阅读说明：本技术 节能信号的处理方法、装置、设备和存储介质 (Energy-saving signal processing method, device, equipment and storage medium ) 是由 徐伟杰 于 2019-09-30 设计创作，主要内容包括：本申请涉及一种节能信号的处理方法、装置、设备和存储介质,该方法包括：终端监听节能信号,若未监听到节能信号,则基于DRX周期的类型确定是否在DRX周期的激活期进行PDCCH的检测,在终端未监听到节能信号时,针对不同的DRX周期的类型的不同情况,终端可以采用不同的处理行为,匹配不同情况下终端的业务需求,实现终端节电与数据传输可靠性及时性之间的平衡。(The application relates to a processing method, a device, equipment and a storage medium of energy-saving signals, wherein the method comprises the following steps: the terminal monitors the energy-saving signal, if the energy-saving signal is not monitored, whether the PDCCH is detected in the activation period of the DRX period is determined based on the type of the DRX period, and when the energy-saving signal is not monitored by the terminal, the terminal can adopt different processing behaviors according to different conditions of different types of the DRX periods to match service requirements of the terminal under different conditions, so that balance between power saving of the terminal and reliability and timeliness of data transmission is realized.)

A method for processing a power saving signal, the method comprising:

monitoring an energy-saving signal;

if the energy-saving signal is not monitored, determining whether to detect a Physical Downlink Control Channel (PDCCH) in an active period of a Discontinuous Reception (DRX) cycle based on the type of the DRX cycle; the DRX period is short DRX period or long DRX period.

The method of claim 1, wherein the determining whether to perform the detection of the PDCCH during the active period of the DRX period based on the type of the DRX period comprises:

and if the DRX period type is a short DRX period, detecting the PDCCH in the activation period of the short DRX period according to a preset default mechanism.

The method of claim 2, wherein the detecting the PDCCH during the active period of the short DRX period according to a preset default mechanism comprises:

and starting a discontinuous reception inactivity timer corresponding to the short DRX period, and detecting the PDCCH during the operation period of the discontinuous reception inactivity timer.

The method of claim 1, wherein the determining whether to perform the detection of the PDCCH during the active period of the DRX period based on the type of the DRX period comprises:

and if the DRX period type is a long DRX period, not starting a discontinuous reception non-active timer in an active period of the long DRX period.

The method of claim 1, wherein the determining whether to perform the detection of the PDCCH during the active period of the DRX period based on the type of the DRX period comprises:

and if the type of the DRX period is a long DRX period, determining whether to detect the PDCCH in the active period of the long DRX period or not based on network configuration information.

The method of claim 5, further comprising:

and receiving the network configuration information.

The method of claim 1, further comprising:

receiving configuration information; the configuration information is used for indicating configuration parameters of the energy-saving signal.

The method according to claim 7, wherein the configuration parameters include configuration parameters of a power saving signal corresponding to each type of the DRX cycle; the configuration parameters of the energy-saving signals corresponding to different DRX periods are different.

The method of claim 8, wherein the different DRX cycle types have different configuration parameters of power saving signals, and the different configuration parameters include at least one of the following parameters:

the first time offsets of the energy-saving signals corresponding to different DRX periods are different; the first time offset is the time offset between the sending time position of the energy-saving signal and the starting position of the activation period of the DRX period;

the second time offsets of the energy-saving signals corresponding to the different DRX periods are different; the second time offset is the time offset between the time position of the PDCCH search space of the energy-saving signal and the starting position of the activation period of the DRX period;

the PDCCH searching spaces of the energy-saving signals corresponding to the different DRX periods are different;

the PDCCH control resource sets of the energy-saving signals corresponding to the different DRX periods are different;

the lengths of downlink control information DCI of the energy-saving signals corresponding to the different DRX periods are different;

the indication information of the energy-saving signals corresponding to the different DRX periods has different positions in the DCI;

and the network configuration information of the energy-saving signals corresponding to different DRX periods is different.

The method of claim 9, wherein the different DRX cycle types have different first time offsets of the power saving signals, comprising:

and the first time offset of the energy-saving signal corresponding to the short DRX period is less than the first time offset of the energy-saving signal corresponding to the long DRX period.

The method of claim 9, wherein the second time offsets of the power saving signals corresponding to different DRX cycle types are different, comprising:

and the second time offset of the energy-saving signal corresponding to the short DRX period is less than the second time offset of the energy-saving signal corresponding to the long DRX period.

The method of claim 9, wherein the PDCCH search space comprises a plurality of monitoring locations for energy saving signals, and wherein the PDCCH search spaces for energy saving signals corresponding to different DRX cycle types are different, comprising:

and the time interval between the monitoring positions of the energy-saving signals corresponding to the short DRX period is less than the time interval between the monitoring positions of the energy-saving signals corresponding to the long DRX period.

The method of claim 1, further comprising:

receiving an energy-saving mechanism starting message; the energy saving mechanism starting message is used for indicating the terminal to start the energy saving mode.

The method of claim 13, wherein the power saving mechanism on message is carried in higher layer control signaling.

The method of claim 1, further comprising:

and if the energy-saving signal is monitored, determining whether to detect the PDCCH during the on duration of the DRX according to the energy-saving signal.

The method of claim 1, wherein if the energy-saving signal uses a PDCCH based on error correction coding, the monitoring the energy-saving signal comprises:

detecting whether the Cyclic Redundancy Check (CRC) of the energy-saving signal is successful;

if the CRC is successful, monitoring the energy-saving signal;

and if the CRC fails, the energy-saving signal is not monitored.

A method for processing a power saving signal, the method comprising:

receiving configuration information; the configuration information is used for indicating configuration parameters of energy-saving signals, and the configuration parameters comprise configuration parameters of the energy-saving signals corresponding to the types of all DRX periods; the configuration parameters of energy-saving signals corresponding to different DRX periods are different, and the DRX periods are short DRX periods or long DRX periods;

and monitoring energy-saving signals corresponding to the types of the DRX periods according to the configuration information.

The method of claim 17, wherein the different DRX cycle types have different configuration parameters of power saving signals, and wherein the different DRX cycle types include at least one of the following parameters:

the first time offsets of the energy-saving signals corresponding to different DRX periods are different; the first time offset is the time offset between the sending time position of the energy-saving signal and the starting position of the DRX on duration;

the second time offsets of the energy-saving signals corresponding to the different DRX periods are different; the second time offset is the time offset between the time position of the PDCCH search space of the energy-saving signal and the starting position of the DRX on duration;

the PDCCH searching spaces of the energy-saving signals corresponding to the different DRX periods are different;

the PDCCH control resource sets of the energy-saving signals corresponding to the different DRX periods are different;

the lengths of downlink control information DCI of the energy-saving signals corresponding to the different DRX periods are different;

the indication information of the energy-saving signals corresponding to the different DRX periods has different positions in the DCI;

and the network configuration information of the energy-saving signals corresponding to different DRX periods is different.

The method as claimed in claim 18, wherein the different DRX cycle types have different first time offsets of the power saving signals, comprising:

and the first time offset of the energy-saving signal corresponding to the short DRX period is less than the first time offset of the energy-saving signal corresponding to the long DRX period.

The method as claimed in claim 18, wherein the second time offsets of the power saving signals corresponding to different DRX cycle types are different, comprising:

and the second time offset of the energy-saving signal corresponding to the short DRX period is less than the second time offset of the energy-saving signal corresponding to the long DRX period.

The method of claim 18, wherein the PDCCH search space comprises a plurality of monitoring locations for energy saving signals, and wherein PDCCH search spaces for energy saving signals corresponding to different DRX cycle types are different, comprising:

and the time interval between the monitoring positions of the energy-saving signals corresponding to the short DRX period is less than the time interval between the monitoring positions of the energy-saving signals corresponding to the long DRX period.

The method of claim 17, further comprising:

receiving an energy-saving mechanism starting message; the energy saving mechanism starting message is used for indicating the terminal to start the energy saving mode.

The method of claim 22, wherein the power saving mechanism on message is carried in higher layer control signaling.

A method for processing a power saving signal, the method comprising:

sending configuration information; the configuration information is used for indicating configuration parameters of energy-saving signals, and the configuration parameters comprise configuration parameters of the energy-saving signals corresponding to the types of all DRX periods; the configuration parameters of the energy-saving signals corresponding to different DRX periods are different, and the DRX periods are short DRX periods or long DRX periods.

The method of claim 24, wherein the different DRX cycle types have different configuration parameters of power saving signals, and wherein the different DRX cycle types include at least one of the following parameters:

the first time offsets of the energy-saving signals corresponding to different DRX periods are different; the first time offset is the time offset between the sending time position of the energy-saving signal and the starting position of the DRX on duration;

the second time offsets of the energy-saving signals corresponding to the different DRX periods are different; the second time offset is the time offset between the time position of the PDCCH search space of the energy-saving signal and the starting position of the DRX on duration;

the PDCCH searching spaces of the energy-saving signals corresponding to the different DRX periods are different;

the PDCCH control resource sets of the energy-saving signals corresponding to the different DRX periods are different;

the lengths of downlink control information DCI of the energy-saving signals corresponding to the different DRX periods are different;

the indication information of the energy-saving signals corresponding to the different DRX periods has different positions in the DCI;

and the network configuration information of the energy-saving signals corresponding to different DRX periods is different.

The method of claim 25, wherein the different DRX cycle types have different first time offsets of the power saving signals, comprising:

and the first time offset of the energy-saving signal corresponding to the short DRX period is less than the first time offset of the energy-saving signal corresponding to the long DRX period.

The method of claim 25, wherein the second time offsets of the power saving signals corresponding to different DRX cycle types are different, comprising:

and the second time offset of the energy-saving signal corresponding to the short DRX period is less than the second time offset of the energy-saving signal corresponding to the long DRX period.

The method of claim 25, wherein the PDCCH search space comprises a plurality of monitoring locations for energy saving signals, and wherein PDCCH search spaces for energy saving signals corresponding to different DRX cycle types are different, comprising:

and the time interval between the monitoring positions of the energy-saving signals corresponding to the short DRX period is less than the time interval between the monitoring positions of the energy-saving signals corresponding to the long DRX period.

The method of claim 24, further comprising:

sending an energy-saving mechanism starting message; the energy saving mechanism starting message is used for indicating the terminal to start the energy saving mode.

The method of claim 29, wherein the power saving mechanism on message is carried in higher layer control signaling.

An apparatus for processing a power-saving signal, the apparatus comprising:

the monitoring module is used for monitoring the energy-saving signal;

a determining module, configured to determine whether to perform detection of a physical downlink control channel PDCCH in an active period of a discontinuous reception DRX cycle based on a type of the DRX cycle if the energy-saving signal is not monitored; the DRX period is short DRX period or long DRX period.

An apparatus for processing a power-saving signal, the apparatus comprising:

the receiving module is used for receiving the configuration information; the configuration information is used for indicating configuration parameters of energy-saving signals, and the configuration parameters comprise configuration parameters of the energy-saving signals corresponding to the types of all DRX periods; the configuration parameters of the energy-saving signals corresponding to different DRX periods are different;

and the monitoring module is used for monitoring the energy-saving signals corresponding to the types of the DRX periods according to the configuration information.

An apparatus for processing a power-saving signal, the apparatus comprising: a sending module and a processing module, wherein the sending module and the processing module are connected with each other,

the processing module is used for sending the configuration information through the sending module; the configuration information is used for indicating configuration parameters of energy-saving signals, and the configuration parameters comprise configuration parameters of the energy-saving signals corresponding to the types of all DRX periods; the configuration parameters of the energy-saving signals corresponding to different DRX periods are different.

A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 16 when executing the computer program.

A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 17 to 23 when executing the computer program.

A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 24 to 30 when executing the computer program.

A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 16.

A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 17 to 23.

A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 24 to 30.