CN114501598B - Terminal dormancy control method, device, equipment and readable storage medium - Google Patents
Terminal dormancy control method, device, equipment and readable storage medium Download PDFInfo
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- CN114501598B CN114501598B CN202011271575.9A CN202011271575A CN114501598B CN 114501598 B CN114501598 B CN 114501598B CN 202011271575 A CN202011271575 A CN 202011271575A CN 114501598 B CN114501598 B CN 114501598B
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- 230000005059 dormancy Effects 0.000 title claims abstract description 106
- 238000000034 method Methods 0.000 title claims abstract description 78
- 230000000737 periodic effect Effects 0.000 claims abstract description 96
- 238000001514 detection method Methods 0.000 claims abstract description 80
- 230000007958 sleep Effects 0.000 claims description 67
- 238000004891 communication Methods 0.000 claims description 33
- 230000019371 dormancy process Effects 0.000 claims description 26
- 230000004044 response Effects 0.000 claims description 10
- 238000004590 computer program Methods 0.000 claims description 6
- 238000010586 diagram Methods 0.000 description 14
- 230000008569 process Effects 0.000 description 7
- 230000011664 signaling Effects 0.000 description 6
- 230000000694 effects Effects 0.000 description 5
- 230000009471 action Effects 0.000 description 3
- 238000012545 processing Methods 0.000 description 3
- 230000009467 reduction Effects 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
- H04W52/0229—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a wanted signal
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The embodiment of the application provides a control method, a device, equipment and a readable storage medium for dormancy of a terminal, which are used for acquiring the channel type of the terminal in a current time slot, the working state of the terminal and information sent by a base station, and if the channel type of the terminal in the current time slot is a control channel, and according to the information, the service type of the terminal in an adjacent time slot can be acquired, a first target time period in the adjacent time slot is dormant, and if the channel type of the terminal in the current time slot is a service channel and is in a receiving state, the first target time period in the adjacent time slot is dormant. The first target time period is a time period in which the periodic service is not executed and the neighbor site strength detection service is not executed. Therefore, the method can judge whether the terminal is dormant in the adjacent time slot according to the channel type of the terminal in the current time slot, the working state of the terminal and the information sent by the base station, and if so, the terminal is dormant in the first target time period so as to achieve the purpose of reducing the power consumption.
Description
Technical Field
The present application relates to the field of wireless communications technologies, and in particular, to a method, an apparatus, a device, and a readable storage medium for controlling terminal dormancy.
Background
The power consumption is an important index of the terminal product, and the reduction of the power consumption is the continuous optimization work. The existing method for reducing the power consumption is to optimize the power consumption reduction in the through mode, while in the cluster mode, the power consumption reduction is difficult to develop due to the specificity of the service.
Specifically, under the existing working mechanism of the cluster, the cluster terminal does not support dormancy, but is always kept in an awake state of both time slots, so that signaling of both time slots can be received at the same time, and processing of traffic is prevented.
Disclosure of Invention
In view of this, the present application provides a method, apparatus, device and readable storage medium for controlling sleep of a terminal, for reducing power consumption of the terminal, as follows:
a control method for terminal dormancy is applied to a terminal and comprises the following steps:
acquiring the channel type of the terminal in the current time slot, the working state of the terminal and information sent by a base station;
executing a first dormancy process or a second dormancy process;
the first dormancy process includes: if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot can be obtained according to the information, dormancy is performed in a first target time period in the adjacent time slot, wherein the first target time period is a time period in which periodic service is not executed and adjacent station strength detection service is not executed;
the second dormancy process includes: and if the channel type of the terminal in the current time slot is a service channel and is in a receiving state, dormancy is performed in a first target time period in the adjacent time slot.
Optionally, the first dormancy procedure further includes:
if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot cannot be acquired according to the information, the terminal sleeps in a second target time period in the adjacent time slot, wherein the second target time period is a time period 1 in which the adjacent station strength detection service is not executed.
Optionally, the second target period of time in the adjacent time slot sleeps, including:
and in response to being dormant in X continuous adjacent time slots, wherein X is smaller than a preset periodic dormancy threshold value N, dormancy is performed in the second target time period in the adjacent time slots.
Optionally, the method further comprises:
and in response to having been dormant in N consecutive of the neighbor slots, maintaining wakeup for the second target period of the neighbor slots.
Optionally, the obtaining the service type of the terminal in the adjacent time slot according to the information includes:
if the terminal is in a receiving state currently, determining that the adjacent time slot service type is communication service or periodic service according to the information;
in the first dormancy process, the dormancy of the first target time period in the adjacent time slot includes:
if the adjacent time slot service type is the communication service, under the condition that the adjacent time slot needs to execute the adjacent station strong detection service, the time period of not executing the adjacent station strong detection service in the adjacent time slot is dormant;
or if the adjacent time slot service type is the periodic service, dormancy is performed in a time period which is not in the periodic service and is not in the adjacent station strong detection service in the adjacent time slot.
Optionally, in the first dormancy procedure, the dormancy of the first target time period in the adjacent time slot further includes:
if the terminal is in a transmitting state in the current time slot, the terminal sleeps in a time period when the neighbor site strong detection service is not executed in the neighbor time slot under the condition that the neighbor time slot needs to execute the neighbor site strong detection service, and sleeps in the neighbor time slot under the condition that the neighbor time slot does not need to execute the neighbor site strong detection service.
Optionally, if the channel type of the terminal in the current time slot is a traffic channel and is in a receiving state, the terminal sleeps in a first target time period in the adjacent time slot, including:
judging the working state of the terminal with the current time slot, wherein the channel type of the terminal is a service channel, and the working state of the terminal is the working state of the terminal with the current time slot;
judging whether the adjacent time slot executes the periodic service according to the information under the condition that the working state is a receiving state;
if the adjacent time slot executes the periodic service and the current time does not execute the periodic service in the adjacent time slot and execute the time period dormancy of the adjacent station field strength detection;
and if the adjacent time slot does not execute the periodic service or does not execute the period of the periodic service in the adjacent time slot currently, dormancy is performed in a period of time when the adjacent station strong detection is not executed.
Optionally, the communication service includes a voice or data service;
the periodic service includes: and the GPS assists in controlling the periodic pull-up service.
A control device for terminal dormancy, comprising: a memory and a processor;
the memory is used for storing programs;
the processor is configured to execute the program to implement the steps of the control method for terminal dormancy as described above.
A readable storage medium having stored thereon a computer program, characterized in that the computer program, when executed by a processor, implements the steps of the control method for terminal dormancy as described above.
As can be seen from the above technical solution, in the control method, apparatus, device and readable storage medium for dormancy of a terminal provided by the embodiments of the present application, information sent by a base station and a channel type of the terminal in a current time slot are obtained, if the channel type of the terminal in the current time slot is a control channel and a service type of the terminal in an adjacent time slot can be obtained according to the information, the terminal is dormant in a first target time period in the adjacent time slot, and if the channel type of the terminal in the current time slot is a service channel and is in a receiving state, the terminal is dormant in the first target time period in the adjacent time slot. The first target time period is a time period in which the periodic service is not executed and the neighbor site strength detection service is not executed. Therefore, the method can judge whether the terminal is dormant in the adjacent time slot or not according to the channel type of the terminal in the current time slot, the working state of the terminal and the information sent by the base station, and if so, the terminal is dormant in the first target time period. In conclusion, the method is dormant in the adjacent time slot under the condition of not affecting the adjacent time slot service, and the adjacent time slot power saving strategy is realized, so that the purpose of reducing the power consumption is achieved.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present application, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.
Fig. 1 is a schematic diagram of a specific implementation of a method for controlling sleep of a terminal according to an embodiment of the present application;
fig. 2 is a schematic diagram of a specific implementation of another method for controlling sleep of a terminal according to an embodiment of the present application;
fig. 3 is a flow chart of a method for controlling sleep of a terminal according to an embodiment of the present application;
fig. 4a is a schematic diagram of a control effect of terminal dormancy according to an embodiment of the present application;
fig. 4b is a schematic diagram of a control effect of terminal dormancy according to another embodiment of the present application;
fig. 4c is a schematic diagram of a control effect of terminal dormancy according to another embodiment of the present application;
fig. 4d is a schematic diagram of a control effect of terminal dormancy according to another embodiment of the present application;
fig. 5 is a schematic structural diagram of a control device for terminal dormancy according to an embodiment of the present application;
fig. 6 is a schematic structural diagram of a control device for terminal dormancy according to an embodiment of the present application.
Detailed Description
The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.
The control method for terminal dormancy provided by the embodiment of the application is applied to any one terminal in a terminal cluster, and specifically, the terminal cluster comprises a plurality of terminals. The terminals communicate with each other through the base station, and the trunking communication standard can be referred to the existing police digital trunking (Police Digital Trunking, PDT) or digital mobile interphone (Digital Mobile Radio, DMR) communication standard.
Specifically, in the existing PDT or DMR communication standard, the channel types are divided into a control channel and a traffic channel, the terminal waits on the control channel, mainly processes control signaling, and when the terminal has a service (such as a voice service or a data service) to be processed, the terminal is switched to the traffic channel.
The terminal can lock the receiving frequency point and the transmitting frequency point, each frequency point is divided into two time slots, the terminal is locked on one of the time slots, which is called the current time slot, and the adjacent time slots of the current time slot are called the adjacent time slots. The terminal can receive or transmit the signaling in the current time slot, and can receive the signaling in the adjacent time slot or switch to other frequency points to carry out the adjacent station field strength detection.
The specific flow of the control method for terminal dormancy will be described in detail below based on the channel type of the terminal in the current time slot.
Fig. 1 is a flow chart of a method for controlling terminal dormancy according to an embodiment of the present application, which illustrates a method for controlling terminal dormancy when a channel type of a current time slot is a control channel, as shown in fig. 1, the method specifically includes S101 to S110.
S101, judging whether the working state of the terminal in the current time slot is in a transmitting state, if so, executing S107, and if not, executing S102.
The terminal may transmit control signaling on the control channel.
S102, judging whether the service type of the terminal in the adjacent time slot is communication service according to the information sent by the base station, if so, executing S107, and if not, executing S103.
In this embodiment, the communication traffic may include voice or data traffic. The information sent by the base station may be information indicating the service type of the adjacent time slot, and specific content or format may refer to the existing trunking communication standard, which is not described herein.
S103, judging whether the service type of the adjacent time slot is a periodic service according to the information sent by the base station, if so, executing S104, and if not, executing S105.
One example of periodic traffic is: and the GPS assists in controlling the periodic pull-up service.
And S104, judging whether the terminal at the current moment is in a period of executing periodic service in the adjacent time slot, if so, executing S110, and if not, executing S107.
It should be noted that, after determining that the service type of the adjacent time slot is the periodic service, the periodic service may be executed after the arrival of the adjacent time slot, and S104 may be executed.
S105, determining that the service type of the adjacent time slot cannot be judged according to the information sent by the base station, and executing S106.
S106, judging whether the device sleeps in X continuous adjacent time slots and X is smaller than a preset periodic sleep threshold N, if yes, executing S107, and if not, executing S110.
In this embodiment, a plurality of adjacent time slots may be divided into a sleep adjacent time slot and a wake adjacent time slot in advance, where the ratio of the sleep adjacent time slot to the wake adjacent time slot is N:1. the dormant neighbor time slot refers to a neighbor time slot entering the neighbor time slot, i.e., the dormant neighbor time slot. The wake-up adjacent time slot is the adjacent time slot which enters the adjacent time slot and keeps wake-up. That is, the current adjacent time slot is kept awake after the N adjacent time slots are periodically dormant, and if N adjacent time slots are not enough, the current adjacent time slot can be dormant, i.e. whether to be dormant is determined according to the subsequent conditions.
And S107, judging whether the terminal needs to execute the neighbor site strength detection service in the neighbor time slot, if so, executing S108, and if not, executing S109.
The neighbor site strength detection service is triggered and executed by the terminal, so that the terminal can acquire information whether the neighbor site strength detection service is executed or not.
S108, judging whether the terminal at the current moment is in a time period of executing the neighbor site strength detection service in the neighbor time slot, if so, executing S110, and if not, executing S109.
S109, the terminal sleeps.
In summary, specifically, when the terminal is in the transmitting state in the current time slot and the terminal does not execute the neighbor site strength detection service in the neighbor time slot, the terminal executes neighbor time slot dormancy.
Or the terminal is in a receiving state in the current time slot, and judges that the service type of the terminal in the adjacent time slot is communication service according to the information sent by the base station, the terminal sleeps in a time period when the adjacent time slot does not execute the adjacent station strength detection service.
Or the terminal is in a receiving state in the current time slot, judges that the service type of the terminal in the adjacent time slot is periodic service according to the information sent by the base station, and is not in a time period for executing the periodic service, the terminal sleeps in a time period for not executing the adjacent station strength detection service in the adjacent time slot.
Or the terminal is in a receiving state in the current time slot, the service type of the terminal in the adjacent time slot can not be judged according to the information sent by the base station, and the terminal is in a dormancy period in the adjacent time slot, so that the terminal is dormant in a time period when the adjacent time slot does not execute the adjacent station field strength detection service.
In this embodiment, sleep refers to that when a terminal is in a neighboring time slot, a radio frequency device is in a sleep state, and reduces the main frequency, which can reduce power consumption.
S110, the terminal keeps awake.
According to the technical scheme, the control method for terminal dormancy provided by the embodiment of the application can judge whether the terminal is dormant in the adjacent time slot or not according to the working state of the terminal in the current time slot and the information sent by the base station under the condition that the channel type of the terminal in the current time slot is a control channel, and the power consumption of the terminal can be reduced in the dormant state of the adjacent time slot.
It should be emphasized that, when the terminal is controlling the channel, if the terminal is currently in the transmitting state, according to the cluster service processing condition of the PDT or DMR standard, the data of the adjacent time slot is not needed, so that the service type of the adjacent time slot is not needed to be determined any more, and the adjacent time slot can be dormant under the condition that the terminal does not need to perform the strong detection of the adjacent station. Therefore, the embodiment designs the logic of the flow according to the standard of the existing cluster communication, and achieves the purpose of reducing the power consumption of the terminal.
Fig. 2 is a flow chart of another method for controlling terminal dormancy according to an embodiment of the present application, which illustrates a method for controlling terminal dormancy when a channel type of a current time slot is a traffic channel, and as shown in fig. 2, the method specifically includes S201 to S207.
S201, judging whether the working state of the terminal in the current time slot is in a transmitting state, if so, executing S202, and if not, executing S203.
S202, the terminal keeps awake.
When the terminal is in a service channel, if the terminal is in a transmitting state currently, according to the characteristics of cluster service, the downlink signaling of the adjacent time slot is needed, so that the adjacent time slot needs to be awakened. Without the need to perform the following steps.
S203, judging whether the service type of the adjacent time slot is a periodic service according to the information sent by the base station, if so, executing S204, and if not, executing S205.
S204, judging whether the terminal at the current moment is in a period of executing periodic service in the adjacent time slot, if yes, executing S202, otherwise executing S205.
S205, judging whether the terminal needs to execute the neighbor site strength detection service in the neighbor time slot, if so, executing S206, and if not, executing S207.
S206, judging whether the terminal at the current moment is in a time period for executing the neighbor site strength detection service in the neighbor time slot, if so, executing S202, and if not, executing S207.
It should be noted that, after determining that the service type of the adjacent time slot is the periodic service, the periodic service may be executed after the arrival of the adjacent time slot, and S206 may be executed.
S207, the terminal sleeps.
Specifically, the terminal is in a receiving state in the current time slot, and judges that the service type of the terminal in the adjacent time slot is not periodic service according to the information sent by the base station, and the terminal sleeps in a time period when the adjacent time slot does not execute the adjacent station strength detection service.
Or the terminal is in a receiving state in the current time slot, and can judge that the service type of the terminal in the adjacent time slot is periodic service according to the information sent by the base station, and the terminal is dormant in a time period when the terminal is not in a time period when the periodic service is executed and the terminal is not executing the adjacent station strong detection service in the adjacent time slot.
According to the technical scheme, the control method for terminal dormancy provided by the embodiment of the application can judge whether the terminal is dormant in the adjacent time slot or not according to the working state of the terminal in the current time slot and the information sent by the base station under the condition that the channel type of the terminal in the current time slot is a service channel, and can reduce power consumption under the dormant state of the adjacent time slot.
It should be noted that, fig. 1 illustrates an execution process of the control method for dormancy of the terminal when the channel type of the current time slot is the control channel. Fig. 2 illustrates an execution process of a control method for dormancy of a terminal when a channel type of a current time slot is a traffic channel. The present embodiment summarizes the above-described control method of terminal dormancy illustrated in fig. 1 and 2 into a flow shown in fig. 3.
Fig. 3 is a flow chart of a method for controlling sleep of a terminal according to an embodiment of the present application, and as shown in the drawing, may specifically include S301 to S303.
S301, acquiring the channel type of the terminal in the current time slot, the working state of the terminal and information sent by the base station.
In this embodiment, the channel type where the terminal is located in the current time slot includes a control channel or a traffic channel, and the working state of the terminal indicates the working state of the terminal in the current time slot, including a receiving state or a transmitting state. The information sent by the base station indicates the service type of the terminal in the adjacent time slot.
S302, if the channel type of the terminal in the current time slot is a control channel, executing a first dormancy process.
In this embodiment, the first sleep procedure includes:
and according to the information sent by the base station, the service type of the terminal in the adjacent time slot can be obtained, and the terminal sleeps in a first target time period in the adjacent time slot.
The first target time period is a time period in which the periodic service is not executed and the neighbor site strength detection service is not executed.
It should be noted that, the case where the periodic service is not executed includes: the service type of the adjacent time slot is not in the periodic service, or the terminal at the current moment is not in the period of time for executing the periodic service in the adjacent time slot.
The case of not executing the neighbor site strong detection service includes: the neighbor time slot does not need to execute the neighbor site strong detection service, or the terminal at the current moment is not in the time period of the neighbor time slot for executing the neighbor site strong detection service.
Specifically, the execution process of the first sleep procedure may refer to fig. 1.
S303, if the channel type of the terminal in the current time slot is a service channel, executing a second dormancy process.
In this embodiment, the second sleep procedure includes:
if the working state of the terminal in the current time slot is a receiving state, the terminal sleeps in a first target time period in the adjacent time slot. The first target time period is a time period in which the periodic service is not executed and the neighbor site strength detection service is not executed. Specifically, the first target period may refer to S302, which is not described herein in detail.
Specifically, the execution of the second sleep procedure may refer to fig. 2.
As can be seen from the above-mentioned technical solutions, in the control method for dormancy of a terminal provided by the embodiments of the present application, the channel type of the terminal in the current time slot, the working state of the terminal, and the information sent by the base station are obtained, if the channel type of the terminal in the current time slot is a control channel, and according to the information, the service type of the terminal in the adjacent time slot can be obtained, and dormancy is performed in the first target time period in the adjacent time slot. If the channel type of the terminal in the current time slot is a service channel and is in a receiving state, the terminal sleeps in a first target time period in the adjacent time slot. The first target time period is a time period in which the periodic service is not executed and the neighbor site strength detection service is not executed. Therefore, the method can judge whether the terminal performs dormancy in the adjacent time slot according to the channel type of the terminal in the current time slot, the working state of the terminal and the information sent by the base station, and if so, the dormancy is performed in the first target time period. In conclusion, the method is dormant in the adjacent time slot under the condition of not affecting the adjacent time slot service, and the adjacent time slot power saving strategy is realized, so that the purpose of reducing the power consumption is achieved.
The embodiment of the application takes a specific scene as an example to illustrate the control effect of the control method for terminal dormancy provided by the embodiment of the application.
Fig. 4a illustrates a schematic diagram of performing neighbor time slot full dormancy when the terminal does not perform the neighbor site strong detection service, and as shown in fig. 4a, the terminal performs dormancy in the neighbor time slots of each frequency point.
It should be noted that, according to the method for controlling sleep of a terminal provided by the embodiment of the present application, all durations of adjacent time slots shown in fig. 4a are dormant under the scenario shown in any one of the following A1 to A3.
A1, the terminal is in a control channel, and the terminal is in a transmitting state in the current time slot.
A2, the terminal is in a control channel, the terminal is in a receiving state in the current time slot, and the service type of the terminal in the adjacent time slot is communication service, such as voice or data service.
A3, the terminal is in a service channel, the terminal is in a receiving state in the current time slot, and the service type of the terminal in the adjacent time slot is not periodic service.
Fig. 4b illustrates a schematic diagram of performing neighbor slot cycle dormancy when the terminal does not perform the neighbor site strong detection service, and as shown in fig. 4b, the terminal performs dormancy in the neighbor slots of the frequency points satisfying the dormancy cycle.
It should be noted that, according to the method for controlling sleep of a terminal provided by the embodiment of the present application, adjacent slot cycle sleep shown in fig. 4B is performed under the following two scenarios B1 or B2.
B1, the terminal is in a control channel, the terminal is in a receiving state in the current time slot, and the service type of the terminal in the adjacent time slot is periodic service, so that the terminal sleeps in a time period when the adjacent time slot is not in the period of executing the periodic service, wakes up in the time period when the adjacent time slot is in the period of executing the periodic service, and the periodic dormancy of the adjacent time slot is realized.
B2, the terminal is in a scene of a service channel, the terminal is in a receiving state in the current time slot, and the service type of the terminal in the adjacent time slot is periodic service, so that the terminal sleeps in a time period when the adjacent time slot is not in the period of executing the periodic service, wakes up in the time period when the adjacent time slot is in the period of executing the periodic service, and the periodic dormancy of the adjacent time slot is realized.
Fig. 4c illustrates a schematic diagram of performing neighbor time slot proportional dormancy when the terminal does not perform the neighbor site strong detection service, and as shown in fig. 4c, the terminal performs dormancy in the neighbor time slot of the frequency point satisfying the proportional dormancy.
It should be noted that, according to the method for controlling sleep of a terminal provided by the embodiment of the present application, in the scenario described in the following C, the adjacent time slot proportional sleep shown in fig. 4C is performed.
C. The terminal is in a control channel, the terminal is in a receiving state in the current time slot, and the service type of the terminal in the adjacent time slot cannot be determined, so that the terminal sleeps in the adjacent time slot which is a dormant adjacent time slot, and wakes up in the wake-up adjacent time slot, so that the proportional dormancy of the adjacent time slot is realized.
Fig. 4D illustrates a schematic diagram of performing neighbor time slot dormancy when the terminal performs the neighbor site strong detection service and does not perform the periodic service, and it should be noted that, according to the method for controlling terminal dormancy provided by the embodiment of the present application, the neighbor time slot dormancy illustrated in fig. 4D is performed under the scenario described in D1 or D2 below.
And D1, the terminal is positioned in a control channel, and the terminal executes neighbor time slot dormancy in a time period when the neighbor time slot is positioned in a time period for executing neighbor site strong detection service.
And D2, the terminal is in a service channel, and the terminal executes neighbor time slot dormancy in a time period when the neighbor time slot is in a time period for executing neighbor site strong detection service.
Fig. 5 is a schematic structural diagram of a control device for terminal dormancy according to an embodiment of the present application, where, as shown in fig. 5, the device may include:
an information obtaining unit 501, configured to obtain a channel type where a current time slot of the terminal is located, a working state of the terminal, and information sent by a base station;
a sleep flow execution unit 502, configured to execute a first sleep flow or a second sleep flow;
the first dormancy process includes: if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot can be obtained according to the information, the terminal sleeps in a first target time period in the adjacent time slot, wherein the target time period is a time period in which periodic service is not executed and adjacent station strength detection service is not executed;
the second dormancy process includes: and if the channel type of the terminal in the current time slot is a service channel and is in a receiving state, dormancy is performed in a first target time period in the adjacent time slot.
Optionally, the first dormancy procedure further includes:
if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot cannot be acquired according to the information, the terminal sleeps in a second target time period in the adjacent time slot, wherein the second target time period is a time period in which the adjacent station strength detection service is not executed.
Optionally, the second target period of time in the adjacent time slot sleeps, including:
and in response to being dormant in X continuous adjacent time slots, wherein X is smaller than a preset periodic dormancy threshold value N, dormancy is performed in the second target time period in the adjacent time slots.
Optionally, the method further comprises:
and in response to having been dormant in N consecutive of the neighbor slots, maintaining wakeup for the second target period of the neighbor slots.
Optionally, when the sleep flow execution unit is configured to execute the first sleep flow, the acquiring, according to the information, the service type of the terminal in the adjacent time slot includes:
if the terminal is in a receiving state currently, determining that the adjacent time slot service type is communication service or periodic service according to the information;
in the first dormancy process, the dormancy of the first target time period in the adjacent time slot includes:
if the adjacent time slot service type is the communication service, under the condition that the adjacent time slot needs to execute the adjacent station strong detection service, the time period of not executing the adjacent station strong detection service in the adjacent time slot is dormant;
or if the adjacent time slot service type is the periodic service, the adjacent time slot is not dormant in a time period for executing the periodic service and not in the adjacent station strong detection service.
Optionally, the sleep flow execution unit is configured to execute a first sleep flow, including:
the sleep flow execution unit is specifically configured to, when the first target period in the adjacent slot sleeps, further be configured to:
if the terminal is in a transmitting state in the current time slot, the terminal sleeps in a time period when the neighbor site strong detection service is not executed in the neighbor time slot under the condition that the neighbor time slot needs to execute the neighbor site strong detection service, and sleeps in the neighbor time slot under the condition that the neighbor time slot does not need to execute the neighbor site strong detection service.
Optionally, when the sleep flow execution unit is configured to execute the second sleep flow, the sleep flow execution unit is specifically configured to:
judging the working state of the terminal with the current time slot, wherein the channel type of the terminal is a service channel, and the working state of the terminal is the working state of the terminal with the current time slot;
judging whether the adjacent time slot executes the periodic service according to the information under the condition that the working state is a receiving state;
if the adjacent time slot executes the periodic service and the current time does not execute the periodic service in the adjacent time slot and execute the time period dormancy of the adjacent station field strength detection;
and if the adjacent time slot does not execute the periodic service or does not execute the period of the periodic service in the adjacent time slot currently, dormancy is performed in a period of time when the adjacent station strong detection is not executed.
Optionally, the communication service includes a voice or data service;
the periodic service includes: and the GPS assists in controlling the periodic pull-up service.
The embodiment of the application also provides a control device for terminal dormancy, referring to fig. 6, a schematic structural diagram of the control device for terminal dormancy is shown, where the device may include: at least one processor 601, at least one communication interface 602, at least one memory 603 and at least one communication bus 604;
in the embodiment of the present application, the number of the processor 601, the communication interface 602, the memory 603 and the communication bus 604 is at least one, and the processor 601, the communication interface 602 and the memory 603 complete communication with each other through the communication bus 604;
processor 601 may be a central processing unit CPU, or a specific integrated circuit ASIC (Application Specific Integrated Circuit), or one or more integrated circuits configured to implement embodiments of the present application, etc.;
the memory 603 may include a high-speed RAM memory, and may further include a non-volatile memory (non-volatile memory), etc., such as at least one disk memory;
the memory stores a program, and the processor can execute the program stored in the memory to realize the control method for terminal dormancy provided by the embodiment of the application, which is as follows:
a control method for terminal dormancy is applied to a terminal and comprises the following steps:
acquiring the channel type of the terminal in the current time slot, the working state of the terminal and information sent by a base station;
executing a first dormancy process or a second dormancy process;
the first dormancy process includes: if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot can be obtained according to the information, dormancy is performed in a first target time period in the adjacent time slot, wherein the first target time period is a time period in which periodic service is not executed and adjacent station field strength detection service is not executed;
the second dormancy process includes: and if the channel type of the terminal in the current time slot is a service channel and is in a receiving state, dormancy is performed in a first target time period in the adjacent time slot.
Optionally, the first dormancy procedure further includes:
if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot cannot be acquired according to the information, the terminal sleeps in a second target time period in the adjacent time slot, wherein the second target time period is a time period in which the adjacent station strength detection service is not executed.
Optionally, the second target period of time in the adjacent time slot sleeps, including:
and in response to being dormant in X continuous adjacent time slots, wherein X is smaller than a preset periodic dormancy threshold value N, dormancy is performed in the second target time period in the adjacent time slots.
Optionally, the method further comprises:
and in response to having been dormant in N consecutive of the neighbor slots, maintaining wakeup for the second target period of the neighbor slots.
Optionally, the information obtaining the service type of the terminal in the adjacent time slot includes:
if the terminal is in a receiving state currently, determining that the adjacent time slot service type is communication service or periodic service according to the information;
in the first dormancy process, the dormancy of the first target time period in the adjacent time slot includes:
if the adjacent time slot service type is the communication service, under the condition that the adjacent time slot needs to execute the adjacent station strong detection service, the time period of not executing the adjacent station strong detection service in the adjacent time slot is dormant;
or if the adjacent time slot service type is the periodic service, the adjacent time slot is not dormant in a time period for executing the periodic service and not in the adjacent station strong detection service.
Optionally, in the first dormancy procedure, the dormancy of the first target time period in the adjacent time slot further includes:
if the terminal is in a transmitting state in the current time slot, the terminal sleeps in a time period when the neighbor site strong detection service is not executed in the neighbor time slot under the condition that the neighbor time slot needs to execute the neighbor site strong detection service, and sleeps in the neighbor time slot under the condition that the neighbor time slot does not need to execute the neighbor site strong detection service.
Optionally, if the channel type of the terminal in the current time slot is a traffic channel and is in a receiving state, the terminal sleeps in a first target time period in the adjacent time slot, including:
judging the working state of the terminal with the current time slot, wherein the channel type of the terminal is a service channel, and the working state of the terminal is the working state of the terminal with the current time slot;
judging whether the adjacent time slot executes the periodic service according to the information under the condition that the working state is a receiving state;
if the adjacent time slot executes the periodic service and the current time does not execute the periodic service in the adjacent time slot and execute the time period dormancy of the adjacent station field strength detection;
and if the adjacent time slot does not execute the periodic service or does not execute the period of the periodic service in the adjacent time slot currently, dormancy is performed in a period of time when the adjacent station strong detection is not executed.
Optionally, the communication service includes a voice or data service;
the periodic service includes: and the GPS assists in controlling the periodic pull-up service.
The embodiment of the application also provides a readable storage medium, which can store a computer program suitable for being executed by a processor, and when the computer program is executed by the processor, the control method for terminal dormancy provided by the embodiment of the application is realized as follows:
a control method for terminal dormancy is applied to a terminal and comprises the following steps:
acquiring the channel type of the terminal in the current time slot, the working state of the terminal and information sent by a base station;
executing a first dormancy process or a second dormancy process;
the first dormancy process includes: if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot can be obtained according to the information, dormancy is performed in a first target time period in the adjacent time slot, wherein the first target time period is a time period in which periodic service is not executed and adjacent station field strength detection service is not executed;
the second dormancy process includes: and if the channel type of the terminal in the current time slot is a service channel and is in a receiving state, dormancy is performed in a first target time period in the adjacent time slot.
Optionally, the first dormancy procedure further includes:
if the channel type of the terminal in the current time slot is a control channel and the service type of the terminal in the adjacent time slot cannot be acquired according to the information, the terminal sleeps in a second target time period in the adjacent time slot, wherein the second target time period is a time period in which the adjacent station strength detection service is not executed.
Optionally, the second target period of time in the adjacent time slot sleeps, including:
and in response to being dormant in X continuous adjacent time slots, wherein X is smaller than a preset periodic dormancy threshold value N, dormancy is performed in the second target time period in the adjacent time slots.
Optionally, the method further comprises:
and in response to having been dormant in N consecutive of the neighbor slots, maintaining wakeup for the second target period of the neighbor slots.
Optionally, acquiring the service type of the terminal in the adjacent time slot according to the information includes:
if the terminal is in a receiving state currently, determining that the adjacent time slot service type is communication service or periodic service according to the information;
in the first dormancy process, the dormancy of the first target time period in the adjacent time slot includes:
if the adjacent time slot service type is the communication service, under the condition that the adjacent time slot needs to execute the adjacent station strong detection service, the time period of not executing the adjacent station strong detection service in the adjacent time slot is dormant;
or if the adjacent time slot service type is the periodic service, dormancy is performed in a time period when the adjacent time slot is not in the period of executing the periodic service and is not in the adjacent station strong detection service.
Optionally, in the first dormancy procedure, the dormancy of the first target time period in the adjacent time slot further includes:
if the terminal is in a transmitting state in the current time slot, the terminal sleeps in a time period when the neighbor site strong detection service is not executed in the neighbor time slot under the condition that the neighbor time slot needs to execute the neighbor site strong detection service, and sleeps in the neighbor time slot under the condition that the neighbor time slot does not need to execute the neighbor site strong detection service.
Optionally, if the channel type of the terminal in the current time slot is a traffic channel and is in a receiving state, the terminal sleeps in a first target time period in the adjacent time slot, including:
judging the working state of the terminal with the current time slot, wherein the channel type of the terminal is a service channel, and the working state of the terminal is the working state of the terminal with the current time slot;
judging whether the adjacent time slot executes the periodic service according to the information under the condition that the working state is a receiving state;
if the adjacent time slot executes the periodic service and the current time does not execute the periodic service in the adjacent time slot and execute the time period dormancy of the adjacent station field strength detection;
and if the adjacent time slot does not execute the periodic service or does not execute the period of the periodic service in the adjacent time slot currently, dormancy is performed in a period of time when the adjacent station strong detection is not executed.
Optionally, the communication service includes a voice or data service;
the periodic service includes: and the GPS assists in controlling the periodic pull-up service.
Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (10)
1. The control method for terminal dormancy is applied to cluster terminals and is characterized by comprising the following steps:
acquiring the channel type of the trunking terminal at the current time slot, the working state of the trunking terminal and the information sent by the base station; the working state comprises a receiving state and a transmitting state;
executing a first dormancy process or a second dormancy process;
the first dormancy process includes: if the channel type of the cluster terminal in the current time slot is a control channel and the service type of the cluster terminal in the adjacent time slot can be obtained according to the information, dormancy is performed in a first target time period in the adjacent time slot, wherein the first target time period is a time period in which periodic service is not executed and adjacent station strength detection service is not executed; the service types comprise communication services and periodic services;
the second dormancy process includes: and if the channel type of the cluster terminal in the current time slot is a service channel and is in a receiving state, dormancy is performed in a first target time period in the adjacent time slot, wherein the first target time period is a time period in which the periodic service is not executed and the adjacent station strong detection service is not executed.
2. The method of claim 1, wherein the first sleep procedure further comprises:
if the channel type of the cluster terminal in the current time slot is a control channel and the service type of the cluster terminal in the adjacent time slot cannot be acquired according to the information, the cluster terminal sleeps in a second target time period in the adjacent time slot, wherein the second target time period is a time period in which the adjacent station field strength detection service is not executed.
3. The method of claim 2, wherein the second target period of time in the neighbor time slot sleeps, comprising:
and in response to being dormant in X continuous adjacent time slots, wherein X is smaller than a preset periodic dormancy threshold value N, dormancy is performed in the second target time period in the adjacent time slots.
4. A method according to claim 3, further comprising:
and in response to having been dormant in N consecutive of the neighbor slots, maintaining wakeup for the second target period of the neighbor slots.
5. The method according to claim 1 or 2, wherein obtaining the service type of the trunking terminal in the adjacent time slot according to the information comprises:
if the cluster terminal is currently in a receiving state, determining that the adjacent time slot service type is communication service or periodic service according to the information;
in the first dormancy process, the dormancy of the first target time period in the adjacent time slot includes:
if the adjacent time slot service type is the communication service, under the condition that the adjacent time slot needs to execute the adjacent station strong detection service, the time period of not executing the adjacent station strong detection service in the adjacent time slot is dormant;
or if the adjacent time slot service type is the periodic service, the adjacent time slot is not in the periodic service execution time and is not dormant in the time period of the adjacent station strong detection service.
6. The method of claim 5, wherein in the first dormancy process, the first target period of time in the neighbor time slot is dormant, further comprising:
if the cluster terminal is in a transmitting state in the current time slot, the time period of not executing the neighbor site strong detection service in the neighbor time slot is dormant under the condition that the neighbor time slot needs to execute the neighbor site strong detection service, and the time period of not executing the neighbor site strong detection service in the neighbor time slot is dormant under the condition that the neighbor time slot does not need to execute the neighbor site strong detection service.
7. The method of claim 1, wherein if the channel type of the trunking terminal in the current time slot is a traffic channel and is in a receiving state, the sleeping in the first target period in the adjacent time slot comprises:
judging the working state of the cluster terminal with the current time slot, wherein the channel type of the cluster terminal is a service channel, and the working state of the cluster terminal is the service channel;
judging whether the adjacent time slot executes the periodic service according to the information under the condition that the working state is a receiving state;
if the adjacent time slot executes the periodic service and the current time does not execute the periodic service in the adjacent time slot and execute the time period dormancy of the adjacent station field strength detection;
and if the adjacent time slot does not execute the periodic service or does not execute the period of the periodic service in the adjacent time slot currently, dormancy is performed in a period of time when the adjacent station strong detection is not executed.
8. The method of claim 1, wherein the communication traffic comprises voice or data traffic;
the periodic service includes: and the GPS assists in controlling the periodic pull-up service.
9. A control apparatus for terminal dormancy, comprising: a memory and a processor;
the memory is used for storing programs;
the processor is configured to execute the program to implement the steps of the method for controlling sleep of a terminal according to any one of claims 1 to 8.
10. A readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the control method of terminal dormancy according to any one of claims 1 to 8.
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