CN115413006B - Method and system for improving endurance of terminal by base station - Google Patents

Abstract

The invention relates to a method and a system for improving the endurance of a terminal by a base station, wherein the method comprises the following steps: s1, a base station multiplexes a reconfiguration signaling to inform a terminal of reporting auxiliary capacity information; s5, the base station receives the auxiliary capacity information reported by the terminal, and screens out the low-endurance terminal according to the temperature information, the electric quantity information, the online software using quantity information and the chip using type information of the terminal in the auxiliary capacity information; s7, screening the idle resources meeting the service requirement of the low endurance terminal by the base station, and preferentially distributing the screened idle resources meeting the service requirement of the low endurance terminal to the low endurance terminal for use; or the screened cell with better coverage preferentially optimizes a scheduling strategy for the low endurance terminal, and the standby time of the low endurance terminal is prolonged. The invention can reduce the energy consumption of the low endurance terminal and improve the endurance capacity of the low endurance terminal.

Description

Method and system for improving endurance of terminal by base station

Technical Field

The invention relates to the technical field of energy conservation of mobile communication terminals, in particular to a method and a system for improving the endurance capacity of a terminal by a base station.

Background

With the development of mobile communication network technology, network resources used by terminals are more and more abundant; meanwhile, the larger the total energy consumption of the terminal is, the larger the space for energy conservation, emission reduction, environmental protection is available. Therefore, how to ensure that the terminal stays in the standby state for a longer time and provide a long endurance for the terminal becomes a necessary research subject of the mobile communication network technology at present.

Disclosure of Invention

In order to solve the technical problem, the invention provides a method and a system for improving the endurance of a terminal by a base station.

The first aspect of the present invention provides a method for improving endurance of a terminal by a base station, wherein the method comprises the following steps:

s1, the base station multiplexes the reconfiguration signaling to inform the terminal to report the auxiliary capacity information.

S5, the base station receives the auxiliary capacity information reported by the terminal, and screens out the low-endurance terminal according to the temperature information, the electric quantity information, the online software using quantity information and the chip using type information of the terminal in the auxiliary capacity information;

s7, the base station screens resources meeting the service requirements of the low endurance terminal or better-coverage cells, and preferentially allocates the screened resources meeting the service requirements of the low endurance terminal to the low endurance terminal for use; or the screened cell with better coverage preferentially optimizes a scheduling strategy for the low endurance terminal, and the standby time of the low endurance terminal is prolonged.

As a preferable technical solution, before S1, the method further includes: the base station screens the terminals meeting the conditions through at least one index of an uplink service index, a downlink service index, power allowance and reference signal receiving power of the terminals exceeding a preset threshold; and before the step S5, the step S2 is further included, and the terminal reports the auxiliary capacity information to the base station by multiplexing the auxiliary capacity information signaling.

As a preferable technical solution, the S5 further includes: the base station respectively sets a temperature threshold value, an electric quantity threshold value, an online software using quantity threshold value and a chip type threshold value of the terminal, and screens out the low endurance terminal; or the base station sets a grading standard of a temperature threshold value, an electric quantity threshold value, an online software using quantity threshold value and a chip type threshold value of the terminal, and screens out the low-endurance terminal when the total grade exceeds a preset grade value.

As a preferable technical solution, the S7 further includes: firstly, screening resources meeting the service requirements of the low endurance terminal in a base station of the low endurance terminal; if the resources meeting the service requirements of the low endurance terminal are not screened in the base station of the low endurance terminal, continuing to screen the resources meeting the service requirements of the low endurance terminal in the adjacent base station; and if the adjacent base station screens the resources meeting the service requirement of the low endurance terminal, switching the low endurance terminal to the adjacent base station.

As a preferred technical solution, the neighboring base station of the low endurance terminal and the base station are connected by XN and are different frequencies from each other; and the times of XN switching requests of the adjacent base station of the low endurance terminal and the local base station in the preset time reach a preset first threshold value, and the XN switching success rate reaches a second threshold value.

As a preferred technical solution, the step of screening, by the local base station or the neighboring base station of the low endurance terminal, the resource meeting the service requirement of the low endurance terminal includes: and reallocating new resources to other terminals occupying resources meeting the service requirement of the low endurance terminal, so that the resources occupied by the other terminals meeting the service requirement of the low endurance terminal are idle.

As a preferable technical solution, the S7 further includes: the base station enables the low endurance terminal to screen a better-coverage cell of an out-of-band frequency or a low-band inter-system measurement signaling to the low endurance terminal and then report a measurement report to the base station, the base station sends a switching command to the low endurance terminal, the low endurance terminal is switched to the screened better-coverage cell of the out-of-band frequency which firstly reports the measurement report, and the better-coverage cell of the out-of-band frequency is preferentially an optimized scheduling strategy for the low endurance terminal, so that the standby time of the low endurance terminal is prolonged.

The second aspect of the present invention provides a system for improving the endurance of a terminal by a base station, which comprises a base station and a terminal, wherein the base station comprises a first signaling generation module, a first transceiver module and a screening module; the first signaling generation module is used for generating reconfiguration signaling; the first transceiver module is used for sending the multiplexed reconfiguration signaling to a terminal and informing the terminal to report auxiliary capacity information; the screening module is used for screening the low-endurance terminal according to the temperature information, the electric quantity information, the online software using quantity information and the chip using type information of the terminal in the auxiliary capacity information reported by the terminal; the screening module is also used for screening resources meeting the service requirements of the low endurance terminal and preferentially distributing the screened resources meeting the service requirements of the low endurance terminal to the low endurance terminal for use; or the screening module is further used for screening a better-coverage cell meeting the service requirement of the low endurance terminal, and the screened better-coverage cell preferentially optimizes a scheduling strategy for the low endurance terminal, so that the standby time of the low endurance terminal is prolonged;

the terminal comprises a second transceiver module, wherein the second transceiver module is used for receiving a reconfiguration signaling for informing the base station that the terminal reports the auxiliary capacity information, and sending or reporting the auxiliary capacity information to the base station; the auxiliary capacity information comprises temperature information, electric quantity information, online use software quantity information and use chip type information of the terminal.

As a preferred technical solution, the screening module is further configured to screen a terminal meeting the condition through that at least one of an uplink service index, a downlink service index, a power headroom and a reference signal received power of the terminal exceeds a preset threshold; the terminal also comprises a second signaling generation module which is used for generating the auxiliary capability information signaling; the second transceiver module is further configured to report the auxiliary capability information to the base station by multiplexing the auxiliary capability information signaling.

As a preferred technical scheme, the screening module is further used for setting a temperature threshold value, an electric quantity threshold value, an online software usage quantity threshold value and a chip type threshold value of the terminal, and screening out the low endurance terminal; or the screening module is also used for setting grading standards of a temperature threshold value, an electric quantity threshold value, an online software using quantity threshold value and a chip type threshold value of the terminal, and screening out the low endurance terminal when the total grade exceeds a preset grade value.

Compared with the prior art, the method has the advantages that the base station can screen out the low-endurance terminal based on the auxiliary capacity information of the terminal; the base station can reduce the energy consumption of the low endurance terminal and improve the endurance capacity of the low endurance terminal through the following scheme: scheduling resources meeting the service requirements of the low endurance terminal to be allocated to the low endurance terminal for use; or screening a better-coverage cell meeting the service requirement of the low-endurance terminal, and preferentially optimizing a scheduling strategy for the low-endurance terminal by the screened better-coverage cell, so as to prolong the standby time of the low-endurance terminal.

Drawings

To further illustrate the detailed description of the invention, exemplary embodiments of the invention are described in more detail below with reference to the accompanying drawings, in which:

fig. 1 is a schematic diagram of signaling interaction between a base station and a terminal in a method and system for improving endurance of a terminal by the base station according to an embodiment of the present invention;

fig. 2 is a schematic frame diagram of a base station of a system for improving the endurance of a terminal by the base station according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a frame of a terminal of a system for improving a cruising ability of a terminal by a base station according to an embodiment of the present invention;

fig. 4 is a flowchart illustrating a method for improving endurance of a terminal by a base station according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1, a system for improving endurance of a base station according to an embodiment of the present invention includes a base station 10 and a terminal 30. The base station 10 and the terminal 30 may exchange information through signaling. In this embodiment, the base station 10 acquires information from the terminal 30 by multiplexing the reconfiguration signaling; the terminal 30 reports the auxiliary capability information to the base station 10 by multiplexing the auxiliary capability information signaling.

According to the R16 standard promulgated by the international organization 3GPP (the 3rd Generation Partnership Project) of communication standards, an auxiliary capability Information signaling (UE Assistance Information) is newly added. The assistance capability information signaling is used to transmit suggested over-temperature assistance information, DRX parameters, maximum aggregated bandwidth, minimum scheduling offset for cross-slot scheduling, antenna configuration, etc. By adding 1 terminal state field in the auxiliary capability information signaling, other state information of the terminal can be reported. For example: the current temperature, the electric quantity information, the online software using quantity information, the chip using type information and the like.

Referring to fig. 1 and fig. 2, the base station 10 includes a first signaling generation module 11, a first transceiver module 13, and a screening module 15.

The first signaling generating module 11 is configured to generate a reconfiguration signaling. The first transceiver module 13 is configured to send the multiplexed reconfiguration signaling to the terminal 30 and notify the terminal 30 to report the auxiliary capability information.

The screening module 15 is configured to screen out a low endurance terminal according to temperature information, electric quantity information, online software usage quantity information, and chip usage type information of the terminal 30 in the auxiliary capability information reported by the terminal 30. Specifically, the screening module 15 is configured to set a temperature threshold, an electric quantity threshold, an online software usage quantity threshold, and a chip type threshold of the terminal 30, and screen out the low endurance terminal. It can be understood that the temperature threshold, the power threshold, the online software usage threshold, and the chip type usage threshold of the terminal 30 can be flexibly set and considered; for example: the temperature of the terminal 30 exceeds 50 ℃, the electric quantity is lower than 20%, the quantity of online software is more than 5, and the type of the chip is brand A; when the terminal 30 reaches all the above conditions, it is determined as a low endurance terminal. The screened low endurance terminal is the object to be served by the base station 10 of the present invention.

In a specific embodiment, the screening module 15 is further configured to set a scoring criterion of a temperature threshold, an electric quantity threshold, an online software usage threshold, and a chip type threshold of the terminal 30, and screen out a low endurance terminal when a total score of the terminal exceeds a preset scoring score. For example: the scoring criteria for the set temperature were: 1 point is counted below a 40-degree threshold value, 3 points are counted between a 40-45-degree threshold value, and 5 points are counted above a 45-degree threshold value; the grading standard of the electric quantity is as follows: the electricity is more than 20 percent, the electricity is counted for 1 minute, 20 percent to 10 percent, the electricity is counted for 3 minutes, and the electricity is counted for 5 minutes under 10 percent; the scoring criteria for the running software were: the number of currently operated software is less than 10, 1 point is counted, 10-20 points are counted for 3 points, and more than 20 points are counted for 5 points; the scoring standard of the terminal CPU chip type is as follows: the Haisi chip is counted 1 minute, the high pass chip is counted 3 minutes, the joint department chip is counted 5 minutes. And if the total score of the preset terminal exceeds 10 points, judging that the terminal is a low endurance terminal.

The low endurance terminal is screened out, which also indicates that the base station 10 has an object that needs to improve endurance. Furthermore, the screening module 15 is further configured to screen a resource meeting the service requirement of the low endurance terminal, and preferentially allocate the screened resource meeting the service requirement of the low endurance terminal to the low endurance terminal for use; therefore, the energy consumption of the low endurance terminal is reduced, and the endurance capacity of the low endurance terminal is improved. Specifically, the base station 10 further includes a local base station where the low endurance terminal is located and an adjacent base station. Preferably, the screening module 15 first screens the resource meeting the service requirement of the low endurance terminal at the base station where the low endurance terminal is located. And if the resources meeting the service requirement of the low endurance terminal are not screened in the local base station of the low endurance terminal, continuously screening the resources which are idle and meet the service requirement of the low endurance terminal at the adjacent base station. In this embodiment, the first and low endurance terminals have XN connections between the current base station and its neighboring base stations; namely, the low endurance terminal has the capability of exchanging information between the base station and the adjacent base stations through the XN link. The second, low endurance terminal has the base station and its adjacent base station as different frequency. The adjacent base station and the base station have different frequency points, namely, are in a different frequency networking scene, so that the wireless resources screened from the adjacent base station are free of interference or low interference relative to the low-endurance terminal of the base station. Thirdly, the times of XN switching requests performed by the adjacent base station of the low endurance terminal and the local base station in the preset time reach a preset first threshold value, and the success rate of XN switching reaches a second threshold value. The preset time, the first threshold value and the second threshold value can be flexibly set and adjusted. For example: presetting within 1 day or 1 week, the adjacent base station and the base station carry out XN switching request for more than 100 times, and the success rate of XN switching reaches 98%; the neighboring base station meets the above-mentioned third point requirement.

The screening module 15 is further configured to reallocate new resources to other terminals occupying the resources meeting the service requirement of the low endurance terminal when the local base station or the neighboring base station of the low endurance terminal screens the resources meeting the service requirement of the low endurance terminal, so that the resources meeting the service requirement of the low endurance terminal occupied by other terminals are free.

In a specific embodiment, the screening module 15 is further configured to screen a better-coverage cell meeting the service requirement of the low endurance terminal, where the better-coverage cell is preferentially used for optimizing a scheduling policy for the low endurance terminal, and the standby time of the low endurance terminal is prolonged.

Further, the screening module 15 is further configured to screen a terminal meeting the condition through at least one of an uplink service index, a downlink service index, and a power headroom (power headroom for transmitting data of the terminal; the smaller the power headroom value is, the less the terminal redundant power is), a reference signal received power (the smaller the value is, the worse the wireless network coverage is), a channel quality indication (the smaller the value is, the worse the wireless network channel quality is), which exceeds a preset threshold.

Further, the base station 10 further includes a handover module. The switching module is used for switching the low endurance terminal from the local base station to the adjacent base station when the adjacent base station of the low endurance terminal screens the resource meeting the service requirement of the low endurance terminal.

Specifically, the resource meeting the service requirement of the low endurance terminal is an interference-free or low-interference wireless resource which is not occupied by the local base station of the low endurance terminal or other terminals in the coverage area of the adjacent base station, and the service experience of the low endurance terminal is not deteriorated after the low endurance terminal is used. More specifically, it is determined that the low-interference wireless resource can be evaluated by an index such as uplink SINR & downlink CQI, for example, if the uplink SINR is set to be higher than 15& downlink CQI is set to be higher than 15, the wireless resource is considered to be low-interference. It should be noted that the low-interference radio resource is determined to include, but not limited to, the above two indexes, and other multiple indexes may be selected for joint determination. For example: the determination is made by the ratio of the strength of the desired signal received by the base station to the strength of the interfering signal (noise and interference) received. The larger the ratio is, the better the uplink wireless network quality is represented. Similarly, the larger the value of the downlink CQI (channel quality indicator) is, the better the channel quality of the downlink wireless network is represented.

Furthermore, the switching module is further configured to, by sending a low-frequency-band inter-frequency or low-frequency-band inter-system measurement signaling to the low endurance terminal, the base station 10, after enabling the low endurance terminal to screen a cell with better coverage in an inter-frequency band and report a measurement report to the base station 10, send a switching command to the low endurance terminal, and enable the low endurance terminal to switch to the screened cell with better coverage in the inter-frequency band where the measurement report is first reported.

Referring to fig. 1 and fig. 3, in the present embodiment, the terminal 30 includes a second transceiver module 31 and a second signaling generation module 33.

The second transceiver module 31 is configured to receive a reconfiguration signaling that the base station 10 notifies the terminal 30 to report the auxiliary capability information, and is configured to send or report the auxiliary capability information to the base station 10. Specifically, the auxiliary capability information includes temperature information, power amount information, online usage software amount information, usage chip type information, and the like of the terminal 30.

The second signaling generating module 33 is used for generating the auxiliary capability information signaling. The second transceiver module 31 is further configured to report the auxiliary capability information to the base station 10 by multiplexing the auxiliary capability information signaling.

The method for improving the endurance of the terminal by the base station of the present invention is described in detail below with reference to fig. 4, and the method includes the following steps executed in sequence:

s1, a base station 10 multiplexes a reconfiguration signaling to inform a terminal 30 of reporting auxiliary capacity information;

s2, after receiving the reconfiguration signaling of the base station 10, the terminal 30 responds to the reconfiguration completion signaling to the base station, and multiplexes the auxiliary capability information signaling to report the auxiliary capability information to the base station 10.

S5, the base station 10 receives the auxiliary capacity information reported by the terminal 30, and screens out the low-endurance terminal according to the temperature information, the electric quantity information, the online software use quantity information and the chip use type information of the terminal 30 in the auxiliary capacity information;

s7, the base station 10 screens resources meeting the service requirement of the low endurance terminal, and preferentially allocates the screened idle resources meeting the service requirement of the low endurance terminal to the low endurance terminal for use; therefore, the energy consumption of the low endurance terminal is reduced, and the endurance capacity of the low endurance terminal is improved.

Specifically, step S5 further includes: the base station 10 sets a temperature threshold, an electric quantity threshold, an online software usage threshold and a chip type threshold of the terminal 30, respectively, and screens out the low endurance terminal.

Further, before step S1, the method further includes: the base station 10 screens the terminals meeting the conditions by that at least one of the uplink service index, the downlink service index, the power margin and the reference signal receiving power of the terminal 30 exceeds a preset threshold. Understandably, the step is a primary screening operation for screening the low endurance terminal; and the screened terminals meeting the conditions are the terminals which screen part of conditions meeting the low endurance terminals.

In a specific embodiment, step S7 further includes: the base station 10 helps the low endurance terminal to screen a cell with better coverage, and the screened cell with better coverage preferentially optimizes a scheduling strategy for the low endurance terminal, so that the standby time of the low endurance terminal is prolonged.

In a specific embodiment, the base station 10 may further screen out a low endurance terminal when the total score exceeds a preset score by setting a scoring criterion of a temperature threshold, an electric quantity threshold, an online software usage quantity threshold, and a chip type threshold of the terminal 30.

Step S7 further includes: firstly, screening idle resources meeting the service requirements of the low endurance terminal in the base station of the low endurance terminal; if the resource meeting the service requirement of the low endurance terminal is not screened in the base station of the low endurance terminal, continuously screening the resource which is idle and meets the service requirement of the low endurance terminal in the adjacent base station; and if the adjacent base station screens the idle resources meeting the service requirement of the low endurance terminal, switching the low endurance terminal to the adjacent base station.

Further, the step of screening the idle resources meeting the service requirement of the low endurance terminal at the local base station or the adjacent base station of the low endurance terminal comprises the following steps: and reallocating new resources to other terminals occupying resources meeting the service requirement of the low endurance terminal, so that the resources occupied by the other terminals meeting the service requirement of the low endurance terminal are idle.

Furthermore, if the resources meeting the service requirement of the low endurance terminal are not screened in the local base station or the adjacent base station of the low endurance terminal, the screening can be performed in the bandwidth of the whole mobile network system.

In addition, it can be understood that if in step S5, the base station 10 does not screen for low endurance terminals; that is, the base station 10 does not screen out the object for improving the endurance of the terminal, and the executed steps and process are ended.

In a specific embodiment, S7 further includes: the base station 10 enables the low endurance terminal to screen a better-coverage cell of an out-of-band frequency or a better-coverage cell of the out-of-band frequency to the low endurance terminal and then report a measurement report to the base station 10 by issuing a low-band out-of-band system measurement signaling to the low endurance terminal, the base station 10 sends a switching command to the low endurance terminal, the low endurance terminal is switched to the better-coverage cell of the out-of-band frequency which is screened and firstly reports the measurement report, the better-coverage cell of the out-of-band frequency is preferentially an optimized scheduling strategy for the low endurance terminal, and the standby time of the low endurance terminal is prolonged.

Specifically, the optimal scheduling strategy of the cell with better coverage in the different frequency bands comprises strategies of improving scheduling priority, starting intelligent pre-scheduling, closing periodic measurement and the like. The improvement of the scheduling priority refers to the prior scheduling of resources for the low endurance terminal and the reduction of delay; the intelligent pre-scheduling is started, namely the low endurance terminal does not need to send a scheduling request, and the cell can continuously perform uplink scheduling so that uplink data of the low endurance terminal is transmitted, and the service access time delay and the energy consumption are reduced; the periodic measurement is closed, namely, only the measurement triggered by the conventional event of the low endurance terminal is reserved, and other periodic measurements are closed, so that the measurement report times of the low endurance terminal are reduced, and the energy consumption is reduced; therefore, the standby time of the low endurance terminal is prolonged.

The above examples merely represent preferred embodiments of the present invention, which are described in more detail and detail, but are not to be construed as limiting the scope of the present invention. It should be noted that a person skilled in the art could make several variations and modifications, such as combinations of different features in the various embodiments, without departing from the inventive concept, which fall within the scope of the present invention.

Claims (8)

1. A method for improving endurance of a terminal by a base station is characterized by comprising the following steps:

before S1, the method comprises the following steps: the base station screens the terminals meeting the conditions through at least one index of an uplink service index, a downlink service index, power headroom and reference signal receiving power of the terminals exceeding a preset threshold;

s1, the base station multiplexes a reconfiguration signaling to inform a terminal of reporting auxiliary capacity information;

s2, the terminal reports auxiliary capacity information to a base station by multiplexing an auxiliary capacity information signaling; the auxiliary capacity information signaling multiplexed by the terminal is the signaling of adding 1 reporting terminal state field in the auxiliary capacity information signaling;

s5, the base station receives the auxiliary capacity information reported by the terminal, and screens out the low-endurance terminal according to the temperature information, the electric quantity information, the online software using quantity information and the chip using type information of the terminal in the auxiliary capacity information;

s7, the base station screens resources meeting the service requirement of the low endurance terminal or better-coverage cells, and preferentially allocates the screened resources meeting the service requirement of the low endurance terminal to the low endurance terminal for use; or the screened cell with better coverage preferentially optimizes a scheduling strategy for the low endurance terminal, and the standby time of the low endurance terminal is prolonged.

2. The method for improving endurance of a terminal by a base station according to claim 1, wherein the S5 further comprises: the base station respectively sets a temperature threshold value, an electric quantity threshold value, an online software using quantity threshold value and a chip type threshold value of the terminal, and screens out the low endurance terminal; or the base station sets a grading standard of a temperature threshold value, an electric quantity threshold value, an online software using quantity threshold value and a chip type threshold value of the terminal, and screens out the low-endurance terminal when the total grade exceeds a preset grade value.

3. The method for improving endurance of a terminal by a base station according to claim 1, wherein the S7 further comprises: firstly, screening idle resources meeting the service requirements of the low endurance terminal in the base station of the low endurance terminal; if the resource meeting the service requirement of the low endurance terminal is not screened in the base station of the low endurance terminal, continuously screening the resource which is idle and meets the service requirement of the low endurance terminal in the adjacent base station; and if the adjacent base station screens the idle resources meeting the service requirement of the low endurance terminal, switching the low endurance terminal to the adjacent base station.

4. The method for improving endurance of a terminal by a base station according to claim 3, wherein the neighboring base station of the low endurance terminal and the base station have XN connections and are different frequencies from each other; and the times of XN switching requests of the adjacent base station of the low endurance terminal and the local base station in the preset time reach a preset first threshold value, and the XN switching success rate reaches a second threshold value.

5. The method for improving endurance of a terminal by a base station according to claim 3, wherein the step of screening the idle resources meeting the service requirement of the low endurance terminal by the local base station or the neighboring base station of the low endurance terminal comprises: and reallocating new resources to other terminals occupying resources meeting the service requirement of the low endurance terminal, so that the resources occupied by the other terminals meeting the service requirement of the low endurance terminal are idle.

6. The method for improving endurance of a terminal by a base station according to claim 1, wherein the S7 further comprises: the base station enables the low endurance terminal to screen a better-coverage cell of an out-of-band frequency or a low-band inter-system measurement signaling to the low endurance terminal and then report a measurement report to the base station, the base station sends a switching command to the low endurance terminal, the low endurance terminal is switched to the screened better-coverage cell of the out-of-band frequency which firstly reports the measurement report, and the better-coverage cell of the out-of-band frequency is preferentially an optimized scheduling strategy for the low endurance terminal, so that the standby time of the low endurance terminal is prolonged.

7. A system for improving the endurance of a terminal by a base station comprises the base station and the terminal,

the base station comprises a first signaling generation module, a first transceiver module and a screening module; the first signaling generation module is used for generating reconfiguration signaling; the first transceiver module is used for sending the multiplexed reconfiguration signaling to a terminal and informing the terminal to report auxiliary capacity information; the screening module is used for screening the low-endurance terminal according to the temperature information, the electric quantity information, the online software using quantity information and the chip using type information of the terminal in the auxiliary capacity information reported by the terminal; the screening module is further used for screening the terminal meeting the conditions through at least one of the uplink service index, the downlink service index, the power margin and the reference signal receiving power of the terminal exceeding a preset threshold;

the screening module is also used for screening resources meeting the service requirements of the low endurance terminal and preferentially distributing the screened resources meeting the service requirements of the low endurance terminal to the low endurance terminal for use; or the screening module is also used for screening the better-coverage cell meeting the service requirement of the low endurance terminal, and the screened better-coverage cell is preferentially used as a low endurance terminal optimized scheduling strategy, so that the standby time of the low endurance terminal is prolonged; the terminal comprises a second transceiver module, wherein the second transceiver module is used for receiving a reconfiguration signaling for informing the terminal of reporting the auxiliary capability information by the base station and sending or reporting the auxiliary capability information to the base station; the auxiliary capacity information comprises temperature information, electric quantity information, online use software quantity information and use chip type information of the terminal;

the terminal also comprises a second signaling generation module, wherein the second signaling generation module is used for generating an auxiliary capability information signaling; the second transceiver module is further configured to report the auxiliary capability information to the base station by multiplexing the auxiliary capability information signaling.

8. The system for improving the endurance of the terminal according to the base station of claim 7, wherein the screening module is further configured to set a temperature threshold, a power threshold, an online software usage threshold, and a chip type threshold of the terminal, and screen out a low endurance terminal; or the screening module is also used for setting grading standards of a temperature threshold value, an electric quantity threshold value, an online software using quantity threshold value and a chip type threshold value of the terminal, and screening out the low endurance terminal when the total grade exceeds a preset grade value.

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