阅读说明：本技术 一种处理方法及网络设备 (Processing method and network equipment ) 是由 李琦 王小鹏 董伟 于 2019-09-26 设计创作，主要内容包括：本申请实施例公开了一种处理方法,包括：网络设备确定第一上行子帧是否为上行接入子帧,第一上行子帧被配置用于终端设备传输第一下行子帧对应的混合自动重传请求HARQ信息,HARQ信息通过信号转发设备向网络设备发送,上行接入子帧被配置用于信号转发设备接收终端设备发送的HARQ信息。若第一上行子帧为上行接入子帧,则网络设备在第一下行子帧采用HARQ传输机制,并接收终端设备发送的确认应答ACK消息或否定应答NACK消息。若第一上行子帧不是上行接入子帧,则网络设备确定第一下行子帧对应的HARQ信息是ACK消息。在有信号转发设备的通信系统中,通过本申请提供的方案,网络设备可以在所有子帧都进行下行传输,提高传输速率。(The embodiment of the application discloses a processing method, which comprises the following steps: the network equipment determines whether a first uplink subframe is an uplink access subframe, the first uplink subframe is configured to be used for the terminal equipment to transmit hybrid automatic repeat request (HARQ) information corresponding to the first downlink subframe, the HARQ information is sent to the network equipment through the signal forwarding equipment, and the uplink access subframe is configured to be used for the signal forwarding equipment to receive the HARQ information sent by the terminal equipment. If the first uplink subframe is an uplink access subframe, the network equipment adopts an HARQ transmission mechanism in the first downlink subframe and receives an Acknowledgement (ACK) message or a Negative Acknowledgement (NACK) message sent by the terminal equipment. If the first uplink subframe is not the uplink access subframe, the network device determines that the HARQ information corresponding to the first downlink subframe is an ACK message. In a communication system with signal forwarding equipment, by the scheme provided by the application, the network equipment can perform downlink transmission in all subframes, so that the transmission rate is improved.)

A method of processing, comprising:

the method comprises the steps that a network device determines whether a first uplink subframe is an uplink access subframe, the first uplink subframe is configured to be used for a terminal device to transmit hybrid automatic repeat request (HARQ) information corresponding to the first downlink subframe, the HARQ information is sent to the network device through a signal forwarding device, and the uplink access subframe is configured to be used for the signal forwarding device to receive the HARQ information sent by the terminal device;

if the first uplink subframe is an uplink access subframe, the network equipment adopts an HARQ transmission mechanism in the first downlink subframe and receives an Acknowledgement (ACK) message or a Negative Acknowledgement (NACK) message sent by the terminal equipment;

if the first uplink subframe is not an uplink access subframe, the network device determines that the HARQ information corresponding to the first downlink subframe is an ACK message.

The processing method according to claim 1, wherein if the first uplink subframe is not an uplink access subframe, further comprising:

and the network equipment adopts an automatic repeat request ARQ transmission mechanism of a Radio Link Control (RLC) layer in the first downlink subframe.

The processing method according to claim 1 or 2, wherein the network device determining whether the first uplink subframe is an uplink access subframe comprises:

the network equipment determines that the first downlink subframe corresponds to the first uplink subframe according to the set HARQ timing sequence relation;

and the network equipment determines whether the first uplink subframe is an uplink access subframe according to the configured uplink access subframe pattern or the configured relay uplink subframe pattern.

The processing method according to any one of claims 1 to 3, further comprising:

the network equipment determines whether a second uplink subframe is an uplink access subframe, wherein the second uplink subframe is configured to be used for terminal equipment to transmit hybrid automatic repeat request (HARQ) information corresponding to the second downlink subframe, the HARQ information is sent to the network equipment through signal forwarding equipment, and the uplink access subframe is configured to be used for the signal forwarding equipment to receive the HARQ information sent by the terminal equipment;

if the second uplink subframe is not an uplink access subframe, the network device sends the same information as a third downlink subframe in the second downlink subframe, where the third downlink subframe is N adjacent subframes of the second downlink subframe, and N is a positive integer.

The processing method of claim 4, wherein the network device determining whether the second uplink subframe is an uplink access subframe comprises:

the network equipment determines that the second downlink subframe corresponds to the second uplink subframe according to the set HARQ timing sequence relation;

and the network equipment determines whether the second uplink subframe is an uplink access subframe according to the configured uplink access subframe pattern or the configured relay uplink subframe pattern.

A network device, comprising: a memory for storing computer readable instructions;

and a processor coupled to the memory, the processor to perform the following:

determining whether a first uplink subframe is an uplink access subframe, wherein the first uplink subframe is configured for a terminal device to transmit hybrid automatic repeat request (HARQ) information corresponding to a first downlink subframe, the HARQ information is transmitted to the network device through a signal forwarding device, and the uplink access subframe is configured for the signal forwarding device to receive the HARQ information transmitted by the terminal device;

if the first uplink subframe is an uplink access subframe, adopting an HARQ transmission mechanism in the first downlink subframe;

the communication interface is coupled with the processor and is used for receiving an Acknowledgement (ACK) message or a Negative Acknowledgement (NACK) message sent by the terminal equipment if the first uplink subframe is an uplink access subframe;

the processor is further configured to determine that the HARQ information corresponding to the first downlink subframe is an ACK message if the first uplink subframe is not an uplink access subframe.

The network device of claim 6, wherein the processor is further configured to employ an automatic repeat request (ARQ) transmission mechanism of a Radio Link Control (RLC) layer in the first downlink subframe when the first uplink subframe is not an uplink access subframe.

The network device of claim 6 or 7, wherein the processor is specifically configured to:

determining the first downlink subframe corresponding to the first uplink subframe according to the set HARQ timing sequence relation;

and determining whether the first uplink subframe is an uplink access subframe according to the configured uplink access subframe pattern or the configured relay uplink subframe pattern.

The network device of any of claims 6 to 8,

the processor is further configured to determine whether a second uplink subframe is an uplink access subframe, where the second uplink subframe is configured to be used by a terminal device to transmit hybrid automatic repeat request HARQ information corresponding to a second downlink subframe, the HARQ information is sent to the network device through a signal forwarding device, and the uplink access subframe is configured to be used by the signal forwarding device to receive the HARQ information sent by the terminal device;

the communication interface is further configured to send, in the second downlink subframe, the same information as a third downlink subframe if the second uplink subframe is not an uplink access subframe, where the third downlink subframe is N adjacent subframes of the second downlink subframe, and N is a positive integer.

The network device of claim 9, wherein the processor is specifically configured to:

determining the second downlink subframe corresponding to the second uplink subframe according to the set HARQ timing sequence relation;

and determining whether the second uplink subframe is an uplink access subframe according to the configured uplink access subframe pattern or the configured relay uplink subframe pattern.

A computer-readable storage medium, wherein the instructions, when executed on a computer device, cause the computer device to perform the method of any of claims 1 to 10.