for
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3/44 determine a data return feature, to solve a relatively low data transmission reliability problem in an existing vehicle Internet technology.
[008] According to a first aspect, a method is provided to determine a data return facility, including:
receiving, by a first terminal, first data sent by a second terminal;
determine, by the first terminal, a return resource of the first data, where the return resource of the first data is a return resource in a grouping of return resources; and sending, through the first terminal, return information from the first data to the second terminal in the return resource, where the return information is used to indicate a reception status of the first data.
[009] A beneficial effect is as follows: After receiving the first data sent by the second terminal, the first terminal can send the first data return information to the second terminal in the first data return resource that is determined in the resource pool return. Therefore, the second terminal serving as a transmission end can determine, by detecting the feedback, whether the first data sent is received successfully, thus improving the reliability of the data transmission.
[0010] With reference to the first aspect, in a possible project, the determination, by the first terminal, of a return resource of the first data includes: determine,
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4/44 by the first terminal, time-frequency information and / or code domain information from the first data return resource, where the time-frequency information includes initial location information of a frequency domain resource, a length of the frequency domain resource, and indication information of a time domain resource, and the code domain information includes a code word used to send the feedback information.
[0011] With reference to the first aspect, in a possible project, the determination, by the first terminal, of a return resource of the first data includes:
obtain, through the first terminal, configuration information of the grouping of return resources; and determining, by the first terminal, the return resource of the first data based on the configuration information of the group of return resources.
[0012] In this project, it is simple for the first terminal to determine the return resource of the first data based on the configuration information of the return resource cluster. The return feature of the first data is determined in advance, so that a return feature conflict can be avoided.
[0013] With reference to the first aspect, in a possible project, the obtaining, by the first terminal, of configuration information of the grouping of return resources includes:
obtain, by the first terminal, the configuration information of the grouping of return resources from a network side; or
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5/44 obtain, by the first terminal, the configuration information of the grouping of return resources by using pre-configured information.
[0014] In this project, the configuration information of the grouping of return resources can be obtained from the network side or can be configured locally in the first terminal in advance, so that the implementations are flexible and diverse.
[0015] With reference to the first aspect, in a possible project, the obtaining, by the first terminal, of configuration information of the grouping of return resources includes:
obtain, by the first terminal, at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information grouping of return resources.
[0016] With reference to the first aspect, in a possible project, including:
an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[0017] With reference to the first aspect, in a possible project, the determination, by the first terminal, of a return resource of the first data includes:
obtain, through the first terminal, time-frequency resource information from the first data; and determine, through the first terminal, the information of
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6/44 time-frequency of the first data return resource based on the time-frequency resource information of the first data.
[0018] In this project, the time-frequency information of the first data return resource is associated with the time-frequency information of the first data, so that the first terminal can quickly determine the time-frequency information of the first data return resource data based on the frequency information of the first data, thus improving the reliability of data transmission.
[0019] With reference to the first aspect, in a possible project, the frequency-frequency resource information of the first data that is obtained by the first terminal includes:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[0020] With reference to the first aspect, in a possible project, the determination, by the first terminal, of a return resource of the first data includes: determining, by the first terminal, the code domain information of the return resource of the first data , including:
obtain, by the first terminal, at least one of the time-frequency resource information of the first data, ID information of the first terminal, and ID information of the second terminal; and determine, by the first terminal, the code domain information of the first data return resource based on at least one
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7/44 information obtained.
[0021] In this project, when the return resource determined by the first terminal conflicts with a return resource from another terminal, the same return channel can be multiplexed in a code division way, to resolve the resource conflict.
[0022] With reference to the first aspect, in a possible project, the sending, by the first terminal, of return information of the first data to the second terminal in the return resource includes:
obtaining, by the first terminal, time domain information used by a third terminal to send second data; and if the first terminal determines that the time domain information of the first data return resource is the same as the time domain information of the second data sent by the third terminal, send, by the first terminal, the return information of the first data data after a delay of k subframes, where k is an integer greater than 0.
[0023] In this project, when the time domain information used by the first terminal to send the first data return information is the same as the time domain information used by the third terminal to send the second data, a conflict of callback feature can be prevented in the previous way, thus improving data return efficiency and improving data transmission reliability.
[0024] According to a second aspect, a method is provided to determine a data return resource,
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8/44 including:
send, through a second terminal, first data to a first terminal;
determine, by the second terminal, a return resource of the first data, where the return resource of the first data is a return resource in a grouping of return resources; and receiving, by the second terminal in the return resource, return information that is from the first data and that is sent by the first terminal, where the return information is used to indicate a reception status of the first data.
[0025] A beneficial effect is as follows: After sending the first data to the first terminal, the second terminal can receive, in the return resource of the first data that is determined in the grouping of return resources, the return information that is from first data and that is sent by the first terminal. Therefore, the second terminal serving as a transmission end can determine, by detecting the feedback, whether the first data sent is received successfully, thus improving the reliability of the data transmission.
[0026] With reference to the second aspect, in a possible project, the determination, by the first terminal, of a return resource of the first data includes: determining, by the first terminal, time-frequency information and / or code domain information of the first data return resource, where the time-frequency information includes the initial location information of a
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Frequency domain, a length of the frequency domain resource, and indication information of a time domain resource, and the code domain information includes a code word used to send the feedback information.
[0027] With reference to the second aspect, in a possible project, the determination, by the second terminal, of a return resource of the first data includes:
obtain, through the second terminal, configuration information of the grouping of return resources; and determining, by the second terminal, the return resource of the first data based on the configuration information of the grouping of return resources.
[0028] In this project, it is simple for the first terminal to determine the return resource of the first data based on the configuration information of the grouping of return resources. The return feature of the first data is determined in advance, so that a return feature conflict can be avoided.
[0029] With reference to the second aspect, in a possible project, the obtaining, by the second terminal, of configuration information of the grouping of return resources includes:
obtain, by the second terminal, the configuration information of the grouping of return resources from one side of the network; or obtain, by the second terminal, the configuration information of the grouping of return resources by using pre-configured information.
[0030] In this project, the configuration information
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10/44 of the grouping of return resources can be obtained from the network side or can be configured locally at the second terminal in advance, so that the
implementations[0031] be flexibleWith reference and diverse. to the second aspect, in one possible project, obtaining, through the second terminal, in information configuration grouping of resources in
return includes:
obtain, by the second terminal, at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information grouping of return resources.
[0032] With reference to the second aspect, in a possible project, including:
an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[0033] With reference to the second aspect, in a possible project, the determination, by the second terminal, of a return resource of the first data includes:
obtain, through the second terminal, time-frequency resource information from the first data; and determining, by the second terminal, the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[0034] In this project, the time information
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11/44 frequency of the first data feedback facility is associated with the time-frequency information of the first data, so that the second terminal can quickly determine the time-frequency information of the feedback data from the first data based on information from frequency of the first data, thus improving the reliability of data transmission.
[0035] With reference to the second aspect, in a possible project, the frequency-frequency resource information that is from the first data and that is obtained by the second terminal includes:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[0036] With reference to the second aspect, in a possible project, the determination, by the second terminal, of a return resource of the first data includes: determining, by the second terminal, the code domain information of the return resource of the first data , including:
obtain, by the second terminal, at least one of the time-frequency resource information of the first data, ID information of the first terminal, and ID information of the second terminal; and determining, by the second terminal, the code domain information of the return resource of the first data based on at least one information obtained.
[0037] In this project, when the return resource determined by the second terminal conflicts with a return resource from another terminal, the same return channel can
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12/44 be multiplexed in a code-split manner, to resolve the resource conflict.
[0038] With reference to the second aspect, in a possible project, the reception, by the second terminal in the return resource, of return information that is from the first data and that is sent by the first terminal includes:
obtaining, by the second terminal, time domain information used by a third terminal to send second data; and if the second terminal determines that the time domain information of the first data return resource is the same as the time domain information used by the third terminal to send the second data, to receive the return information from the second terminal of the first data after a delay of k subframes, where k is an integer greater than 0.
[0039] In this project, when the time domain information used by the second terminal to receive the first data is the same as the time domain information used by the third terminal to send the second data, a return resource conflict can be prevented in the previous way, thus improving efficiency of data return and improving reliability of data transmission.
[0040] According to a third aspect, a device is provided to determine a data return feature, including:
a receiving unit, configured to receive the first data sent by an even device;
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13/44 a processing unit, configured to determine a first data return resource, where the first data return resource is a return resource in a grouping of return resources; and a sending unit, configured to send feedback information from the first data to the even device in the feedback facility, where feedback information is used to indicate a status of receiving the first data.
[0041] With reference to the third aspect, in a possible project, the processing unit is specifically configured for:
determine, by the first terminal, temperature frequency information and / or domain information of the first data return resource code, where the frequency information includes initial location information of a frequency domain resource, a length of the domain resource of the frequency, and information indicating a time domain resource, and the code domain information includes a code word used to send the feedback information.
[0042] With reference to the third aspect, in a possible project, when determining the return resource of the first data, the processing unit is specifically configured for:
obtain configuration information for the grouping of return resources; and determining the return resource of the first data based on the configuration information of the return resource pool.
[0043] With reference to the third aspect, in a
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14/44 possible project, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain the configuration information of the grouping of return resources from a network side; or obtain the configuration information of the grouping of return resources by using pre-configured information.
[0044] With reference to the third aspect, in a possible project, when obtaining the configuration information of the grouping of return resources, the processing unit is configured specifically for:
obtain at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information of the resource pool of resources return.
[0045] With reference to the third aspect, in a possible project, an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[0046] With reference to the third aspect, in a possible project, when determining the return resource of the first data, the processing unit is specifically configured for:
obtain time-frequency resource information from the first data; and determine the resource's time-frequency information
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15/44 first data return based on time-frequency resource information from first data.
[0047] With reference to the third aspect, in a possible project, the frequency-frequency resource information that is from the first data and that is obtained by the processing unit includes:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[0048] With reference to the third aspect, in a possible design, when determining the return resource of the first data, the processing unit is specifically configured to determine the code domain information of the return resource of the first data, including: obtain at least one of the frequency data resource information of the first data, device ID information, and even device ID information; and determining the code domain information of the first data return facility based on at least one information obtained.
[0049] With reference to the third aspect, in a possible project, when sending the return information from the first data to the even device in the return resource, the sending unit is specifically configured for:
obtain time domain information used by another terminal to send second data; and if the processing unit determines that the time domain information of the first data return resource is the same as the time domain information used
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16/44 by the other terminal to send the second data, send the return information of the first data after a delay of k subframes, where k is an integer greater than 0.
[0050] According to a fourth aspect, a device is provided to determine a data return feature, including:
a sending unit, configured to send the first data to an even device;
a processing unit, configured to determine a first data return resource, where the first data return resource is a return resource in a grouping of return resources; and a receiving unit, configured to receive, in the feedback facility, feedback information that is from the first data and that is sent by the even device, where the feedback information is used to indicate a status of reception of the first data.
[0051] With reference to the fourth aspect, in a possible project, the processing unit is specifically configured for:
determining time-frequency information and / or code domain information from the first data return resource, where the time-frequency information includes initial location information of a frequency domain resource, a length of the frequency domain resource , and information indicating a time domain resource, and the code domain information includes a code word used to send the feedback information.
[0052] With reference to the fourth aspect, in a
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17/44 possible project, when determining the return feature of the first data, the processing unit is specifically configured for:
obtain configuration information for the grouping of return resources; and determining the return resource of the first data based on the configuration information of the return resource pool.
[0053] With reference to the fourth aspect, in a possible project, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain the configuration information of the grouping of return resources from a network side; or obtain the configuration information of the grouping of return resources by using pre-configured information.
[0054] With reference to the fourth aspect, in a possible project, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information of the resource pool of resources return.
[0055] With reference to the fourth aspect, in a possible project, an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a
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18/44 grouping of data resources in which the first data is located.
[0056] With reference to the fourth aspect, in a possible project, when determining the return resource of the first data, the processing unit is specifically configured for:
obtain time-frequency resource information from the first data; and determining the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[0057] With reference to the fourth aspect, in a possible project, the frequency-frequency resource information that is from the first data and that is obtained by the processing unit includes:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[0058] With reference to the fourth aspect, in a possible design, when determining the return resource of the first data, the processing unit is specifically configured to determine the code domain information of the return resource of the first data, including:
obtaining at least one of the frequency data resource information from the first data, even device ID information, and device ID information; and determining the code domain information of the first data return facility based on at least one information obtained.
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19/44 [0059] With reference to the fourth aspect, in a possible project, when receiving, in the return resource, the return information that is from the first data and that is sent by the even device, the receiving unit is configured specifically for :
obtaining time domain information used by another terminal to send second data; and if the processing unit determines that the time domain information from the first data return facility is the same as the time domain information used by the other terminal to send the second data, receive the first data return information after a delay of k subframes, where k is an integer greater than 0.
[0060] According to a fifth aspect, a terminal device is provided. A terminal device structure includes a transceiver, a memory and a processor. The memory is configured to store a group of programs,
and the processor is configured to call the Software stored in memory, to execute the method executed through the first terminal on any of the aspects previous.[0061] According to a sixth aspect, it is provided
a terminal device. A terminal device structure includes a transceiver, a memory and a processor. The memory is configured to store a group of programs, and the processor is configured to call the programs stored in memory, to execute the method executed by the second terminal in any of the previous aspects.
[0062] According to a seventh aspect, this application also provides a readable storage medium by
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20/44 computer, configured to store a computer software instruction used to perform functions of the first aspect or any project of the first aspect, where the computer software instruction includes a program designed to execute the method in the first aspect or in any project of the first aspect.
[0063] According to an eighth aspect, this application also provides a computer-readable storage medium, configured to store a computer software instruction used to perform functions of the second aspect or any project of the second aspect, where the software instruction includes a program designed to execute the method in the second aspect or a program designed in the second aspect.
BRIEF DESCRIPTION OF THE DRAWINGS [0064] Figure IA and Figure 1B are schematic diagrams of communication between a vehicle and another node, according to this request;
Figure 2 is a flow chart of a method for determining a data return facility in accordance with this request;
Figure 3A and Figure 3B are schematic diagrams of a return feature according to this request;
Figure 4 is a schematic diagram of a vehicle queue driving scenario according to this application;
Figure 5 is a schematic structural diagram of an apparatus for determining a data return facility in accordance with this application;
Figure 6 is a schematic structural diagram of a device for determining a data return facility in accordance with this application;
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21/44 Figure 7 is a schematic structural diagram of an apparatus for determining a data return facility in accordance with this application; and Figure 8 is a schematic structural diagram of a device for determining a data return facility in accordance with this request.
DESCRIPTION OF THE MODALITIES [0065] The modalities of this request can be applied to a communication from device to device (D2D) and V2X communication, which is not a limitation. A terminal in the modalities of this application can also be referred to as user equipment (UE), a mobile station (MS), a mobile terminal or the like. Optionally, the terminal can be a vehicle, a mobile phone, a tablet-type computer, a personal digital assistant (PDA), a point of sale (POS), a computer in the vehicle, a decoder, or the like.
[0066] In the modalities of this request, V2X communication may include, but is not limited to vehicle to vehicle communication (V2V), vehicle to infrastructure communication (V2I), vehicle to pedestrian communication (V2P) and vehicle communication to network (V2N). V2I communication can include, but is not limited to, communication between a vehicle and a base station, communication between a vehicle and a roadside unit, and communication between a vehicle and a communication module at a traffic light.
[0067] In a V2X system, a vehicle usually communicates with another node in two ways. In a first way, as shown in Figure IA, a vehicle sends vehicle status information to another nearby vehicle
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22/44 in a broadcast way, in which case a base station does not need to forward data. This form of communication is similar to that in a D2D system. In a second way, as shown in Figure 1B, data from a vehicle is forwarded using a base station, in which case the vehicle first sends the data to the base station and then the base station sends the received data to another vehicle or node in a unicast or broadcast manner.
[0068] In Figure IA, a terminal sends data in a D2D broadcast way, and can send data specifically in a mode 1 or a mode 2. In mode 1, a base station allocates a given transmission resource to the terminal. In mode 2, the terminal voluntarily selects a resource from a group of resources configured by the base station or a group of preconfigured resources to perform data transmission.
[00 69] D2D communication is the direct data communication between two terminals and is implemented using a mechanism of a scheduling assignment part (SA) plus a data part (Data). The SA is generally called side link control (SCI) information, and is used to indicate data control information sent from a transmission end, for example, data time-frequency resource information, modulation and coding scheme (MCS), a frequency hop indication, timing advance information, receiving group ID information, data priority information, resource reservation information, and retransmission indication information. The data is service data that is sent through the transmission end
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23/44 at a time-frequency resource location indicated by the SA and in a format indicated by the SA, so that a receiving end can receive the data according to the indication of the SA.
[0070] In the modalities of this request, after receiving the first data sent by a second terminal, a first terminal can send information of return of the first data to the second terminal in a determined return resource of the first data. Therefore, the second terminal serving as a transmission end can determine, by detecting the feedback, whether the first data sent is received successfully, thus improving the reliability of the data transmission.
[0071] With reference to the accompanying drawings, the following describes in detail a solution for determining a data return feature provided in this order.
[0072] As shown in Figure 2, a method for determining a data return facility according to an embodiment of this request includes the following specific procedure.
[0073] Step 21: A first terminal receives first data sent by a second terminal.
[0074] Step 22: The first terminal determines a resource to return the first data.
[0075] The return feature of the first data is a return feature in a grouping of return features. The grouping of feedback resources is a set of time-frequency resources, the grouping of feedback resources includes at least one resource used to transmit feedback information, and a number of domain resources
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24/44 of the frequency in the grouping of return resources is determined based on a number of subchannels in a grouping of data resources in which the first data is located.
[0076] That the first terminal determines a first data return resource includes: determining, by the first terminal, time-frequency information and / or code domain information of the first data return resource, where the time- frequency includes initial location information for a frequency domain resource, a length of the frequency domain resource, and indication information for a time domain resource, and the code domain information includes a code word used to send the return information.
[0077] Specifically, the first terminal can determine the return capability of the first data in a way that is not limited to the following two implementations. In addition, the first terminal can determine the return capability of the first data by combining the following two implementations.
[0078] In a first implementation, the first terminal obtains configuration information from the grouping of return resources; and determines the return resource of the first data based on the configuration information of the return resource pool.
[0079] It should be noted that the first terminal can obtain the configuration information of the grouping of return resources in the following two cases.
[0080] In a first case, the first terminal obtains
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25/44 the configuration information of the grouping of return resources from a network side. For example, the first terminal can obtain the configuration information of the grouping of return resources from a network side device, such as a base station or a central controller on the network side.
[0081] In a second case, the first terminal obtains the configuration information of the grouping of return resources by using pre-configured information. In this case, the terminal obtains the configuration information of the grouping of return resources from pre-configured information of the terminal.
[0082] That the first terminal obtains configuration information from the grouping of return resources specifically includes: obtaining, by the first terminal, at least one initial location information of a frequency domain resource, length information of the frequency domain resource , time domain subframe displacement information, and subframe bitmap information of the grouping of return resources.
[0083] In a second implementation, the first terminal obtains time-frequency resource information from the first data; and determines the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[0084] In the second implementation, a time-frequency location of the return resource is determined based on a corresponding time-frequency location of the first data received. Specifically, the first
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26/44 data received includes two parts: SA and service data. The time-frequency location of the return resource is determined on the basis of a corresponding time-frequency resource carrying SCI of the first data or based on a corresponding time-frequency resource carrying the service data of the first data received. Specifically, Figure 3A and Figure 3B are schematic diagrams of a correspondence between a return resource and a time-frequency resource of the first data.
[0085] It should be noted that the time-frequency resource information of the first data that is obtained by the first terminal includes information about the time-frequency resource carrying the SCI of the first data and / or information about the time-frequency resource carrying the data. service data of the first data.
[0086] In this implementation, there is a correspondence between a return resource and a time-frequency resource of the first data corresponding to the return resource. In other words, the time-frequency location of the callback resource can be determined based on the time-frequency location of the first data. An example of a possible implementation is as follows:
it is assumed that an index of a subchannel in a subframe ism (m = 0, 1, 2, ..., or Ml), M is a total number of subchannels in the subframe, an index of a return resource én (n = 0, 1, 2, ..., or Nl), and N is a total amount of return resources in the subframe.
[0087] Specifically, in a process of determining a frequency domain resource,
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27/44 if Μ = N, each subchannel corresponds to a return resource, that is, n = m; or if Μ = 2N, each two subchannels correspond to a return feature, that is, n = [m / 2], where | m / 2] indicates that m / 2 is rounded down.
[0088] By analogy, if M = k χ N, where k indicates an integer greater than or equal to 1, each k subchannels corresponds to a return resource, that is, n = Lm / kJ.
[0089] Specifically, in a process of determining a time domain resource, if a user receives the first data in a subframe t, the user sends the return information in a subframe (t + a), where a is a predefined integer greater than 0, and optionally ak 4.
[0090] It is worth noting that, in this order, a plurality of return channels can be multiplexed into a return resource in a code-splitting manner. Therefore, when determining the first data return facility, the first terminal must further determine the code domain information of the first data return facility, and a specific process is as follows:
the first terminal obtains at least one of the time-frequency resource information from the first data, ID information from the first terminal, and ID information from the second terminal; and determines the code domain information of the first data return resource based on at least one information obtained.
[0091] When a plurality of return channels can be multiplexed into a return resource in a code split way, an example of an implementation
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Possible 28/44 is as follows:
assuming that a total amount of code-breaking resources in a return resource is P, and P is a positive integer greater than 0, a return resource p (p = 0, 1, ... or P - 1) of a specific user can be determined using the following expression:
p = f (Res _dad0S , UE ID _tx , UE ID _rx ), where p = f (x, y, z) indicates that p is a function of the input variables x, y and z, Resaados indicates a location's frequency frequency location data, USIDtx indicates an ID of a data transmission end, and USID _rx indicates an ID of a data receiving end.
[0092] In addition, the p return feature can be determined alternatively using the following expression:
p = mod (UE ID _rx , P), where mod () indicates a module operation.
[0093] Alternatively, the p return feature can be determined using the following expression:
p = mod (UE lD _tx , P).
[0094] Alternatively, the p return feature can be determined using the following expression:
p = mod (m, P), where m (m = 0, 1, 2, ... or M - 1) indicates an index of a domain subchannel of the lowest frequency occupied by the first data received.
[0095] Step 23: The first terminal sends return information from the first data to the second terminal in the return resource, where the return information is used to indicate a status of reception of the first data.
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29/44 [0096] Specifically, if the first terminal successfully receives the first data, the first terminal sends an acknowledgment message (ACK) to the second terminal or if the first terminal does not receive data, the first terminal does not send the information return to the second terminal.
[0097] Alternatively, the first terminal sends the return information of the first data to the second terminal in the return resource, where the return information is used to describe the channel quality of a transmission channel of the first data.
[0098] In addition, when sending the return information of the first data to the second terminal in the return resource, the first terminal obtains time domain information used by a third terminal to send second data; and if the first terminal determines that the time domain information of the first data return resource is the same as the time domain information used by the third terminal to send the second data, the first terminal sends the return information of the first data data after a delay of k subframes, where k is an integer greater than 0.
[0099] Specifically, the second data sent by the third terminal can be service data or can be return information.
[00100] For example, when terminal A sends return information to terminal Β, terminal A obtains time domain information used by terminal C to send data, where terminal C is, for example, a first vehicle in a row of vehicles. If a subframe in the
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30/44 which terminal A sends a return resource is the same as a subframe in which terminal C sends data, terminal A sends return information after a delay of k subframes (k is an integer greater than 0 ).
[00101] According to the method for determining a data return resource on a vehicle internet, after receiving the first data, the first terminal serving as a receiving end determines the return resource of the first data, and sends, in the given feedback facility, the feedback information from the first data to the second terminal serving as a transmission end. Therefore, the second terminals serving as the transmission end can determine whether the first data sent is received successfully, thereby improving the reliability of the data transmission.
[00102] The method for determining a data return resource on a vehicle internet can be applied to a process of selecting a resource for the first vehicle in a vehicle queue driving scenario in Figure 4.
[00103] In the vehicle queue driving scenario, the first vehicle periodically disseminates information about the first vehicle, such as a location, a direction and a speed, and a receiving end does not need to send a return for the information. In addition, the first vehicle is responsible for managing an entire vehicle row, for example, controlling the speed of a vehicle row, the distance from the vehicle, the joining of another vehicle in the vehicle row, and the exit of a vehicle at from the vehicle queue. Therefore, the first vehicle needs to communicate with other members in the vehicle queue in a way that
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31/44 unidiffusion or diffusion, and requires returns from members in the vehicle queue.
[00104] The first vehicle sends, in two ways, the information that needs to be returned.
[00105] A first way is to send it periodically. For example, the first vehicle periodically sends vehicle distance information, vehicle speed information, and acceleration and deceleration information. For information sent periodically, a monitoring process, a selection process and the like in the existing V2X can be used, and the details are not described here.
[00106] A second way is sending triggered by an event. For example, when the first vehicle receives a request to join another vehicle that is not in the vehicle queue, the first vehicle must respond to the request. Alternatively, when the first vehicle receives a request to leave a vehicle in the vehicle queue, the first vehicle must respond to the request.
[00107] There can be the following ways for a message sent triggered by an event:
in a possible implementation, when a terminal sends data information that needs to be returned, resource reselection is triggered, and the terminal selects an available resource for sending data;
in another possible implementation, a resource is reserved for the transmission of data information that needs to be returned. Specifically, the network side presets resources for transmitting data information that needs to be returned, and sends configuration information to
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32/44 pre-configured features to the terminal. The terminal receives the configuration information, obtains the preconfigured resources based on the configuration information, and selects a resource from the preconfigured resources to transmit the data information.
[00108] The method for determining a data return resource on a vehicle's internet can also be applied to a process of selecting a resource for another vehicle other than the first vehicle in a vehicle queue driving scenario.
[00109] In the vehicle queue driving scenario, when a vehicle other than the first vehicle in a vehicle queue reselects a feature, a feature used by the first vehicle needs to be considered, and a subframe used by the first vehicle needs to be avoided for selecting a resource by the other vehicle, thus avoiding a problem that information about the first vehicle cannot be received due to a half-duplex problem.
[00110] When the terminal selects a resource, resources that need to be excluded in a resource selection window include:
1. a resource reserved by the first vehicle in the selection window; and
2. a feature that is pre-configured in the selection window or configured by the base station and that can be used by the first vehicle to transmit data.
[00111] In a process in which the terminal selects a resource, a subframe that can be used by the first vehicle is excluded, thereby avoiding a case in which the terminal cannot receive data from the first vehicle because
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33/44 the terminal and the first vehicle transmit data in the same subframe.
[00112] In the modalities of this application, functional units of the terminal can be divided based on the example of the previous method. For example, the terminal can be divided into functional units based on the corresponding functions or two or more functions can be integrated into a processing unit. The integrated unit can be implemented in a form of hardware or it can be implemented in the form of a functional software unit. It should be noted that, in the modalities of this application, the division of units is an example, and is merely a division of logical functions. During actual implementation, there may be another way of splitting.
[00113] When an integrated unit is used, Figure 5 is a schematic structural diagram of an apparatus for determining a data return feature according to an embodiment of this order. Referring to Figure 5, apparatus 500 includes a receiving unit 501, a processing unit 502 and a sending unit 503.
[00114] The receiving unit 501 is configured to receive the first data sent by an even device.
[00115] The processing unit 502 is configured to determine a return resource of the first data, where the return resource of the first data is a return resource in a grouping of return resources.
[00116] The sending unit 503 is configured to send feedback information from the first data to the even device in the feedback facility, where feedback information is used to indicate a reception status of the
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34/44 first data.
[00117] Optionally, processing unit 502 is configured specifically for:
determine, by the first terminal, temperature frequency information and / or domain information of the first data return resource code, where the temperature frequency information includes the initial location information of a frequency domain resource, a length of the domain resource of the frequency, and information indicating a time domain resource, and the code domain information includes a code word used to send the feedback information.
[00118] Optionally, when determining the return feature of the first data, the processing unit 502 is specifically configured for:
obtain configuration information for the grouping of return resources; and determining the return resource of the first data based on the configuration information of the return resource pool.
[00119] Optionally, when obtaining the configuration information of the grouping of return resources, the processing unit 502 is configured specifically for:
obtain the configuration information of the grouping of return resources from a network side; or obtain the configuration information of the grouping of return resources by using pre-configured information.
[00120] Optionally, when obtaining the configuration information of the grouping of return resources, the processing unit 502 is specifically configured for:
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35/44 obtaining at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and cluster subframe bitmap information return resources.
[00121] Optionally, an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[00122] Optionally, when determining the return feature of the first data, the processing unit 502 is specifically configured for:
obtain time-frequency resource information from the first data; and determining the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[00123] Optionally, the time-frequency resource information that is from the first data and that is obtained by the processing unit 502 includes:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[00124] Optionally, when determining the return resource of the first data, the processing unit 502 is specifically configured to determine the code domain information of the return resource of the first
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36/44 data, including:
obtaining at least one of the frequency data resource information of the first data, device ID information 500 and even device ID information; and determining the code domain information of the first data return facility based on at least one information obtained.
[00125] Optionally, when sending the return information of the first data to the even device in the return resource, the sending unit 503 is specifically configured for:
obtaining time domain information used by another terminal to send second data; and if the processing unit 502 determines that the time domain information of the first data return resource is the same as the time domain information used by the other terminal to send the second data, send the first data return information after a delay of k subframes, where k is an integer greater than 0.
[00126] It should be noted that, in this embodiment of this request, processing unit 502 can be implemented as a processor, receiving unit 501 can be implemented as a receiver, sending unit 503 can be implemented as a transmitter, and the receiver and the transmitter can be combined into a transceiver for implementation. As shown in Figure 6, a device 600 for determining a data feedback feature can include a 610 processor, a transceiver 620 and a memory 630. Memory 630 can be configured to store a preinstalled program / code when device 600 is
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37/44 delivered from a factory, and can also store code and the like used to run the 610 processor.
[00127] The 610 processor can be configured to perform a related operation using a general purpose CPU, a microprocessor, an ASIC, or one or more integrated circuits, to implement the technical solutions provided in the modalities of the present invention.
[00128] It should be noted that, although device 600 shown in Figure 6 only shows processor 610, transceiver 620 and memory 630, in a specific implementation process, a person skilled in the art should understand that device 600 includes another component needed to implement normal execution. In addition, a person skilled in the art should understand that, according to specific requirements, the device 600 may further include a hardware component to implement another additional function. In addition, a person skilled in the art should understand that the device can include only components or modules that are necessary to implement the modalities of the present invention, and does not need to include all the components shown in Figure 6.
[00129] Figure 7 is a schematic structural diagram of an apparatus for determining a data return feature according to one embodiment of this request. Referring to Figure 7, apparatus 700 includes a sending unit 701, a processing unit 702 and a receiving unit 703.
[00130] The sending unit 701 is configured to send the first data to an even device.
[00131] The processing unit 702 is configured
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38/44 to determine a first data callback feature, where the first data callback feature is a callback feature in a grouping of callback features.
[00132] Receiving unit 703 is configured to receive, in the return resource, return information that is from the first data and that is sent by the even device, where the return information is used to indicate a reception status of the first data .
[00133] Optionally, processing unit 702 is configured specifically for:
determining time-frequency information and / or code domain information from the first data return resource, where the time-frequency information includes initial location information of a frequency domain resource, a length of the frequency domain resource , and information indicating a time domain resource, and the code domain information includes a code word used to send the feedback information.
[00134] Optionally, when determining the return feature of the first data, the processing unit 702 is specifically configured for:
obtain configuration information for the grouping of return resources; and determining the return resource of the first data based on the configuration information of the return resource pool.
[00135] Optionally, when obtaining the configuration information of the grouping of return resources, the processing unit 702 is configured specifically for:
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39/44 obtain the configuration information of the grouping of return resources from one side of the network; or obtain the configuration information of the grouping of return resources by using pre-configured information.
[00136] Optionally, when obtaining the configuration information of the grouping of return resources, the processing unit 702 is configured specifically for:
obtain at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information of the resource pool of resources return.
[00137] Optionally, an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[00138] Optionally, when determining the return feature of the first data, the processing unit 702 is specifically configured for:
obtain time-frequency resource information from the first data; and determining the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[00139] Optionally, the time-frequency resource information that is from the first data and that is obtained by the processing unit 702 includes:
information about a time-frequency resource
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40/44 carrying SCI of the first data and / or information about a time-frequency resource carrying service data of the first data.
[00140] Optionally, when determining the return resource of the first data, the processing unit 702 is specifically configured to determine the code domain information of the return resource of the first data, including:
obtaining at least one of the frequency data resource information from the first data, even device ID information, and device ID information; and determining the code domain information of the first data return facility based on at least one information obtained.
[00141] Optionally, when receiving, in the return resource, the return information that is from the first data and that is sent by the even device, the receiving unit 703 is specifically configured for:
obtaining time domain information used by another terminal to send second data; and if processing unit 702 determines that the time domain information of the first data return resource is the same as the time domain information used by the other terminal to send the second data, to receive the first data return information after a delay of k subframes, where k is an integer greater than 0.
[00142] It should be noted that, in this embodiment of this request, the processing unit 702 can be implemented as a processor, the receiving unit 703 can be implemented
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41/44 implemented as a receiver, sending unit 701 can be implemented as a transmitter, and the receiver and transmitter can be combined into a transceiver for implementation. As shown in Figure 8, a device 800 for determining a data return feature can include an 810 processor, an 820 transceiver and an 830 memory. The 830 memory can be configured to store a preinstalled program / code when the 800 device it is delivered from a factory, and can even store code and the like used to run the 810 processor.
[00143] The 810 processor can be configured to perform a related operation using a general purpose CPU, a microprocessor, an ASIC, or one or more integrated circuits, to implement the technical solutions provided in the modalities of the present invention.
[00144] It should be noted that, although device 800 shown in Figure 8 only shows processor 810, transceiver 820 and memory 830, in a specific implementation process, a person skilled in the art must understand that device 800 includes another component needed to implement normal execution. In addition, a person skilled in the art should understand that, according to specific requirements, the device 800 may also include a hardware component to implement another additional function. In addition, a person skilled in the art must understand that the device can include only components or modules that are necessary to implement the modalities of the present invention, and does not need to include all the components shown in Figure 8.
[00145] One modality of this request also provides a
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42/44 computer-readable storage medium, configured to store a computer software instruction used to perform operations that need to be performed by the processor. Computer software instructions include a program used to perform the operations that need to be performed by the processor.
[00146] A person skilled in the art must understand that the modalities of this application can be provided as a method, a system or a computer program product. Therefore, this application may use a form of hardware-only modalities, software-only modalities or modalities with a combination of software and hardware. In addition, that order may use the form of a computer program product implemented on one or more storage media usable by a computer (including, but not limited to, storage on magnetic disk, CD-ROM and optical memory) that include program usable by computer.
[00147] This order is described with reference to the flowcharts and / or block diagrams of the method, the device (system) and the computer program product according to this order. It should be understood that computer program instructions can be used to implement each process and / or each block in flowcharts and / or block diagrams and a combination of a process and / or a block in flowcharts and / or block diagrams . These computer program instructions can be provided for a general purpose computer, a special purpose computer, an embedded processor, or a processor for any other data processing device
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43/44 programmable to generate a machine, so that the instructions executed by a computer or processor of any other programmable data processing device generates a device to implement a specific function in one or more processes in the flowcharts and / or in one or more blocks in the block diagrams.
[00148] These computer program instructions can be stored in a computer-readable memory that can instruct the computer or any other programmable data processing device to work in a specific way, so that the instructions stored in the computer-readable memory generate an artifact that includes an instructional apparatus. The instruction apparatus implements a function specified in one or more processes in the flowcharts and / or in one or more blocks in the block diagrams.
[00149] These computer program instructions can also be loaded onto a computer or other programmable data processing device, so that a series of operations and steps are performed on the computer or on another programmable device, thus generating processing implemented by computer. Therefore, instructions executed on the computer or the other programmable device provide steps to implement a function specified in one or more processes in the flowcharts and / or in one or more blocks in the block diagrams.
[00150] Obviously, a person skilled in the art can make several modifications and variations to this request without departing from the spirit and scope of this request. This order is intended to cover these modifications and variations of this order,
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44/44 provided that they fall within the scope of protection defined by the following claims of this application and its equivalent technologies.

权利要求:
Claims (44)
[1]
AMENDED CLAIMS
1. Method for determining a data return feature, characterized by the fact that it comprises:
receiving, by a first terminal, first data sent by a second terminal;
determine, by the first terminal, a return resource of the first data, in which the return resource of the first data is a return resource in a grouping of return resources; and sending, through the first terminal, return information from the first data to the second terminal in the return resource, where the return information is used to indicate a reception status of the first data.
[2]
2. Method, according to claim 1, characterized by the fact that the determination, by the first terminal, of a return resource of the first data comprises: determining, by the first terminal, temperature frequency information and / or code domain information the first data return resource, where the frequency-frequency information comprises initial location information for a frequency domain resource, a length of the frequency domain resource, and indication information for a time domain resource, and the code domain information comprises a code word used to send the feedback information.
[3]
3. Method, according to claim 2, characterized by the fact that the determination, by the first terminal, of a return resource of the first data comprises:
obtain, through the first terminal, configuration information of the grouping of return resources; and
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2/15 determine, by the first terminal, the return resource of the first data based on the configuration information of the group of return resources.
[4]
4. Method, according to claim 3, characterized by the fact that the obtaining, by the first terminal, of configuration information of the grouping of return resources comprises:
obtain, by the first terminal, the configuration information of the grouping of return resources from a network side; or obtain, by the first terminal, the configuration information of the grouping of return resources by using pre-configured information.
[5]
5. Method, according to claim 3 or 4, characterized by the fact that obtaining, by the first terminal, configuration information from the grouping of return resources comprises:
obtaining at least one of the initial location information of a frequency domain resource from the first terminal, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information grouping of return resources.
[6]
6. Method according to any one of claims 1 to 5, characterized by the fact that:
an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[7]
7. Method according to any one of the claims
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3/15
2 to 6, characterized by the fact that the determination, by the first terminal, of a return resource of the first data comprises:
obtain, through the first terminal, time-frequency resource information from the first data; and determining, by the first terminal, the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[8]
8. Method, according to claim 7, characterized by the fact that the time-frequency resource information of the first data that is obtained by the first terminal comprises:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[9]
9. Method according to any one of claims 2 to 6, characterized by the fact that the determination, by the first terminal, of the code domain information of the first data return resource, comprises:
obtain, by the first terminal, at least one of the time-frequency resource information of the first data, ID information of the first terminal, and ID information of the second terminal; and determining, by the first terminal, the code domain information of the first data return resource based on at least one information obtained.
[10]
10. Method according to any one of claims 1 to 9, characterized by the fact that the shipment, by the first
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4/15 terminal, return information from the first data to the second terminal in the return resource comprises:
obtaining, by the first terminal, time domain information used by a third terminal to send second data; and if the first terminal determines that the time domain information of the first data return resource is the same as the time domain information of the second data sent by the third terminal, send, by the first terminal, the return information of the first data data after a delay of k subframes, where k is an integer greater than 0.
[11]
11. Method for determining a data return feature, characterized by the fact that it comprises:
send, through a second terminal, first data to a first terminal;
determine, by the second terminal, a return resource of the first data, in which the return resource of the first data is a return resource in a grouping of return resources; and receiving, by the second terminal in the return resource, return information that is from the first data and that is sent by the first terminal, in which the return information is used to indicate a reception status of the first data.
[12]
12. Method, according to claim 11, characterized by the fact that the determination, by the second terminal, of a return resource of the first data comprises: determining, by the second terminal, time-frequency information and / or domain information code
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5/15 first data return resource, in which the time-frequency information comprises the initial location information of a frequency domain resource, a length of the frequency domain resource, and indication information of a domain domain resource time, and the code domain information comprises a code word used to send the feedback information.
[13]
13. Method, according to claim 12, characterized by the fact that the determination, by the second terminal, of a return resource of the first data comprises:
obtain, through the second terminal, configuration information of the grouping of return resources; and determining, by the second terminal, the return resource of the first data based on the configuration information of the grouping of return resources.
[14]
14. Method, according to claim 13, characterized by the fact that obtaining, by the second terminal, configuration information of the grouping of return resources comprises:
get, for the second terminal, The information in configuration resource pooling in return from on one side of the network; orget for the second terminal, The information in configuration grouping of resources return per
use pre-configured information.
[15]
15. Method, according to claim 13 or 14, characterized by the fact that obtaining, by the second terminal, configuration information of the grouping of return resources comprises:
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6/15 obtain, by the second terminal, at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe displacement information, and subframe bits of the grouping of return resources.
[16]
16. Method according to any of the claims
11 to 15, characterized by the fact that:
an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[17]
17. Method according to any of the claims
12 to 16, characterized by the fact that the determination, by the second terminal, of a return resource of the first data comprises:
obtain, through the second terminal, time-frequency resource information from the first data; and determining, by the second terminal, the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[18]
18. Method, according to claim 17, characterized by the fact that the time-frequency resource information that is from the first data and that is obtained by the second terminal comprises:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
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7/15
[19]
19. Method according to any one of claims 12 to 16, characterized by the fact that the determination, by the second terminal, of the code domain information of the first data return resource, comprises:
obtain, by the second terminal, at least one of the time-frequency resource information of the first data, ID information of the first terminal, and ID information of the second terminal; and determining, by the second terminal, the code domain information of the return resource of the first data based on at least one information obtained.
[20]
20. Method according to any one of claims 11 to 19, characterized in that the reception, by the second terminal in the return resource, of return information that is from the first data and that is sent by the first terminal comprises:
obtaining, by the second terminal, time domain information used by a third terminal to send second data; and if the second terminal determines that the time domain information of the first data return resource is the same as the time domain information of the second data sent by the third terminal, receive, by the second terminal, the return information of the first data data after a delay of k subframes, where k is an integer greater than 0.
[21]
21. Device for determining a data return feature, characterized by the fact that it comprises:
a receiving unit, configured to receive the first data sent by an even device;
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8/15 a processing unit, configured to determine a first data return resource, where the first data return resource is a return resource in a grouping of return resources; and a sending unit, configured to send feedback information from the first data to the even device in the feedback facility, where feedback information is used to indicate a status of receiving the first data.
[22]
22. Device according to claim 21, characterized by the fact that the processing unit is specifically configured for:
determine time-frequency information and / or code domain information from the first data return resource, wherein the time-frequency information comprises initial location information of a frequency domain resource, a length of the domain resource of the frequency, and information indicating a time domain resource, and the code domain information comprises a code word used to send the feedback information.
[23]
23. Device according to claim 22, characterized by the fact that, when determining the return feature of the first data, the processing unit is specifically configured for:
obtain configuration information for the grouping of return resources; and determining the return resource of the first data based on the configuration information of the return resource pool.
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9/15
[24]
24. Device according to claim 23, characterized by the fact that, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain the configuration information of the grouping of return resources from a network side; or obtain the configuration information of the grouping of return resources by using pre-configured information.
[25]
25. Device according to claim 23 or 24, characterized by the fact that, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information of the resource pool of resources return.
[26]
26. Device according to any one of claims 21 to 25, characterized by the fact that:
an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[27]
27. Device according to any one of claims 22 to 26, characterized in that, when determining the return feature of the first data, the processing unit is specifically configured for:
obtain time-frequency resource information from the first data; and
Petition 870190093911, of 9/19/2019, p. 86/93
10/15 determine the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[28]
28. Device according to claim 27, characterized by the fact that the time-frequency resource information that is from the first data and that is obtained by the processing unit comprises:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[29]
29. Device according to any one of claims 22 to 26, characterized in that when determining the return resource of the first data, the processing unit is configured specifically to determine the code domain information of the return resource of the first data, comprising:
obtaining at least one of the frequency data resource information from the first data, device ID information, and even device ID information; and determining the code domain information of the first data return facility based on at least one information obtained.
[30]
30. Device according to any one of claims 21 to 29, characterized by the fact that when sending the return information from the first data to the even device in the return resource, the sending unit is specifically configured for:
obtaining time domain information used by another terminal to send second data; and
Petition 870190093911, of 9/19/2019, p. 87/93
11/15 if the processing unit determines that the time domain information of the first data return resource is the same as the time domain information used by the other terminal to send the second data, send the first data return information data after a delay of k subframes, where k is an integer greater than 0.
[31]
31. Device for determining a data return feature, characterized by the fact that it comprises:
a sending unit, configured to send the first data to an even device;
a processing unit, configured to determine a first data return resource, where the first data return resource is a return resource in a grouping of return resources; and a receiving unit, configured to receive, in the return resource, return information that is from the first data and that is sent by the even device, in which the return information is used to indicate a reception status of the first data.
[32]
32. Device according to claim 31, characterized by the fact that the processing unit is specifically configured for:
determine time-frequency information and / or code domain information from the first data return resource, wherein the time-frequency information comprises initial location information of a frequency domain resource, a length of the domain domain resource frequency, and information indicating a time domain resource, and the code domain information comprises a code word used to send
Petition 870190093911, of 9/19/2019, p. 88/93
12/15 the return information.
[33]
33. Device according to claim 32, characterized by the fact that, when determining the return feature of the first data, the processing unit is specifically configured for:
obtain configuration information for the grouping of return resources; and determining the return resource of the first data based on the configuration information of the return resource pool.
[34]
34. Device according to claim 33, characterized by the fact that, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain the configuration information of the grouping of return resources from a network side; or obtain the configuration information of the grouping of return resources by using pre-configured information.
[35]
35. Device according to claim 33 or 34, characterized by the fact that, when obtaining the configuration information of the grouping of return resources, the processing unit is specifically configured for:
obtain at least one of the initial location information of a frequency domain resource, length information of the frequency domain resource, time domain subframe offset information, and subframe bitmap information of the resource pool of resources return.
[36]
36. Device according to any one of claims 31 to 35, characterized by the fact that:
Petition 870190093911, of 9/19/2019, p. 89/93
13/15 an amount of frequency domain resources in the grouping of return resources is determined based on an amount of subchannels in a grouping of data resources in which the first data is located.
[37]
37. Device according to any of claims 32 to 36, characterized by the fact that, when determining the return feature of the first data, the processing unit is specifically configured for:
obtain time-frequency resource information from the first data; and determining the time-frequency information of the first data return resource based on the time-frequency resource information of the first data.
[38]
38. Device according to claim 37, characterized by the fact that the time-frequency resource information that is from the first data and that is obtained by the processing unit comprises:
information about a time-frequency resource carrying SCI from the first data and / or information about a time-frequency resource carrying service data from the first data.
[39]
39. Device according to any one of claims 32 to 36, characterized in that, in determining the return resource of the first data, the processing unit is specifically configured to determine the code domain information of the return resource of the first data, comprising:
obtaining at least one of the frequency data resource information from the first data, even device ID information, and device ID information; and
Petition 870190093911, of 9/19/2019, p. 90/93
14/15 determining the code domain information of the first data return resource based on at least one information obtained.
[40]
40. Device according to any one of claims 31 to 39, characterized by the fact that when receiving, in the return resource, the return information that is from the first data and that is sent by the even device, the receiving unit is configured specifically for:
obtaining time domain information used by another terminal to send second data; and if the processing unit determines that the time domain information from the first data return facility is the same as the time domain information used by the other terminal to send the second data, receive the first data return information after a delay of k subframes, where k is an integer greater than 0.
[41]
41. Non-transitory computer readable medium, characterized by the fact that it stores computer instructions that, when executed by one or more processors, cause the one or more processors to execute the steps of any of the methods as defined in any of the claims 1 to 10.
[42]
42. Non-transitory computer readable medium, characterized by the fact that it stores computer instructions that, when executed by one or more processors, cause the one or more processors to execute the steps of any of the methods as defined in any of the claims 11 to 20.
[43]
43. Device, characterized by the fact that it comprises: one or more processors;
Petition 870190093911, of 9/19/2019, p. 91/93
15/15 a non-transitory memory for storing computer instructions which, when executed by one or more processors, cause the apparatus to perform the steps of any of the methods as defined in any one of claims 1 to 10.
[44]
44. Device, characterized by the fact that it comprises: one or more processors;
a non-transitory memory for storing computer instructions which, when executed by one or more processors, cause the apparatus to perform the steps of any of the methods as defined in any of claims 11 to 20.

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同族专利:

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WO2018171563A1|2018-09-27|

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法律状态:
2021-10-19| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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CN201710166177.2A|CN108631968B|2017-03-20|2017-03-20|Method and device for determining data feedback resources|

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PCT/CN2018/079505|WO2018171563A1|2017-03-20|2018-03-19|Method and device for determining data feedback resources|

---