CN113630854B - Method, device, terminal equipment and storage medium for reducing power consumption - Google Patents

Abstract

The invention discloses a method, a device, a terminal device and a storage medium for reducing power consumption, wherein the method comprises the steps of obtaining the battery power of a mobile terminal, and as the mobile terminal is in low power, the mobile terminal automatically regulates and controls measurement control, so that the battery power of the mobile terminal is required to be detected first, the battery power of the mobile terminal is compared with a preset threshold value, when the battery power of the mobile terminal is smaller than the threshold value, the mobile terminal is in low power, then preset control information is sent to a base station corresponding to the mobile terminal, the base station regulates according to the control information, so that measurement control information is obtained, and then the measurement control information is sent back to the mobile terminal, and the mobile terminal executes measurement control according to the measurement control information, so that the mobile terminal can autonomously regulate and control the measurement control in low power.

Description

Method, device, terminal equipment and storage medium for reducing power consumption

Technical Field

The invention relates to the field of terminal equipment, in particular to a method for reducing power consumption.

Background

Enhanced mobile broadband is one of the three major application scenarios of 5G determined by ITU-R. The 5G enhanced mobile broadband has a larger throughput, low latency and a more consistent experience. The 5G enhanced mobile broadband is mainly embodied in the following fields: 3D ultra-high definition video remote presentation, the perceivable Internet, ultra-high definition video streaming, high-demand competition field environment, broadband optical fiber users and virtual reality fields. The current stage 5G application is mainly based on enhanced mobile broadband scenarios. The scene mainly improves the communication experience of personal consumption services such as entertainment, social contact and the like taking people as centers, and is suitable for high-speed and large-bandwidth mobile broadband services.

With the rapid development of 5G technology in mobile terminals, the application of enhanced mobile broadband scenarios is also increasing, but in 5G enhanced mobile broadband scenarios, the power consumption of mobile terminals is also increasing, especially when the mobile terminals are in low battery. In the prior art, when the mobile terminal is in the low power mode, the measurement of the mobile terminal is completely dependent on the control of the network, so that the battery power is not saved in the low power mode.

Accordingly, the prior art is still in need of improvement and development.

Disclosure of Invention

The invention aims to solve the technical problems by providing a method for reducing power consumption aiming at the defects in the prior art, and aims to reduce measurement of a terminal in a connection state, reduce power consumption, save battery power and prolong the service life of a battery by providing the method for reducing power consumption and automatically regulating and controlling the mobile terminal when the mobile terminal is in a low power state.

The technical scheme adopted for solving the technical problems is as follows:

in a first aspect, the present invention provides a method for reducing power consumption, wherein the method comprises:

acquiring battery electric quantity of the mobile terminal, and comparing the battery electric quantity with a preset threshold value to obtain a comparison result;

when the comparison result is that the battery power is smaller than the preset threshold value, preset control information is sent to a base station corresponding to the mobile terminal;

and receiving measurement control information obtained by the base station according to the control information and executing the measurement control information.

In one implementation manner, when the comparison result is that the battery power is smaller than the preset threshold, sending preset control information to a base station corresponding to the mobile terminal specifically includes:

defining a code reserved in LCID of an uplink shared channel as a measurement regulation control instruction, and encoding the measurement regulation control instruction to obtain the control information;

and sending the control information to a base station corresponding to the mobile terminal in a MAC command signaling mode.

In one implementation manner, the sending the control information to the base station corresponding to the mobile terminal through the MAC command signaling specifically includes:

acquiring a one-byte MAC subheader, and storing the measurement regulation control instruction in the one-byte MAC subheader;

and transmitting the MAC subheader with one byte storing the measurement regulation control instruction to a base station corresponding to the mobile terminal in a MAC command signaling mode.

In one implementation manner, when the comparison result is that the battery power is smaller than the preset threshold, sending preset control information to the base station corresponding to the mobile terminal further includes:

starting a preset timer while transmitting the control information to a base station corresponding to the mobile terminal;

and resetting the timer when receiving measurement control information obtained by the base station according to the control information and executing the measurement control information.

In one implementation manner, when the terminal receives measurement control information obtained by the base station according to the control information and executes the measurement control information, resetting the preset timer further includes:

and when the timer is overtime and the measurement control information is not received yet, sending preset control information to a base station corresponding to the mobile terminal.

In one implementation manner, the receiving measurement control information obtained by the base station according to the control information and executing the measurement control information specifically includes:

the base station decodes the received control information to obtain the measurement regulation control instruction;

the base station adjusts according to the measurement regulation control instruction to obtain measurement control information;

and receiving the measurement control information sent by the base station through RRCConnection reconfiguration signaling.

In one implementation, the threshold is set and changed by a user through a preset window.

In a second aspect, an embodiment of the present invention further provides an apparatus for reducing power consumption, where the apparatus includes:

the comparison module is used for detecting the battery electric quantity of the mobile terminal and comparing the battery electric quantity with a preset threshold value to obtain a comparison result;

the sending module is used for sending preset control information to a base station corresponding to the mobile terminal when the comparison result is that the battery electric quantity is smaller than the preset threshold value;

the base station is used for obtaining measurement control information according to the received control information and sending the measurement control information to the terminal;

and the execution module is used for receiving and executing the measurement control information by the terminal.

In a third aspect, an embodiment of the present invention further provides a mobile terminal, where the terminal device includes: a processor, a storage medium communicatively coupled to the processor, the storage medium adapted to store a plurality of instructions; the processor is adapted to invoke instructions in the storage medium to perform a method of reducing power consumption implementing any of the above aspects.

In a fourth aspect, an embodiment of the present invention further provides a computer readable storage medium, where the computer readable storage medium stores one or more programs, where the one or more programs are executable by one or more processors to implement a method for reducing power consumption according to any one of the foregoing aspects.

The invention has the beneficial effects that: compared with the prior art, the invention provides a method for reducing power consumption, which comprises the steps of obtaining the battery power of a mobile terminal, wherein the mobile terminal is enabled to automatically regulate and control measurement when the mobile terminal is in low power, so that the battery power of the mobile terminal is required to be detected first, the battery power of the mobile terminal is compared with a preset threshold value, when the battery power of the mobile terminal is smaller than the threshold value, the mobile terminal is indicated to be in low power, and then preset control information is sent to a base station corresponding to the mobile terminal, so that the base station regulates according to the control information, measurement control information is obtained, and then the measurement control information is sent back to the mobile terminal, and the mobile terminal executes measurement control according to the measurement control information, so that the mobile terminal can automatically regulate and control the measurement control when the mobile terminal is in low power.

Drawings

Fig. 1 is a flowchart of a specific implementation of a method for reducing power consumption according to an embodiment of the present invention.

Fig. 2 is a flowchart of a method for reducing power consumption according to an embodiment of the present invention, in which preset control information is sent to a base station corresponding to a mobile terminal.

Fig. 3 is a format diagram of a MAC subheader in the method for reducing power consumption according to the embodiment of the present invention.

Fig. 4 is a flowchart of a method for reducing power consumption according to an embodiment of the present invention for receiving and executing measurement control information.

Fig. 5 is a schematic block diagram of a device for reducing power consumption according to an embodiment of the present invention.

Fig. 6 is a schematic block diagram of an internal structure of a mobile terminal according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear and clear, the present invention will be further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

With the rapid development of 5G technology, the application of enhanced mobile broadband (eMBB, enhance Mobile Broadband) is also increasing, and the enhanced mobile broadband is one of three major application scenarios of 5G determined by ITU-R. The 5G enhanced mobile broadband has a larger throughput, low latency and a more consistent experience. The 5G enhanced mobile broadband is mainly embodied in the following fields: 3D ultra-high definition video remote presentation, the perceivable Internet, ultra-high definition video streaming, high-demand competition field environment, broadband optical fiber users and virtual reality fields. The current stage 5G application is mainly based on enhanced mobile broadband scenarios. The scene mainly improves the communication experience of personal consumption services such as entertainment, social contact and the like taking people as centers, and is suitable for high-speed and large-bandwidth mobile broadband services. From the frozen R15 standard of 3GPP, the current 5G standard focuses mainly on enhanced mobile broadband, while mass machine type communication and low latency high reliability communication will be further perfected in the subsequent release R16. Enhanced mobile broadband class scenes represented by ultra-high definition video and mobile VR/AR will be the key field of current 5G applications. With the batch marketing of 5G terminals and the perfection of 5G network coverage, 5G applications in enhanced mobile broadband scenarios will first come to market start-up. The enhanced mobile broadband scene is characterized by requiring as large a bandwidth as possible, realizing extremely high throughput and reducing time delay as much as possible. For example, even the most advanced LTE modem can only reach gigabit/second at the fastest rate, but often users of one cell have gigabit bandwidth consumption, and more traffic will be continuously developed in the future, so that the bandwidth capacity is improved, which is a necessary trend for the development of future mobile networks. Taking the ultra-high definition video as an example, even after compression, the bandwidth rate of each path of 8K video exceeds 100M/s, and if one cell has 5 to 10 users, even 100 users, the 4G network cannot meet the requirement.

Therefore, operators will increase the intensity of 5G and vertical industry fusion application innovation. 5G plays a great role in the development of economy and society, and the value of the 5G is finally maximally reflected in the application of the vertical industry. According to the measurement, 20% of the application value of 5G comes from personal consumption, while 80% comes from the vertical industry. The method breaks through the application of the key vertical industry, combines the development planning of the related fields such as ultra-high definition video, VR/AR and the like, and strives to form a synergy with the development of the 5G industry on the basis of strengthening the development of the industry; secondly, focusing on the fusion innovation of new generation information technologies such as AI, blockchain and the like, completely releasing the potential of 5G links, and comprehensively realizing leap from 'interconnection' to 'intelligent linkage' by integrating the new information technologies, which is also the key of enabling each vertical industry by 5G; thirdly, a cooperation communication platform is established, operators are led to establish a 5G industry cooperation communication platform, and the dominant resources of all vertical industries such as intelligent manufacturing, internet of vehicles, intelligent home, intelligent cities and the like are converged, so that the opportunity of face-to-face demand butt joint is provided for the communication industry and all vertical industries, and the achievement of consensus and promotion and development are facilitated.

Research shows that with the rapid development of 5G technology in mobile terminals, the application of enhanced mobile broadband scenes is more and more increased, but in 5G enhanced mobile broadband scenes, the power consumption of mobile terminals is also increased, especially when the mobile terminals are in low battery. In the prior art, when the mobile terminal is in the low power mode, the measurement of the mobile terminal is completely dependent on the control of the network, so that the battery power is not saved in the low power mode.

In order to solve the problems of the prior art, the embodiment provides a method for reducing power consumption, which includes obtaining battery power of a mobile terminal, and because the mobile terminal is enabled to autonomously regulate and control measurement when the mobile terminal is in low power, the battery power of the mobile terminal needs to be detected first, the battery power of the mobile terminal is compared with a preset threshold, when the battery power of the mobile terminal is smaller than the threshold, the mobile terminal is indicated to be in low power, and then preset control information is sent to a base station corresponding to the mobile terminal, so that the base station regulates according to the control information, measurement control information is obtained, and then the measurement control information is sent back to the mobile terminal, and measurement control is executed by the mobile terminal according to the measurement control information, so that the mobile terminal can autonomously regulate and control the measurement control when the mobile terminal is in low power.

When the mobile phone enters the low-power mode, the mobile phone generates control information and sends the control information to a base station corresponding to the mobile phone, the base station adjusts according to the control information and sends the adjusted measurement control information back to the mobile phone, and the mobile phone autonomously regulates and controls the measurement control according to the received measurement control information, so that the measurement in a connection state is reduced, the power consumption of the mobile phone is reduced, and the service life of a mobile phone battery is prolonged.

Exemplary method

The method for reducing power consumption in the embodiment can be applied to mobile terminals, such as smart phones, tablet computers and notebook computers, and the mobile terminals are all applied to 5G enhanced mobile bandwidth scenes. In specific implementation, as shown in fig. 1, the method for reducing power consumption in this embodiment includes the following steps:

and step S100, acquiring the battery power of the mobile terminal, and comparing the battery power with a preset threshold value to obtain a comparison result.

In implementation, the mobile terminal can be regulated and controlled independently when the mobile terminal is in low power, so that power consumption is reduced. Therefore, the battery power of the mobile terminal needs to be acquired first, and the acquired battery power is compared with a preset threshold value, so as to determine whether the mobile terminal is in low power, and a user can set and change the threshold value through a preset window, for example, the threshold value is set to 20%, and when the battery power of the user mobile phone is lower than 20%, the user mobile phone is determined to be in low power currently.

And step 200, when the comparison result is that the battery power is smaller than the preset threshold value, sending preset control information to a base station corresponding to the mobile terminal.

In this embodiment, after determining that the mobile terminal is in a low power state, because autonomous regulation and control of the mobile terminal are required to be implemented, control information needs to be sent to the base station first, so that measurement control information returned by the base station is received later conveniently, and autonomous regulation and control measurement control of the mobile terminal is implemented.

In one implementation, as shown in fig. 2, the step S200 includes the following steps:

step S201, defining a code reserved in LCID of an uplink shared channel as a measurement regulation control instruction, and encoding the measurement regulation control instruction to obtain the control information;

step S202, the control information is sent to a base station corresponding to the mobile terminal in a mode of MAC command signaling.

In the implementation, after the mobile terminal is determined to be in the low power state, a control signal needs to be sent to the base station corresponding to the mobile terminal to inform the base station to update the measurement control information, so that the measurement of the mobile terminal in the connection state is reduced, the purpose of saving power is achieved, and the user experience is improved. In this embodiment, a code reserved in the LCID of the uplink shared channel is defined as a measurement regulation control instruction, and the measurement regulation control instruction is encoded to obtain control information. Specifically, in the 3gpp 36.321 specification, the LCID defining the detailed uplink shared channel is reserved and unused, so in this embodiment, the definition 10011 represents a measurement regulatory control command under low power, and the defined measurement regulatory control command is encoded to obtain control information. The control information is sent to the base station corresponding to the mobile terminal in a manner of MAC Command signaling, in this embodiment, the control information is sent to the base station corresponding to the mobile terminal by defining the use of a one-byte MAC sub-header, the control unit does not need to occupy the byte number, and the storage of the MAC data unit is saved, that is, the mobile terminal only needs to send a one-byte sub-header, and the information is not required to be reserved for the control unit. Specifically, a one-byte MAC subheader is obtained, a measurement regulation control instruction is stored in the one-byte MAC subheader, and then the one-byte MAC subheader storing the measurement regulation control instruction is sent to a base station corresponding to a mobile terminal in a manner of MAC command signaling, where a format adopted by the MAC subheader is shown in fig. 3.

Preferably, in this embodiment, the control information is sent to the base station corresponding to the mobile terminal, and a preset timer is started to count, and when the mobile terminal receives measurement control information obtained by the base station according to the control information and executes the measurement control information, the timer is reset. If the timer is overtime, the mobile terminal still does not receive the measurement control information sent by the base station, and the mobile terminal sends the control information to the base station again. By setting the timer in the sending process, the situation of transmission failure can be found timely in a certain time, control information can be sent to the base station again timely, and the situation that the mobile terminal cannot accept measurement control information due to the transmission failure is reduced, so that the mobile terminal cannot be regulated and controlled autonomously, more measurement is still carried out under the condition of low electric quantity, the power consumption of the mobile terminal is high, the power consumption speed is high, and the use experience of a user is reduced. For example, when the mobile phone of the user is in low power, the mobile phone sends control information to the base station, and a preset timer in the mobile phone is started at the same time when the mobile phone is sent, but the first sending is unsuccessful due to some factors, such as environment, weather, and the like, and in the time set by the timer, the mobile phone still receives the return information of the base station, so that the mobile phone can send the control information to the base station again until the return information of the base station is received, and the timer is reset. By setting the timer, the probability that the electric quantity of the mobile phone is quickly lost due to the fact that the mobile phone is still in a high energy consumption state because the user can not judge whether measurement control information sent by the base station is successfully received or not and wait for a long time can be reduced, the convenience and the intelligence of the mobile phone are improved, and the use experience of the user is improved.

And step S300, receiving measurement control information obtained by the base station according to the control information and executing the measurement control information.

In a specific implementation, the mobile terminal in this embodiment is configured to implement autonomous regulation and control of measurement by receiving measurement control information sent by a base station, so that after the control information is sent to the base station corresponding to the mobile terminal, the measurement control information sent back by the base station needs to be received, and the measurement control information is executed, so that new measurement is executed on the mobile terminal according to the measurement control information, thereby implementing measurement of the mobile terminal in a connection state, and implementing the purpose of reducing power consumption.

In one implementation, as shown in fig. 4, the step S300 includes the steps of:

step S301, the base station decodes the received control information to obtain the measurement regulation control instruction;

step S302, the base station adjusts according to the measurement regulation control instruction to obtain measurement control information;

step S303, receiving the measurement control information sent by the base station through RRCConnection reconfiguration signaling.

In particular, since the mobile terminal needs to receive measurement control information sent by a base station corresponding to the mobile terminal, the base station needs to obtain the measurement control information according to the received control information, and then send the obtained measurement control information to the mobile terminal. Specifically, after receiving the control information, the base station decodes the control information, and since 10011 is defined in this embodiment to represent a measurement regulation control instruction under low power, lcid=10011 is obtained after decoding the control information, which indicates that the mobile terminal requires to adjust measurement control, and the base station adjusts to obtain adjusted measurement control information, where an adjustment manner may include reducing a measurement threshold for starting different frequencies and different modes, increasing bias, shortening reporting times, increasing GAP period, and so on. And finally, the base station sends the adjusted measurement control information to the mobile terminal through RRCConnection reconfiguration signaling. After receiving the measurement control information sent by the base station, the mobile terminal executes new measurement control according to the measurement control information, so that the measurement of the mobile terminal in a connection state is reduced, the purpose of saving electricity is achieved, and the use experience of a user is improved.

In summary, the embodiment firstly obtains the battery power of the mobile terminal, compares the obtained battery power with a preset threshold, when determining that the mobile terminal is in a low power state, the mobile terminal sends control information to the base station by sending a MAC Command, the base station decodes the control information after receiving the control information, adjusts according to a measurement regulation control instruction obtained after decoding to obtain adjusted measurement control information, then the base station sends the measurement control information to the mobile terminal by an rrcconnectionreconfiguration signaling, and the mobile terminal receives the adjusted measurement control information, reduces measurement in a connection state according to the adjusted measurement control information, avoids unnecessary measurement, and prolongs the service life of the battery. For example, when the electric quantity of the mobile phone of the user is 19%, the mobile phone of the user is judged to be in low electric quantity, the mobile phone sends control information stored with a measurement regulation control instruction to a base station corresponding to the mobile phone in a mode of MAC command signaling, the base station determines that the mobile phone requires regulation measurement control after receiving the control information and decoding the control information, the base station adjusts and obtains an adjusted measurement control instruction, the adjusted measurement control instruction is sent back to the mobile phone of the user, the mobile phone of the user receives and carries out new measurement control according to the adjusted measurement control instruction, unnecessary measurement such as measurement on weather, positioning and the like is reduced, power consumption of the mobile phone is reduced by reducing measurement, and the effect of prolonging the service life of the mobile phone is achieved.

Exemplary apparatus

As shown in fig. 5, the present embodiment further provides an apparatus for reducing power consumption, the apparatus including: a comparison module 10, a transmission module 20, and an execution module 30. Specifically, the comparing module 10 is configured to obtain a battery power of the mobile terminal, and compare the battery power with a preset threshold value to obtain a comparison result. The sending module 20 is configured to send preset control information to a base station corresponding to the mobile terminal when the comparison result indicates that the battery power is less than the preset threshold. The execution module 30 is configured to receive measurement control information obtained by the base station according to the control information and execute the measurement control information.

In one implementation, the sending module 20 includes:

a control information acquisition unit, configured to define a code reserved in an LCID of an uplink shared channel as a measurement regulation control instruction, and encode the measurement regulation control instruction to obtain the control information;

and the control information sending unit is used for sending the control information to the base station corresponding to the mobile terminal in a mode of MAC command signaling.

In one implementation, the control information transmitting unit includes:

the MAC sub-head acquisition sub-unit is used for acquiring an MAC sub-head of one byte and storing the measurement regulation control instruction in the MAC sub-head of the one byte;

and the MAC sub-head sending sub-unit is used for sending the MAC sub-head with one byte storing the measurement regulation control instruction to the base station corresponding to the mobile terminal in a MAC command signaling mode.

In one implementation, execution module 30 includes:

the decoding unit is used for decoding the received control information by the base station to obtain the measurement regulation control instruction;

the adjusting unit is used for adjusting the base station according to the measurement regulation control instruction to obtain measurement control information;

and the execution unit is used for receiving the measurement control information sent by the base station through RRCConnection reconfiguration signaling.

Based on the above embodiment, the present invention also provides a mobile terminal, and a functional block diagram thereof may be shown in fig. 6. The mobile terminal comprises a processor, a memory, a network interface, a display screen and a temperature sensor which are connected through a system bus. Wherein the processor of the mobile terminal is configured to provide computing and control capabilities. The memory of the mobile terminal comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The network interface of the mobile terminal is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of reducing power consumption. The mobile terminal is applied to a 5G enhanced mobile broadband scene.

It will be appreciated by persons skilled in the art that the functional block diagram shown in fig. 6 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the terminal device to which the present inventive arrangements are applied, and that a particular mobile terminal may include more or less components than those shown, or may combine some of the components, or may have a different arrangement of components.

In one embodiment, a mobile terminal is provided, the mobile terminal including a memory, a processor, and a mobile terminal control program with reduced power consumption stored in the memory and operable on the processor, the processor implementing the following operating instructions when executing the mobile terminal control program with reduced power consumption:

acquiring battery electric quantity of the mobile terminal, and comparing the battery electric quantity with a preset threshold value to obtain a comparison result;

when the comparison result is that the battery power is smaller than the preset threshold value, preset control information is sent to a base station corresponding to the mobile terminal;

receiving measurement control information obtained by the base station according to the control information and executing the measurement control information

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

In summary, the invention discloses a method for reducing power consumption, which comprises the steps of firstly obtaining the battery power of a mobile terminal, comparing the obtained battery power with a preset threshold value, when the mobile terminal is determined to be in a low power state, sending control information to a base station by the mobile terminal in a mode of sending MAC Command signaling, decoding the control information after receiving the control information by the base station, adjusting according to a measurement regulation control instruction obtained after decoding to obtain adjusted measurement control information, then sending the measurement control information to the mobile terminal by the base station through RRCConnection reconfiguration signaling, and automatically regulating and controlling the measurement control by the mobile terminal, reducing the measurement in a connection state according to the adjusted measurement control information, avoiding unnecessary measurement, and prolonging the service life of a battery. Therefore, the service life of the mobile terminal is prolonged when the electric quantity is low, and the use experience of a user is improved.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. A method of reducing power consumption, the method comprising:

acquiring battery electric quantity of the mobile terminal, and comparing the battery electric quantity with a preset threshold value to obtain a comparison result;

when the comparison result is that the battery power is smaller than the preset threshold value, preset control information is sent to a base station corresponding to the mobile terminal;

receiving measurement control information obtained by the base station according to the control information and executing the measurement control information;

and when the comparison result is that the battery power is smaller than the preset threshold value, sending preset control information to a base station corresponding to the mobile terminal specifically comprises the following steps:

defining a code reserved in LCID of an uplink shared channel as a measurement regulation control instruction, and encoding the measurement regulation control instruction to obtain the control information;

the control information is sent to a base station corresponding to the mobile terminal in a MAC command signaling mode;

the receiving the measurement control information obtained by the base station according to the control information and executing the measurement control information specifically includes:

the base station decodes the received control information to obtain the measurement regulation control instruction;

the base station adjusts according to the measurement regulation control instruction to obtain measurement control information;

receiving the measurement control information sent by the base station through RRCConnection reconfiguration signaling;

the measurement control information comprises at least one of reducing starting abnormal frequency, abnormal system measurement threshold, improving bias, shortening reporting times and increasing GAP period;

the method for sending the control information to the base station corresponding to the mobile terminal through the MAC command signaling specifically comprises the following steps:

acquiring a one-byte MAC subheader, and storing the measurement regulation control instruction in the one-byte MAC subheader;

transmitting the MAC subheader of one byte stored with the measurement regulation control instruction to a base station corresponding to the mobile terminal in a MAC command signaling mode;

when the comparison result is that the battery power is smaller than the preset threshold value, sending preset control information to a base station corresponding to the mobile terminal further comprises:

starting a preset timer while transmitting the control information to a base station corresponding to the mobile terminal;

resetting the timer when receiving measurement control information obtained by the base station according to the control information and executing the measurement control information;

when the terminal receives measurement control information obtained by the base station according to the control information and executes the measurement control information, resetting the preset timer further comprises:

when the timer is overtime and the measurement control information is not received yet, sending preset control information to a base station corresponding to the mobile terminal;

and defining a measurement regulation control instruction which represents low power by a code 10011 reserved in the LCID of the uplink shared channel, and encoding the measurement regulation control instruction which is defined to obtain control information.

2. The method of claim 1, wherein the threshold is set and changed by a user through a preset window.

3. An apparatus for reducing power consumption, comprising:

the comparison module is used for acquiring the battery electric quantity of the mobile terminal, and comparing the battery electric quantity with a preset threshold value to obtain a comparison result;

the sending module is used for sending preset control information to a base station corresponding to the mobile terminal when the comparison result is that the battery electric quantity is smaller than the preset threshold value; the method is also used for defining a code reserved in LCID of an uplink shared channel as a measurement regulation control instruction, and encoding the measurement regulation control instruction to obtain the control information; the control information is sent to a base station corresponding to the mobile terminal in a MAC command signaling mode; the base station is also used for decoding the received control information to obtain the measurement regulation control instruction; the base station adjusts according to the measurement regulation control instruction to obtain measurement control information; receiving the measurement control information sent by the base station through RRCConnection reconfiguration signaling; the measurement control information comprises at least one of reducing starting abnormal frequency, abnormal system measurement threshold, improving bias, shortening reporting times and increasing GAP period; the method is also used for acquiring a one-byte MAC subheader and storing the measurement regulation control instruction in the one-byte MAC subheader; transmitting the MAC subheader of one byte stored with the measurement regulation control instruction to a base station corresponding to the mobile terminal in a MAC command signaling mode; the method is also used for starting a preset timer when the control information is sent to a base station corresponding to the mobile terminal; resetting the timer when receiving measurement control information obtained by the base station according to the control information and executing the measurement control information; the method is also used for sending preset control information to a base station corresponding to the mobile terminal when the timer is overtime and the measurement control information is not received yet; the method is also used for defining a code 10011 reserved in the LCID of the uplink shared channel to represent a measurement regulation control instruction under low power, and encoding the measurement regulation control instruction after the definition is completed to obtain control information;

and the execution module is used for receiving the measurement control information obtained by the base station according to the control information and executing the measurement control information.

4. A mobile terminal, characterized in that the terminal device comprises: a processor, a storage medium communicatively coupled to the processor, the storage medium adapted to store a plurality of instructions; the processor being adapted to invoke instructions in the storage medium to perform a method of reducing power consumption implementing any of the above claims 1-2.

5. A computer readable storage medium storing one or more programs executable by one or more processors to implement a method of reducing power consumption as claimed in any one of claims 1-2.