CN108631952B - Feedback information transmission method, terminal equipment and access network equipment - Google Patents

Feedback information transmission method, terminal equipment and access network equipment Download PDF

Info

Publication number
CN108631952B
CN108631952B CN201710184450.4A CN201710184450A CN108631952B CN 108631952 B CN108631952 B CN 108631952B CN 201710184450 A CN201710184450 A CN 201710184450A CN 108631952 B CN108631952 B CN 108631952B
Authority
CN
China
Prior art keywords
time unit
time
carrier
unit
access network
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201710184450.4A
Other languages
Chinese (zh)
Other versions
CN108631952A (en
Inventor
鲁振伟
刘德平
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huawei Technologies Co Ltd
Original Assignee
Huawei Technologies Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Huawei Technologies Co Ltd filed Critical Huawei Technologies Co Ltd
Priority to CN201710184450.4A priority Critical patent/CN108631952B/en
Priority to PCT/CN2018/079344 priority patent/WO2018171530A1/en
Publication of CN108631952A publication Critical patent/CN108631952A/en
Application granted granted Critical
Publication of CN108631952B publication Critical patent/CN108631952B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • H04L1/1607Details of the supervisory signal

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

A feedback information transmission method, a terminal device, an access network device and a system are provided, the method comprises the following steps: the access network equipment transmits first data with the terminal equipment in a first time unit of a first carrier; the access network equipment determines a second time unit of a second carrier according to the first time unit, the first parameter and the first time length, wherein the time length of the first time unit is different from the time length of the second time unit; and the access network equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission state of the first data. Therefore, the access network equipment and the terminal equipment can finish the transmission of data and feedback information when the time unit lengths of the first carrier and the second carrier are different, and the flexibility of cross-carrier feedback is improved.

Description

Feedback information transmission method, terminal equipment and access network equipment
Technical Field
Embodiments of the present application relate to communication systems, and in particular, to a data transmission method, a terminal device, and an access network device.
Background
In a Frequency Division Duplex (FDD) system, cross-carrier feedback is a technique for transmitting feedback information and data on different carriers. Taking feedback of downlink data as an example, the access network device sends data to the terminal device on a first time unit (e.g., subframe n) of a first carrier, and then the terminal device sends feedback information to the access network device on a second time unit (subframe n + k) of a second carrier, where the parameter k may be a preset parameter, and the time unit length of the first carrier is the same as the time unit length of the second carrier. When the time unit length of the first carrier is different from the time unit length of the second carrier, the existing cross-carrier scheduling cannot be performed.
Therefore, there is a need for a method for transmitting data and feedback information between carriers with different time unit lengths.
Disclosure of Invention
Embodiments of the present application provide a feedback information transmission method, a terminal device, and an access network device, which can implement transmission of data and feedback information between carriers with different time unit lengths.
In a first aspect, an embodiment of the present application provides a feedback information transmission method, including: the access network equipment transmits first data with the terminal equipment in a first time unit of a first carrier; the access network device determines a second time unit of a second carrier according to the first time unit, a first parameter and a first time length, wherein the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit; and the access network equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission state of the first data.
In one possible design, the determining, by the access network device, the second time unit of the second carrier according to the first time unit, the first parameter, and the first time length includes: the access network equipment determines that a first time length backward from the termination time of the first time unit is the first time, and the first time length is the first time multiplied by the first parameter; and the access network equipment determines a second time unit of the second carrier according to the first time.
In one possible design, the determining, by the access network device, the second time unit of the second carrier according to the first time includes: and the access network equipment determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a next time unit of the third time unit.
In one possible design, the second time unit is a time unit corresponding to the first time on the second carrier.
In one possible design, the determining, by the access network device, the second time unit of the second carrier according to the first time includes: the access network equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier; the access network device determines that a third time unit of the second carrier wave is shifted backward by a first offset as a second time unit of the second carrier wave, where the first offset is a preset offset.
In one possible design, the access network device determines that a third time unit of the second carrier is shifted backward by a first offset amount as a fourth time unit of the second carrier, where the first offset amount is a preset offset amount; the second time unit is a time unit next to the fourth time unit.
In one possible design, the access network device transmits second data with the terminal device at a fifth time unit of the first carrier; the access network device determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is a time length of the fifth time unit of the first carrier or a time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit; and the access network equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission states of the first data and the second data.
In one possible design, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol; the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fourth time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
In one possible design, the method for transmitting, by the access network device, first data with the terminal device at a first time unit of a first carrier includes: the method for sending first data to a terminal device by an access network device in a first time unit of a first carrier, and transmitting feedback information between the access network device and the terminal device in a second time unit of a second carrier includes: the access network equipment receives feedback information from the terminal equipment on a second time unit of the second carrier; or the access network device transmits first data with the terminal device at a first time unit of a first carrier, including: the method for receiving, by an access network device, first data from a terminal device at a first time unit of a first carrier, and transmitting, by the access network device, feedback information with the terminal device at a second time unit of a second carrier includes: and the access network equipment sends feedback information to the terminal equipment on a second time unit of the second carrier.
In a second aspect, an embodiment of the present application provides a feedback information transmission method, including: the terminal equipment transmits first data with access network equipment or other terminal equipment in a first time unit of a first carrier; the terminal device determines a second time unit of a second carrier according to the first time unit, a first parameter and a first time length, wherein the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit; and the terminal equipment transmits feedback information with the access network equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission state of the first data.
In one possible design, the determining, by the terminal device, the second time unit of the second carrier according to the first time unit, the first parameter, and the first time length includes: the terminal device determines that a first time length backward from the termination time of the first time unit is the first time, and the first time length is the first time length multiplied by the first parameter; and the terminal equipment determines a second time unit of the second carrier according to the first time.
In one possible design, the determining, by the terminal device, the second time unit of the second carrier according to the first time includes: and the terminal equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier, and the second time unit is the next time unit of the third time unit.
In one possible design, the second time unit is a time unit corresponding to the first time on the second carrier.
In one possible design, the determining, by the terminal device, the second time unit of the second carrier according to the first time includes: the terminal equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier; and the terminal equipment determines that the third time unit of the second carrier wave is shifted backwards by a first offset as the second time unit of the second carrier wave, wherein the first offset is a preset offset.
In one possible design, the terminal device determines that a third time unit of the second carrier is shifted backward by a first offset amount as a fourth time unit of the second carrier, where the first offset amount is a preset offset amount; the second time unit is a time unit next to the fourth time unit.
In one possible design, the method further includes: the terminal equipment transmits second data with the access network equipment at a fifth time unit of the first carrier; the terminal device determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is the time length of the fifth time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit; and the terminal equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission states of the first data and the second data.
In one possible design, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol; the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fourth time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
In one possible design, the terminal device transmits first data with the access network device or other terminal devices at a first time unit of a first carrier, including: the method for transmitting the feedback information between the terminal device and the access network device in the second time unit of the second carrier includes: the terminal equipment receives feedback information from the access network equipment on a second time unit of the second carrier; or the terminal device transmits first data with the access network device or other terminal devices in a first time unit of the first carrier, including: the method for the terminal device to receive the first data from the access network device at the first time unit of the first carrier, and the terminal device to transmit the feedback information with the access network device at the second time unit of the second carrier includes: the terminal equipment sends feedback information to the access network equipment on a second time unit of the second carrier; or the terminal device transmits first data with the access network device or other terminal devices in a first time unit of the first carrier, including: the terminal device sends first data to other terminal devices in a first time unit of a first carrier, and the terminal device transmits feedback information with the access network device in a second time unit of a second carrier, including: and the terminal equipment sends feedback information to the access network equipment on a second time unit of the second carrier.
In a third aspect, an embodiment of the present application provides an access network device, where the access network device includes a transmission unit and a determination unit. A transmission unit, configured to transmit first data with a terminal device at a first time unit of a first carrier; a determining unit, configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, where the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is a time length of the first time unit of the first carrier or a time length of a second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit; the transmission unit is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back a transmission state of the first data.
In one possible design, the determining unit is configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, and includes: the determining unit determines that a first time length backward from the termination time of the first time unit is the first time, and the first time length is the first time length multiplied by the first parameter; the determining unit determines a second time unit of the second carrier according to the first time.
In one possible design, the determining unit determines the second time unit of the second carrier according to the first time, including: the determining unit determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a next time unit of the third time unit.
In one possible design, the second time unit is a time unit corresponding to the first time on the second carrier.
In one possible design, the determining unit determines the second time unit of the second carrier according to the first time, including: the determining unit determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier; the determining unit determines that a third time unit of the second carrier is shifted backward by a first offset amount as a second time unit of the second carrier, where the first offset amount is a preset offset amount.
In one possible design, the determining unit determines that a third time unit of the second carrier is shifted backward by a first offset amount as a fourth time unit of the second carrier, where the first offset amount is a preset offset amount; the second time unit is a time unit next to the fourth time unit.
In one possible design, the transmitting unit is further configured to transmit second data with the terminal device in a fifth time unit of the first carrier; the determining unit determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is a time length of the fifth time unit of the first carrier or a time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit; the transmission unit is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back transmission states of the first data and the second data.
In one possible design, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol; the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fourth time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
In one possible design, the transmitting unit may transmit the first data with the terminal device in a first time unit of the first carrier, including: the transmitting unit sends first data to a terminal device in a first time unit of a first carrier, and the transmitting unit transmits feedback information with the terminal device in a second time unit of a second carrier, including: the transmission unit receives feedback information from the terminal device on a second time unit of the second carrier; or the transmission unit transmits the first data with the terminal device in the first time unit of the first carrier, including: the transmitting unit receives first data from a terminal device in a first time unit of a first carrier, and the transmitting unit transmits feedback information with the terminal device in a second time unit of a second carrier, including: and the transmission unit sends feedback information to the terminal equipment on a second time unit of the second carrier.
In one possible design, the processing unit may be a processor (processor), and the transmission unit may be a transceiver (transceiver).
In a fourth aspect, an embodiment of the present application provides a terminal device, where the terminal device includes a transmission unit and a determination unit. A transmission unit, configured to transmit first data with an access network device or other terminal devices at a first time unit of a first carrier; a determining unit, configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, where the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is a time length of the first time unit of the first carrier or a time length of a second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit; the transmission unit is further configured to transmit feedback information with the access network device at a second time unit of the second carrier, where the feedback information is used to feed back a transmission state of the first data.
In one possible design, the determining unit is configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, and includes: the determining unit determines that a first time length backward from the termination time of the first time unit is the first time, and the first time length is the first time length multiplied by the first parameter; the determining unit determines a second time unit of the second carrier according to the first time.
In one possible design, the determining unit determines the second time unit of the second carrier according to the first time, including: the determining unit determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a next time unit of the third time unit.
In one possible design, the second time unit is a time unit corresponding to the first time on the second carrier.
In one possible design, the determining unit determines the second time unit of the second carrier according to the first time, including: the determining unit determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier; the determining unit determines that a third time unit of the second carrier is shifted backward by a first offset amount as a second time unit of the second carrier, where the first offset amount is a preset offset amount.
In one possible design, the determining unit determines that a third time unit of the second carrier is shifted backward by a first offset amount as a fourth time unit of the second carrier, where the first offset amount is a preset offset amount; the second time unit is a time unit next to the fourth time unit.
In one possible design, the transmitting unit is further configured to transmit second data with the access network device at a fifth time unit of the first carrier; the determining unit determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is a time length of the fifth time unit of the first carrier or a time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit; the transmission unit is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back transmission states of the first data and the second data.
In one possible design, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol; the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fourth time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
In one possible design, the transmitting unit transmits the first data with the access network device or other terminal devices at the first time unit of the first carrier, including: the transmitting unit sends first data to an access network device at a first time unit of a first carrier, and the transmitting unit transmits feedback information with the access network device at a second time unit of a second carrier, including: the transmission unit receives feedback information from the access network device on a second time unit of the second carrier; or the transmitting unit transmits the first data with the access network device or other terminal devices at the first time unit of the first carrier, including: the receiving, by the transmitting unit, first data from an access network device at a first time unit of a first carrier, and transmitting, by the transmitting unit, feedback information with the access network device at a second time unit of a second carrier, includes: the transmission unit sends feedback information to the access network equipment on a second time unit of the second carrier; or the transmitting unit transmits the first data with the access network device or other terminal devices at the first time unit of the first carrier, including: the transmitting unit sends first data to other terminal devices in a first time unit of a first carrier, and the transmitting unit transmits feedback information with the access network device in a second time unit of a second carrier, including: and the transmission unit sends feedback information to the access network equipment on a second time unit of the second carrier.
In one possible design, the processing unit may be a processor and the transmission unit may be a transceiver.
In a fifth aspect, an embodiment of the present application provides a computer storage medium for storing computer software instructions for the access network device, which includes a program designed to execute the above aspects.
In a sixth aspect, an embodiment of the present application provides a computer storage medium for storing computer software instructions for the terminal device, which includes a program designed to execute the above aspects.
Through the scheme, the access network equipment transmits first data with the terminal equipment in the first time unit of the first carrier, the access network equipment determines the second time unit of the second carrier according to the first time unit, the first parameter and the first time length, the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from that of the second time unit, so that the access network equipment and the terminal equipment can finish the transmission of data and feedback information when the time unit lengths of the first carrier and the second carrier are different, and the flexibility of cross-carrier feedback is improved.
Drawings
FIG. 1 is a schematic architecture diagram of a system according to an embodiment of the present application.
Fig. 2 is a schematic diagram of cross-carrier feedback according to an embodiment of the present application.
Fig. 3 is a data transmission method according to an embodiment of the present application.
Fig. 4 is an access network device according to an embodiment of the present application.
Fig. 5 is another access network device according to an embodiment of the application.
Fig. 6 is a terminal device according to an embodiment of the present application.
Fig. 7 is another terminal device according to an embodiment of the application.
Fig. 8 is a cross-carrier feedback information transmission method according to an embodiment of the present application.
Fig. 9 is another cross-carrier feedback information transmission method according to an embodiment of the present application.
Detailed Description
As shown in fig. 1, in the downlink data transmission, the access network device sends data to the terminal device 1 on a first carrier, and then the access network device receives feedback information from the terminal device 1 on a second carrier, where the feedback information is used to indicate a transmission state of the data, that is, whether the terminal device 1 successfully receives the data. In uplink data transmission, the terminal device 1 sends data to the access network on the first carrier, and then the terminal device 1 receives feedback information from the access network device on the second carrier, where the feedback information is used to indicate a transmission state of the data, that is, whether the access network device successfully receives the data. In sidestream data transmission, i.e. Vehicle to Vehicle communication (V2X) or Vehicle to Vehicle communication (V2V), terminal device 1 sends data to terminal device 2 on a first carrier, terminal device 1 sends feedback information to access network device on a second carrier, or terminal device 2 sends feedback information to access network device on a second carrier. The time unit length of the first carrier is different from the time unit length of the second carrier, as shown in fig. 2.
In fig. 2, the time unit of the first carrier or the second carrier may be a subframe, a slot, a micro-slot, or a symbol. The symbol may be a fixed time length, or may be one of a plurality of fixed time lengths, and each of the plurality of fixed time lengths may be a candidate for the time length of the symbol. The length of the subframe is a predefined length of time, e.g. 1 ms. A slot includes several symbols, which may include 7 symbols or 14 symbols, for example. A micro-slot contains at least one symbol and at most one symbol less than the number of symbols contained in the slot.
The access network device referred to in the present application is a device deployed in a radio access network to provide a terminal device with a wireless communication function. The access network device may include various forms of Base Stations (BSs), such as macro or micro Base stations, relay stations or access points, and so on. In systems using different radio access technologies, the name of a device with access network function may be different, for example, it is an access network device in a fifth generation 5G network, in an LTE network, it is called an evolved node B (eNB or eNodeB), in a third generation 3G network, it is called a node B (node B), etc., or a roadside Unit (RSU) in V2V communication. For convenience of description, the above-mentioned apparatus for providing a wireless communication function for a terminal device is referred to as an access network device in this application.
The terminal devices referred to herein may include various handheld devices having wireless communication capabilities, such as vehicle mounted devices, wearable devices, computing devices or other processing devices connected to a wireless modem, a Mobile Station (MS), a terminal (terminal) or User Equipment (UE), and so forth. For convenience of description, the above-mentioned devices are collectively referred to as terminal devices in this application.
Embodiments of the present application are described in more detail below with reference to specific examples.
Fig. 3 is a method and a system for transmitting feedback information according to an embodiment of the present application, which includes the following steps:
step 31, the access network device transmits the first data with the terminal device at the first time unit of the first carrier. Optionally, for downlink data transmission, the access network device sends the first data to the terminal device in the first time unit of the first carrier, and the terminal device receives the first data from the access network device in the first time unit of the first carrier. For uplink data transmission, the terminal device sends first data to the access network device at a first time unit of a first carrier, and the access network device receives the first data from the terminal device at the first time unit of the first carrier.
In step 31', the terminal device transmits the first data with other terminal devices in the first time unit of the first carrier. For V2X sidelink data transmission, the terminal device transmits first data to other terminal devices in the first time unit of the first carrier, and the other terminal devices receive the first data from the terminal devices in the first time unit of the first carrier. Optionally, step 31 'and step 31 are steps in different scenarios (e.g., downlink data transmission, uplink data transmission, and sideline data transmission), and therefore, for different scenarios, the embodiment of fig. 3 only needs to execute step 31 or only needs to execute step 31'.
Step 32, the access network device determines a second time unit of the second carrier according to the first time unit, the first parameter and the first time length.
And step 33, the terminal device determines a second time unit of the second carrier according to the first time unit, the first parameter and the first time length.
In step 32 or step 33, the first parameter is a preset parameter, or the first parameter is included in control information sent by the access network device to the terminal device, or the first parameter is indicated by control information sent by the access network device to the terminal device, the Control Information may be Downlink Control Information (DCI), Radio Resource Control (RRC) signaling or Medium Access Control (MAC) signaling, the Downlink Control Information may include time-frequency domain resources for transmitting data, the first parameter is 0 or a positive integer, the first duration is a time length of a first time unit of the first carrier or a time length of a second time unit of the second carrier, the time length of the first time unit is different from the time length of the second time unit.
In alternative embodiments, the sequence of step 32 and step 33 is not limited.
Step 34, the access network device transmits feedback information with the terminal device at the second time unit of the second carrier, where the feedback information is used to feed back the transmission state of the first data. Optionally, step 34 may be transmission of feedback information in downlink data transmission, that is, the access network device receives the feedback information from the terminal device in the second time unit of the second carrier, and the terminal device sends the feedback information to the access network device in the second time unit of the second carrier; or the transmission of the feedback information in the uplink data transmission is performed, that is, the access network device sends the feedback information to the terminal device at the second time unit of the second carrier, and the terminal device receives the feedback information from the access network device at the second time unit of the second carrier; or the terminal device sends the feedback information to the access network device in the second time unit of the second carrier, and the access network device receives the feedback information from the terminal device in the second time unit of the second carrier. Optionally, the feedback information is sent to the terminal device by the other terminal device. Optionally, the feedback information is Acknowledgement (ACK) information or Negative Acknowledgement (NACK) information.
In an alternative embodiment, in step 31', for V2X sidelink data transmission, the terminal device receives the first data from the other terminal device in the first time unit of the first carrier, and the other terminal device transmits the first data to the terminal device in the first time unit of the first carrier. And the terminal device sends feedback information to the access network device, where the feedback information is used to feed back the transmission state of the first data, for example, whether the terminal device successfully receives the first data.
In an optional embodiment, in step 32 or step 33, the determining, by the access network device or the terminal device, a second time unit of a second carrier according to the first time unit, the first parameter, and the first time length includes: and the access network equipment or the terminal equipment determines that a first time length backward from the termination time of the first time unit is the first time, and the first time length is the first time multiplied by the first parameter. And the access network equipment or the terminal equipment determines a second time unit of the second carrier according to the first time. Optionally, the second time unit is a time unit corresponding to the first time on the second carrier.
In an optional embodiment, the determining, by the access network device or the terminal device, the second time unit of the second carrier according to the first time includes: and the access network equipment or the terminal equipment determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is the next time unit of the third time unit.
In an optional embodiment, the second time unit is a time unit corresponding to the first time on the second carrier.
In an optional embodiment, the determining, by the access network device according to the first time, a second time unit of the second carrier includes: the access network equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier; the access network equipment determines that the third time unit of the second carrier wave is shifted backward by the first offset amount to be the second time unit of the second carrier wave. The first offset is a preset offset, or the first offset is included in control information sent by the access network device to the terminal device, where the control information may be downlink control information or RRC signaling.
In an optional embodiment, the access network device or the terminal device determines that a third time unit of the second carrier is shifted backward by the first offset to be a fourth time unit of the second carrier, and the second time unit is a next time unit of the fourth time unit.
In an optional embodiment, the determining, by the access network device or the terminal device, the second time unit of the second carrier according to the first time unit, the first parameter, and the first time length includes: the access network device or the terminal device determines that a first time length backward from the termination time of the first time unit is the first time, and the first time length is the first time length multiplied by the first parameter; the access network equipment or the terminal equipment shifts the first time backwards by the first offset to obtain a second time; and the access network equipment or the terminal equipment determines a second time unit of the second carrier according to the second moment. The first offset is a preset offset, or the first offset is included in control information sent by the access network device to the terminal device, where the control information may be downlink control information.
In an optional embodiment, the access network device transmits second data with the terminal device at a fifth time unit of the first carrier or the third carrier; the access network device determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second duration, where the second parameter is a preset parameter, or the second parameter is included in control information sent by the access network device to the terminal device, or the second parameter is indicated by the control information sent by the access network device to the terminal device, the control information may be DCI, MAC signaling or RRC signaling, the DCI may include time-frequency domain resources for sending data, the second parameter is 0 or a positive integer, the second duration is a time length of a fifth time unit of the first carrier or the third carrier or a time length of a second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit; and the access network equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission states of the first data and the second data. That is, for different data received by the same access network device or the same terminal device in different time units of the first carrier, the feedback information is sent in the same time unit of the second carrier, that is, the joint feedback is performed. Optionally, the third carrier and the first carrier may be the same carrier or different carriers.
In an alternative embodiment, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol, the second time unit includes at least one of a subframe, a slot, a minislot, and a symbol, the third time unit includes at least one of a subframe, a slot, a minislot, and a symbol, the fourth time unit includes at least one of a subframe, a slot, a minislot, and a symbol, and the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
According to the embodiment of the application, the access network equipment or the terminal equipment determines the second time unit of the second carrier according to the first time unit, the first parameter and the first time length of the first carrier, wherein the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit.
Fig. 4 shows a schematic diagram of a possible structure of an access network device for executing the method involved in the embodiment of fig. 3, where the access network device includes a transmission unit 401 and a determination unit 402.
A transmission unit 401, configured to transmit first data with a terminal device in a first time unit of a first carrier;
a determining unit 402, configured to determine a second time unit of a second carrier according to the first time unit, a first parameter and a first time length, where the first parameter is a preset parameter, or the first parameter is contained in control information sent by the access network device to the terminal device, or the first parameter is indicated by control information sent by the access network device to the terminal device, the control information may be downlink control information or radio resource control signaling or medium access control signaling, the downlink control information may include time-frequency domain resources for transmitting data, the first parameter is 0 or a positive integer, the first duration is a time length of a first time unit of the first carrier or a time length of a second time unit of the second carrier, the time length of the first time unit is different from the time length of the second time unit;
the transmission unit 401 is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back a transmission state of the first data.
In an optional embodiment, the determining unit 402 is configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, and includes: the determining unit 402 determines a first time length after the termination time of the first time unit as the first time, where the first time length is obtained by multiplying the first parameter by the first duration; the determining unit 402 determines a second time unit of the second carrier according to the first time.
In an alternative embodiment, the determining unit 402 determines the second time unit of the second carrier according to the first time, including: the determining unit 402 determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a time unit next to the third time unit.
In an optional embodiment, the second time unit is a time unit corresponding to the first time on the second carrier.
In an alternative embodiment, the determining unit 402 determines the second time unit of the second carrier according to the first time, including: the determining unit 402 determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier; the determining unit 402 determines that the third time unit of the second carrier is shifted backward by a first offset amount as the second time unit of the second carrier, where the first offset amount is a preset offset amount.
In an alternative embodiment, the determining unit 402 determines that the third time unit of the second carrier is shifted backward by a first offset amount as a fourth time unit of the second carrier, where the first offset amount is a preset offset amount; the second time unit is a time unit next to the fourth time unit.
In an optional embodiment, the transmission unit 401 is further configured to transmit second data with the terminal device in a fifth time unit of the first carrier or the third carrier; the determining unit 402 determines a second time unit of the second carrier according to the fifth time unit, a second parameter and a second duration, where the second parameter is a preset parameter, or the second parameter is contained in control information sent by the access network device to the terminal device, or the second parameter is indicated by control information sent by the access network device to the terminal device, the control information may be DCI, or RRC signaling, or MAC signaling, the DCI may include time-frequency domain resources for transmitting data, the second parameter is 0 or a positive integer, the second duration is a time length of a fifth time unit of the first carrier or the third carrier or a time length of a second time unit of the second carrier, the time length of the fifth time unit is different from the time length of the second time unit; the transmitting unit 401 is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back transmission states of the first data and the second data. Optionally, the third carrier and the first carrier may be the same carrier or different carriers.
In an alternative embodiment, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol; the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fourth time unit includes at least one of a subframe, a slot, a micro-slot, and a symbol, and the fifth time unit includes at least one of a subframe, a slot, a micro-slot, and a symbol.
In an optional embodiment, the transmitting unit 401 transmits the first data with the terminal device in the first time unit of the first carrier, including: the transmitting unit 401 (may also be a transmitting unit) transmits first data to a terminal device in a first time unit of a first carrier, and the transmitting unit 401 transmits feedback information with the terminal device in a second time unit of a second carrier, including: the transmitting unit 401 (may also be a receiving unit) receives feedback information from the terminal device in a second time unit of the second carrier; or the transmitting unit 401 transmits the first data with the terminal device in the first time unit of the first carrier, including: the transmitting unit 401 (may also be a receiving unit) receives first data from a terminal device in a first time unit of a first carrier, and the transmitting unit 401 transmits feedback information with the terminal device in a second time unit of a second carrier, including: the transmission unit 401 (may also be a sending unit) sends feedback information to the terminal device in the second time unit of the second carrier.
In an alternative embodiment, the transmission unit 401 may be a transceiver 501, the transmission unit may be a transmitter, the determination unit 402 may be a processor 502, the reception unit may be a receiver, and the access network device may further include a memory 503, where the memory 503 is configured to store program codes and data of a terminal device, and specifically, as shown in fig. 5, the access network device includes the transceiver 501, the processor 502, and the memory 503.
Through the embodiment of the application, the access network equipment determines the second time unit of the second carrier according to the first time unit, the first parameter and the first time length of the first carrier, wherein the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit.
Fig. 6 shows a schematic diagram of a possible structure of a terminal device for performing the method involved in the embodiment of fig. 3, and the access network device includes a transmission unit 601 and a determination unit 602.
A transmission unit 601, configured to transmit first data with an access network device or other terminal devices at a first time unit of a first carrier; a determining unit 602, configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first duration, where the first parameter is a preset parameter, or the first parameter is included in Control Information sent by an Access network device to a terminal device, or the first parameter is indicated by Control Information sent by the Access network device to the terminal device, where the Control Information may be Downlink Control Information (DCI), Radio Resource Control (RRC) signaling, or Medium Access Control (MAC) signaling, the Downlink Control Information may include time resources for sending data, the first parameter is 0 or a positive integer, and the first duration is a time length of a first time unit of the first carrier or a time length of a second time unit of the second carrier, the time length of the first time unit is different from the time length of the second time unit; the transmitting unit 601 is further configured to transmit feedback information with the access network device at a second time unit of the second carrier, where the feedback information is used to feed back a transmission state of the first data.
In an optional embodiment, the determining unit 602 is configured to determine the second time unit of the second carrier according to the first time unit, the first parameter, and the first time length, and includes: the determining unit 602 determines that a first time length after the termination time of the first time unit is the first time, where the first time length is the first time length multiplied by the first parameter; the determining unit 602 determines a second time unit of the second carrier according to the first time.
In an optional embodiment, the determining unit 602 determines the second time unit of the second carrier according to the first time, including: the determining unit 602 determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a time unit next to the third time unit.
In an optional embodiment, the second time unit is a time unit corresponding to the first time on the second carrier.
In an optional embodiment, the determining unit 602 determines the second time unit of the second carrier according to the first time, including: the determining unit 602 determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier; the determining unit 602 determines that the third time unit of the second carrier is shifted backward by a first offset amount as the second time unit of the second carrier, where the first offset amount is a preset offset amount.
In an optional embodiment, the determining unit 602 determines that the third time unit of the second carrier is shifted backward by a first offset amount as a fourth time unit of the second carrier, where the first offset amount is a preset offset amount; the second time unit is a time unit next to the fourth time unit.
In an optional embodiment, the transmitting unit 601 is further configured to transmit second data with the access network device at a fifth time unit of the first carrier or the third carrier; the determining unit 602 determines a second time unit of the second carrier according to the fifth time unit, a second parameter and a second duration, where the second parameter is a preset parameter, or the second parameter is contained in control information sent by the access network device to the terminal device, or the second parameter is indicated by control information sent by the access network device to the terminal device, the control information may be DCI, or RRC signaling, or MAC signaling, the DCI may include time-frequency domain resources for transmitting data, the second parameter is 0 or a positive integer, the second duration is a time length of a fifth time unit of the first carrier or the third carrier or a time length of a second time unit of the second carrier, the time length of the fifth time unit is different from the time length of the second time unit; the transmitting unit 601 is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back transmission states of the first data and the second data. Optionally, the third carrier and the first carrier may be the same carrier or different carriers.
In an alternative embodiment, the first time unit includes at least one of a subframe, a slot, a minislot, and a symbol; the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol; the fourth time unit includes at least one of a subframe, a slot, a micro-slot, and a symbol, and the fifth time unit includes at least one of a subframe, a slot, a micro-slot, and a symbol.
In an optional embodiment, the transmitting unit 601 transmits the first data with the access network device or other terminal devices at the first time unit of the first carrier, including: the transmitting unit 601 (may also be a transmitting unit) transmits the first data to the access network device at the first time unit of the first carrier, and the transmitting unit 601 transmits the feedback information with the access network device at the second time unit of the second carrier, including: the transmitting unit 601 (may also be a receiving unit) receives feedback information from the access network device on a second time unit of the second carrier; or the transmitting unit 601 transmits the first data with the access network device or other terminal devices at the first time unit of the first carrier, including: the transmitting unit 601 (may also be a receiving unit) receives first data from an access network device at a first time unit of a first carrier, and the transmitting unit 601 transmits feedback information with the access network device at a second time unit of a second carrier, including: the transmission unit 601 (may also be a sending unit) sends feedback information to the access network device at a second time unit of the second carrier; or the transmitting unit 601 transmits the first data with the access network device or other terminal devices at the first time unit of the first carrier, including: the transmitting unit 601 (may also be a transmitting unit) transmits the first data to the other terminal device at the first time unit of the first carrier, and the transmitting unit 601 transmits the feedback information with the access network device at the second time unit of the second carrier, including: the transmission unit 601 (which may also be a sending unit) sends feedback information to the access network device on the second time unit of the second carrier.
In an alternative embodiment, the transmitting unit 601 may be a transceiver 701, the transmitting unit may be a transmitter, the determining unit 602 may be a processor 702, the receiving unit may be a receiver, and the terminal device may further include a memory 703, where the memory 703 is used to store program codes and data of the terminal device, and specifically, as shown in fig. 7, the access network device includes the transceiver 701, the processor 702, and the memory 703.
Through the embodiment of the application, the terminal device determines the second time unit of the second carrier according to the first time unit, the first parameter and the first time length of the first carrier, wherein the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit, so that the access network device or the terminal device can complete cross-carrier feedback when the time unit lengths of the first carrier and the second carrier are different, the access network device and the terminal device can complete transmission of data and feedback information when the time unit lengths of the first carrier and the second carrier are different, and the flexibility of cross-carrier feedback is improved.
The method of the embodiment of fig. 3 is specifically described below by taking fig. 8 as an example.
Step 81, for downlink data transmission, the access network device sends first data to the terminal device in time unit n of the first carrier, and the terminal device also receives the first data from the access network device in time unit n of the first carrier. For uplink data transmission, the terminal device sends the first data to the access network device in time unit n of the first carrier, and the access network device also receives the first data from the terminal device in time unit n of the first carrier. For sidestream data transmission, the terminal device transmits the first data to other terminal devices in time unit n of the first carrier, and the other terminal devices also receive the first data from the terminal devices in time unit n of the first carrier.
Step 82, the access network device determines a second time unit of the second carrier according to the time unit n of the first carrier, the first parameter k and the first time length.
And step 83, the terminal device determines a second time unit of the second carrier according to the first time unit of the first carrier, the first parameter k and the first time length.
In step 82 or step 83, the first parameter k is a preset parameter, or the first parameter k is a parameter included in the first control information and is sent by the access network device to the terminal device, where the first parameter k is 0 or a positive integer. The first duration is a time length of a time unit n of the first carrier or a time length of a second time unit of the second carrier. The time lengths of the time units n, n +1 to n +5 of the first carrier are equal, the time lengths of the time units m to m +11 of the second carrier are equal, but the time lengths of the time units n, n +1 to n +5 of the first carrier are different from the time lengths of the time units m to m +11 of the second carrier. Optionally, the first time length may be different from a time length of the time unit n of the first carrier or a time length of the second time unit of the second carrier, for example, if the time unit n of the first carrier is a time slot, the first time length may be a micro time slot, and if the time unit m of the second carrier is a micro time slot, the first time length may be a symbol, and so on. Optionally, the sequence of step 82 and step 83 is not limited.
In an optional embodiment, the access network device or the terminal device determines that the termination time of the time unit n is shifted backward by a first time length as the first time, where the first time length is obtained by multiplying the first parameter k by the first duration. For example, in fig. 8, the first parameter k is 4, and the first duration is the time length of the time unit n of the first carrier, so the first time in fig. 8 is a time at which the termination time of the time unit n of the first carrier is shifted backward by the time lengths of the time units of the 4 first carriers.
And the access network equipment or the terminal equipment determines a second time unit of the second carrier according to the first time. Optionally, the access network device or the terminal device determines that a time unit m +9 corresponding to the first time on the second carrier is the second time unit. Optionally, the access network device or the terminal device determines that time unit m +9 corresponding to the first time on the second carrier is the third time unit, and the access network device or the terminal device determines that the next time unit m +10 of m +9 is the second time unit. Then, in the downlink data transmission, the terminal device sends feedback information to the access network device at a second time unit of the second carrier. In uplink data transmission, the access network equipment sends feedback information to the terminal equipment in a second time unit of a second carrier. In the V2X sidelink data transmission, the terminal device sends feedback information to the access network device at the second time unit of the second carrier. Optionally, the feedback information may be received by the terminal device from the other terminal devices. Optionally, the feedback information may also be determined by the terminal device after receiving the first data from the other terminal device, so as to indicate whether the terminal device has successfully received the first data from the other terminal device.
In an optional embodiment, second data between the access network device and the terminal device or between the terminal devices is transmitted on a time unit n of the first carrier, the access network device or the terminal device determines a time unit m +9 of the second carrier as a transmission unit of the feedback information according to the time unit n, the first parameter, and the first duration, and the second data between the access network device and the terminal device or between the terminal devices is transmitted on a time unit n +1 of the first carrier, the access network device or the terminal device determines a time unit m +9 of the second carrier as a transmission unit of the feedback information according to the time unit n +1, the second parameter, and the second duration, and then the time unit m +9 of the second carrier is used for the transmission unit of the feedback information of the first data and the second data.
For another example, in fig. 9, the first parameter k is 4, and the first duration is the time length of the time unit m of the second carrier, so the first time in fig. 9 is a time at which the termination time of the time unit n of the first carrier is shifted backward by the time length of the time unit m of the 4 second carriers. In fig. 9 the length of the time unit of the first carrier is equal to 2 times the length of the time unit of the second carrier, and therefore the length of the time unit of the 4 second carriers is equal to the length of the time unit of the 2 first carriers.
And the access network equipment or the terminal equipment determines a second time unit of the second carrier according to the first time. Optionally, the access network device or the terminal device determines that a time unit m +5 corresponding to the first time on the second carrier is the second time unit. Optionally, the access network device or the terminal device determines that time unit m +5 corresponding to the first time on the second carrier is the third time unit, and the access network device or the terminal device determines that the next time unit m +6 of m +5 is the second time unit. Then, in the downlink data transmission, the terminal device sends feedback information to the access network device at a second time unit of the second carrier. In uplink data transmission, the access network equipment sends feedback information to the terminal equipment in a second time unit of a second carrier. In the V2X sidelink data transmission, the terminal device sends feedback information to the access network device at the second time unit of the second carrier. Optionally, the feedback information may be received by the terminal device from the other terminal devices. Optionally, the feedback information may also be determined by the terminal device after receiving the first data from the other terminal device, so as to indicate whether the terminal device has successfully received the first data from the other terminal device.
In an alternative embodiment, in fig. 8 or fig. 9, the access network device or the terminal device determines, as a new second time unit, a time unit of the second carrier after the second time unit is shifted backward by the time length of the first offset. The first offset may be a specific time length, or a number of subframes, slots, minislots, or symbols, and optionally, the control information may also be used to indicate a time unit or granularity of the first offset, such as which subframe, slot, minislot, or symbol is, and the first offset may also be indication information used to indicate a time length of the offset. The first offset may be a preset offset, and the first offset may also be included in control information sent by the access network device to the terminal device, for example, included in downlink control information. For example, in the case that there is no first offset, the access network device or the terminal device determines that m +9 of the second carrier is the second time unit, and the first offset is the time unit length of 2 second carriers, then the access network device or the terminal device determines that m +11 of the second carrier is the second time unit. Optionally, the access network device or the terminal device shifts the first time backward by the first offset to obtain a second time, and then the access network device or the terminal device determines a second time unit corresponding to the second time on a second carrier according to the second time. The first offset may be determined by the access network device according to at least one of the number of the terminal devices, the priority of the data to be transmitted, the channel condition, and the amount of the data to be transmitted. The access network device determines a second time unit of the second carrier for data transmission to different terminal devices according to different offsets, so that the second carrier can be more effectively utilized in a time domain, and resource waste is avoided.
In an alternative embodiment, the time units n to n +5 of the first carrier are at least one of subframes, slots, minislots, and symbols, and the time units m to m +11 of the second carrier are at least one of subframes, slots, minislots, and symbols.
In an alternative embodiment, if the first time determined by the access network device or the terminal device according to the foregoing method is a start time or an end time of a time unit of the second carrier, the access network device or the terminal device determines a time unit before the first time as the second time unit, or the access network device or the terminal device determines a time unit after the first time as the second time unit. For example, in fig. 8, the first time is a termination time of the time unit m +9 of the second carrier, that is, the first time is a start time of the time unit m +10 of the second carrier, and then the access network device or the terminal device determines that the time unit m +9 or m +10 of the second carrier is the second time unit, and this second time unit is used for the access network device or the terminal device to receive or send the feedback information.
Step 84, the access network device transmits feedback information with the terminal device at the second time unit of the second carrier, where the feedback information is used to feed back the transmission state of the first data.
In this embodiment of the present application, although the lengths of the time units of the first carrier and the second carrier are different, that is, the granularity of the first carrier and the second carrier is different in the time domain, the access network device or the terminal device may shift the time unit for sending data in the first carrier backward by a first time length k times to determine that the second time unit of the second carrier is used as the time unit for transmitting the feedback information, since the first time length may be the length of the time unit in the first carrier, may also be the length of the time unit in the second carrier, or may also be another time length (for example, one of a subframe, a time slot, a micro-slot, and a symbol) other than the length of the time unit in the first carrier or the second carrier, the access network device or the terminal device may determine the second time unit of the second carrier according to the time unit n of the first carrier, the first parameter k, and the first time length for transmitting the feedback information, namely, the transmission of data and feedback information between carriers with different time unit lengths is realized.
In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Claims (46)

1. A method for transmitting feedback information, comprising:
the access network equipment transmits first data with the terminal equipment in a first time unit of a first carrier;
the access network device determines a second time unit of a second carrier according to the first time unit, a first parameter and a first time length, wherein the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit;
and the access network equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission state of the first data.
2. The method of claim 1,
the determining, by the access network device, a second time unit of a second carrier according to the first time unit, the first parameter, and the first time length includes:
the access network equipment determines that a first time length after the termination time of the first time unit is a first time, and the first time length is the first time length multiplied by the first parameter;
and the access network equipment determines a second time unit of the second carrier according to the first time.
3. The method of claim 2,
the determining, by the access network device, a second time unit of the second carrier according to the first time includes:
and the access network equipment determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a next time unit of the third time unit.
4. The method of claim 2,
the second time unit is a time unit corresponding to the first time on the second carrier.
5. The method of claim 2,
the determining, by the access network device, a second time unit of the second carrier according to the first time includes:
the access network equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier;
the access network device determines that a third time unit of the second carrier wave is shifted backward by a first offset as a second time unit of the second carrier wave, where the first offset is a preset offset.
6. The method of claim 3,
the access network equipment determines that a third time unit of the second carrier wave shifts backwards by a first offset as a fourth time unit of the second carrier wave, wherein the first offset is a preset offset;
the second time unit is a time unit next to the fourth time unit.
7. The method according to any one of claims 1-6, further comprising:
the access network equipment transmits second data with the terminal equipment at a fifth time unit of the first carrier;
the access network device determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is a time length of the fifth time unit of the first carrier or a time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit;
and the access network equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission states of the first data and the second data.
8. The method of claim 7,
the first time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
9. The method according to claim 3 or 5,
the third time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
10. The method of claim 6,
the third time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the fourth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
11. A method of feedback information transmission, characterized in that it comprises all the features of the method of any one of claims 1 to 10 and,
the method for the access network device to transmit first data with the terminal device at a first time unit of a first carrier includes: the method for sending first data to a terminal device by an access network device in a first time unit of a first carrier, and transmitting feedback information between the access network device and the terminal device in a second time unit of a second carrier includes: the access network equipment receives feedback information from the terminal equipment on a second time unit of the second carrier; or
The method for the access network device to transmit first data with the terminal device at a first time unit of a first carrier includes: the method for receiving, by an access network device, first data from a terminal device at a first time unit of a first carrier, and transmitting, by the access network device, feedback information with the terminal device at a second time unit of a second carrier includes: and the access network equipment sends feedback information to the terminal equipment on a second time unit of the second carrier.
12. A method for transmitting feedback information, comprising: the terminal equipment transmits first data with access network equipment or other terminal equipment in a first time unit of a first carrier;
the terminal device determines a second time unit of a second carrier according to the first time unit, a first parameter and a first time length, wherein the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is the time length of the first time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit;
and the terminal equipment transmits feedback information with the access network equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission state of the first data.
13. The method of claim 12,
the terminal device determines a second time unit of a second carrier according to the first time unit, the first parameter and the first time length, and the method comprises the following steps:
the terminal device determines that a first time length after the termination time of the first time unit is a first time, and the first time length is the first time length multiplied by the first parameter;
and the terminal equipment determines a second time unit of the second carrier according to the first time.
14. The method of claim 13,
the determining, by the terminal device, a second time unit of the second carrier according to the first time includes:
and the terminal equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier, and the second time unit is the next time unit of the third time unit.
15. The method of claim 13,
the second time unit is a time unit corresponding to the first time on the second carrier.
16. The method of claim 13,
the determining, by the terminal device, a second time unit of a second carrier according to the first time includes:
the terminal equipment determines a third time unit of a second carrier according to the first moment, wherein the third time unit is a time unit corresponding to the first moment on the second carrier;
and the terminal equipment determines that the third time unit of the second carrier wave is shifted backwards by a first offset as the second time unit of the second carrier wave, wherein the first offset is a preset offset.
17. The method of claim 14,
the terminal equipment determines that a third time unit of the second carrier wave is shifted backwards by a first offset amount to be a fourth time unit of the second carrier wave, wherein the first offset amount is a preset offset amount;
the second time unit is a time unit next to the fourth time unit.
18. The method according to any one of claims 13-17, further comprising:
the terminal equipment transmits second data with the access network equipment at a fifth time unit of the first carrier;
the terminal device determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the first parameter is 0 or a positive integer, the second time length is the time length of the fifth time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit;
and the terminal equipment transmits feedback information with the terminal equipment on a second time unit of the second carrier, wherein the feedback information is used for feeding back the transmission states of the first data and the second data.
19. The method of claim 18,
the first time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
20. The method according to claim 14 or 16,
the third time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
21. The method of claim 17,
the fourth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
22. A method of feedback information transmission, characterized in that it comprises all the features of the method of any one of claims 12 to 21 and,
the terminal device transmits first data with an access network device or other terminal devices in a first time unit of a first carrier, and the method comprises the following steps: the method for transmitting the feedback information between the terminal device and the access network device in the second time unit of the second carrier includes: the terminal equipment receives feedback information from the access network equipment on a second time unit of the second carrier; or
The terminal device transmits first data with an access network device or other terminal devices in a first time unit of a first carrier, and the method comprises the following steps: the method for the terminal device to receive the first data from the access network device at the first time unit of the first carrier, and the terminal device to transmit the feedback information with the access network device at the second time unit of the second carrier includes: the terminal equipment sends feedback information to the access network equipment on a second time unit of the second carrier; or
The terminal device transmits first data with an access network device or other terminal devices in a first time unit of a first carrier, and the method comprises the following steps: the terminal device sends first data to other terminal devices in a first time unit of a first carrier, and the terminal device transmits feedback information with the access network device in a second time unit of a second carrier, including: and the terminal equipment sends feedback information to the access network equipment on a second time unit of the second carrier.
23. An access network device, comprising:
a transmission unit, configured to transmit first data with a terminal device at a first time unit of a first carrier;
a determining unit, configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, where the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is a time length of the first time unit of the first carrier or a time length of a second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit;
the transmission unit is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back a transmission state of the first data.
24. The access network device of claim 23,
the determining unit is configured to determine a second time unit of a second carrier according to the first time unit, the first parameter, and the first time duration, and includes:
the determining unit determines that a first time length after the termination time of the first time unit is a first time, and the first time length is the first time length multiplied by the first parameter;
the determining unit determines a second time unit of the second carrier according to the first time.
25. The access network apparatus of claim 24,
the determining unit determines a second time unit of the second carrier according to the first time, including:
the determining unit determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a next time unit of the third time unit.
26. The access network apparatus of claim 24,
the second time unit is a time unit corresponding to the first time on the second carrier.
27. The access network apparatus of claim 24,
the determining unit determines a second time unit of the second carrier according to the first time, including:
the determining unit determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier;
the determining unit determines that a third time unit of the second carrier is shifted backward by a first offset amount as a second time unit of the second carrier, where the first offset amount is a preset offset amount.
28. The access network apparatus of claim 25,
the determining unit determines that a third time unit of the second carrier wave shifts backward by a first offset as a fourth time unit of the second carrier wave, wherein the first offset is a preset offset;
the second time unit is a time unit next to the fourth time unit.
29. The access network device of any of claims 23-28,
the transmission unit is further configured to transmit second data with the terminal device in a fifth time unit of the first carrier;
the determining unit determines a second time unit of a second carrier according to a fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is the time length of the fifth time unit of the first carrier or the time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit;
the transmission unit is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back transmission states of the first data and the second data.
30. The access network apparatus of claim 29,
the first time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
31. The access network device of claim 25 or 27,
the third time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
32. The access network apparatus of claim 28,
the fourth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
33. An access network device, characterized in that it comprises all the features of the access network device of any of claims 23 to 32, and,
the transmission unit transmits first data with the terminal device in a first time unit of a first carrier, and the method comprises the following steps: the transmitting unit sends first data to a terminal device in a first time unit of a first carrier, and the transmitting unit transmits feedback information with the terminal device in a second time unit of a second carrier, including: the transmission unit receives feedback information from the terminal device on a second time unit of the second carrier; or
The transmission unit transmits first data with the terminal device in a first time unit of a first carrier, and the method comprises the following steps: the transmitting unit receives first data from a terminal device in a first time unit of a first carrier, and the transmitting unit transmits feedback information with the terminal device in a second time unit of a second carrier, including: and the transmission unit sends feedback information to the terminal equipment on a second time unit of the second carrier.
34. A terminal device, comprising:
a transmission unit, configured to transmit first data with an access network device or other terminal devices at a first time unit of a first carrier;
a determining unit, configured to determine a second time unit of a second carrier according to the first time unit, a first parameter, and a first time length, where the first parameter is a preset parameter, the first parameter is 0 or a positive integer, the first time length is a time length of the first time unit of the first carrier or a time length of a second time unit of the second carrier, and the time length of the first time unit is different from the time length of the second time unit;
the transmission unit is further configured to transmit feedback information with the access network device at a second time unit of the second carrier, where the feedback information is used to feed back a transmission state of the first data.
35. The terminal device of claim 34,
the determining unit is configured to determine a second time unit of a second carrier according to the first time unit, the first parameter, and the first time duration, and includes:
the determining unit determines that a first time length after the termination time of the first time unit is a first time, and the first time length is the first time length multiplied by the first parameter;
the determining unit determines a second time unit of the second carrier according to the first time.
36. The terminal device of claim 35,
the determining unit determines a second time unit of the second carrier according to the first time, including:
the determining unit determines a third time unit of a second carrier according to the first time, where the third time unit is a time unit corresponding to the first time on the second carrier, and the second time unit is a next time unit of the third time unit.
37. The terminal device of claim 35,
the second time unit is a time unit corresponding to the first time on the second carrier.
38. The terminal device of claim 35,
the determining unit determines a second time unit of a second carrier according to the first time, including:
the determining unit determines a third time unit of a second carrier according to the first time, wherein the third time unit is a time unit corresponding to the first time on the second carrier;
the determining unit determines that a third time unit of the second carrier is shifted backward by a first offset amount as a second time unit of the second carrier, where the first offset amount is a preset offset amount.
39. The terminal device of claim 36,
the determining unit determines that a third time unit of the second carrier wave shifts backward by a first offset as a fourth time unit of the second carrier wave, wherein the first offset is a preset offset;
the second time unit is a time unit next to the fourth time unit.
40. A terminal device according to any of claims 35-39,
the transmission unit is further configured to transmit second data with the access network device at a fifth time unit of the first carrier;
the determining unit determines a second time unit of a second carrier according to the fifth time unit, a second parameter and a second time length, wherein the second parameter is a preset parameter, the second parameter is 0 or a positive integer, the second time length is a time length of the fifth time unit of the first carrier or a time length of the second time unit of the second carrier, and the time length of the fifth time unit is different from the time length of the second time unit;
the transmission unit is further configured to transmit feedback information with the terminal device in a second time unit of the second carrier, where the feedback information is used to feed back transmission states of the first data and the second data.
41. The terminal device of claim 40,
the first time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the second time unit comprises at least one of a subframe, a slot, a minislot, and a symbol;
the fifth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
42. The terminal device according to claim 36 or 38,
the third time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
43. The terminal device of claim 39,
the fourth time unit includes at least one of a subframe, a slot, a minislot, and a symbol.
44. A terminal device, characterized in that it comprises all the features of a terminal device according to any one of claims 34 to 43 and,
the transmitting unit transmits first data with the access network device or other terminal devices at a first time unit of a first carrier, including: the transmitting unit sends first data to an access network device at a first time unit of a first carrier, and the transmitting unit transmits feedback information with the access network device at a second time unit of a second carrier, including: the transmission unit receives feedback information from the access network device on a second time unit of the second carrier; or
The transmitting unit transmits first data with the access network device or other terminal devices at a first time unit of a first carrier, including: the receiving, by the transmitting unit, first data from an access network device at a first time unit of a first carrier, and transmitting, by the transmitting unit, feedback information with the access network device at a second time unit of a second carrier, includes: the transmission unit sends feedback information to the access network equipment on a second time unit of the second carrier; or
The transmitting unit transmits first data with the access network device or other terminal devices at a first time unit of a first carrier, including: the transmitting unit sends first data to other terminal devices in a first time unit of a first carrier, and the transmitting unit transmits feedback information with the access network device in a second time unit of a second carrier, including: and the transmission unit sends feedback information to the access network equipment on a second time unit of the second carrier.
45. A storage medium, characterized in that it stores a computer program enabling, when executed by a computer device, to implement the method of any one of claims 1 to 11.
46. A storage medium, characterized in that it stores a computer program enabling, when executed by a computer device, to carry out the method of any one of claims 12 to 22.
CN201710184450.4A 2017-03-24 2017-03-24 Feedback information transmission method, terminal equipment and access network equipment Active CN108631952B (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN201710184450.4A CN108631952B (en) 2017-03-24 2017-03-24 Feedback information transmission method, terminal equipment and access network equipment
PCT/CN2018/079344 WO2018171530A1 (en) 2017-03-24 2018-03-16 Feedback information transmission method, terminal device, and access network device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201710184450.4A CN108631952B (en) 2017-03-24 2017-03-24 Feedback information transmission method, terminal equipment and access network equipment

Publications (2)

Publication Number Publication Date
CN108631952A CN108631952A (en) 2018-10-09
CN108631952B true CN108631952B (en) 2021-12-10

Family

ID=63586229

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201710184450.4A Active CN108631952B (en) 2017-03-24 2017-03-24 Feedback information transmission method, terminal equipment and access network equipment

Country Status (2)

Country Link
CN (1) CN108631952B (en)
WO (1) WO2018171530A1 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7412437B2 (en) 2019-02-22 2024-01-12 オッポ広東移動通信有限公司 Information transmission method, terminal device and network device
EP4008073A4 (en) * 2019-08-01 2023-04-26 QUALCOMM Incorporated Cross carrier feedback
CN115225220B (en) * 2021-04-16 2024-09-10 大唐移动通信设备有限公司 Carrier switching transmission processing method and device

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102739374A (en) * 2011-04-12 2012-10-17 中兴通讯股份有限公司 Feedback method of ACK/NACK under carrier aggregation, user equipment and system thereof
CN103138897A (en) * 2011-11-25 2013-06-05 中兴通讯股份有限公司 Acknowledgement information feedback method and system
US8537787B2 (en) * 2010-04-28 2013-09-17 FutueWei Technologies, Inc. System and method for mapping and decoding codewords in acknowledgement information communications
CN104253676A (en) * 2013-06-28 2014-12-31 华为技术有限公司 Feedback information transmission method, relative devices and communication system
EP2844003A1 (en) * 2012-03-19 2015-03-04 China Academy of Telecommunications Technology Downlink control signalling transmission method and device
CN105264807A (en) * 2013-11-01 2016-01-20 华为技术有限公司 Transmission method for uplink control information, base station and user equipment
WO2016106905A1 (en) * 2014-12-31 2016-07-07 华为技术有限公司 User device, access network device and feedback information sending and receiving methods

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2015024248A1 (en) * 2013-08-23 2015-02-26 华为技术有限公司 Information transmission method and device

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8537787B2 (en) * 2010-04-28 2013-09-17 FutueWei Technologies, Inc. System and method for mapping and decoding codewords in acknowledgement information communications
CN102739374A (en) * 2011-04-12 2012-10-17 中兴通讯股份有限公司 Feedback method of ACK/NACK under carrier aggregation, user equipment and system thereof
CN103138897A (en) * 2011-11-25 2013-06-05 中兴通讯股份有限公司 Acknowledgement information feedback method and system
EP2844003A1 (en) * 2012-03-19 2015-03-04 China Academy of Telecommunications Technology Downlink control signalling transmission method and device
CN104253676A (en) * 2013-06-28 2014-12-31 华为技术有限公司 Feedback information transmission method, relative devices and communication system
CN105264807A (en) * 2013-11-01 2016-01-20 华为技术有限公司 Transmission method for uplink control information, base station and user equipment
WO2016106905A1 (en) * 2014-12-31 2016-07-07 华为技术有限公司 User device, access network device and feedback information sending and receiving methods

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
"Implicit HARQ and scheduling timing design for LTE sTTI";CATT;《3GPP TSG RAN WG1 Meeting #86bis》;20160930;全文 *

Also Published As

Publication number Publication date
CN108631952A (en) 2018-10-09
WO2018171530A1 (en) 2018-09-27

Similar Documents

Publication Publication Date Title
US20180324786A1 (en) Resource determination for uplink control channel for wireless networks
EP3550884B1 (en) Improved communication resource utilization in wireless communication systems
US20180279291A1 (en) Transmission of Uplink Control Information For Multiple Control Channel Format Lengths
CN110771107B (en) Method and apparatus for cross-digital basic configuration scheduling
EP3648384B1 (en) Method for repeated transmission and terminal device
US11233613B2 (en) Pilot signal transmission method and device
EP3592090B1 (en) Method for sending scheduling information and network device
EP3451560A1 (en) Data transmission method and apparatus
CN109845364B (en) Method for transmitting uplink control information, terminal equipment and network equipment
CN110710243B (en) Signal sending and receiving method and device
CN108631952B (en) Feedback information transmission method, terminal equipment and access network equipment
CN109565375B (en) Resource indication method and equipment
WO2017113206A1 (en) Data communication method, terminal device, and network device
CN109788453B (en) Transmission method of response information, communication equipment and network equipment
CN109391352B (en) Transmission method of response information, terminal equipment and network equipment
CN108633090B (en) Data transmission method, terminal equipment and access network equipment
CN109691213B (en) Information transmission method and device
CN109644449B (en) Communication method, terminal and network equipment
EP3573358A1 (en) Radio communication method, terminal device, and network device
CN109891844A (en) Communication means and equipment

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant