KR101688962B1 - Device and method of PS-LTE mobile battery management - Google Patents

Abstract

The present invention provides a method for managing a battery of a PS-LTE mobile terminal used for a disaster network. More specifically, provided is a method for saving the amount of battery usage by controlling an operation mode and a synchronization duty cycle of a PS-LTE mobile terminal.

Description

{Device and method of PS-LTE mobile battery management}

The present invention relates to an apparatus and method for operating a battery of a PS-LTE terminal machine used in a disaster network.

More particularly, the present invention relates to an apparatus and method for reducing battery usage by controlling an operation mode and a synchronization duty cycle of a PS-LTE terminal.

The PS-LTE terminal can communicate using the LTE communication network in the same way as a mobile phone, or can be used as a transceiver between PS-LTE terminals. When a PS-LTE terminal is used as a transceiver, it may serve as a transceiver, or may be operated as a stand-alone base station when the PS-LTE terminal is out of the communication network. The PS-LTE terminal device consumes more power than the conventional terminal device by providing various functions, and various power control techniques that can efficiently reduce the power of the PS-LTE terminal device have been proposed.

The present invention provides a method of operating a battery of a PS-LTE terminal machine used in a disaster network.

More particularly, the present invention provides a method for reducing battery usage by controlling an operation mode and a synchronization duty cycle of a PS-LTE terminal.

The present invention relates to a method of reducing battery consumption of a terminal for PS-LTE existing in a PS-LTE base station communication network, the method comprising: a base station synchronization step of synchronizing a PS-LTE terminal with a PS- An emergency state detecting step for detecting a state button, and an emergency mode switching step for switching the PS-LTE terminal device into an emergency mode.

The base station synchronization step may synchronize the PS-LTE terminal based on a synchronization signal generated by the PS-LTE base station.

The emergency situation sensing step detects whether the emergency state button of the PS-LTE terminal is pressed for a predetermined time or more, and generates an emergency mode switching signal when the emergency state button is pressed for a predetermined time or longer.

The emergency mode switching step includes an emergency state propagation step of transmitting an emergency mode switching signal of the PS-LTE terminal to the base station, a synchronization duty cycle of the PS-LTE terminal in which the emergency mode switching signal is generated, A duty cycle control step of controlling the duty cycle of the emergency situation, and an emergency state continuation confirmation step of confirming whether the emergency situation is continued.

The emergency situation propagation step may propagate the emergency mode operation of the PS-LTE terminal operating in the emergency mode, the position information, the battery remaining amount, and the change amount of the battery remaining amount to another PS-LTE terminal in the communication network.

In addition, the present invention provides a method of reducing battery consumption of a terminal device for PS-LTE that deviates from a communication network, comprising: a terminal synchronization step of synchronizing a first PS-LTE terminal device and a second PS- An emergency state detecting step of detecting an emergency state button of the first PS-LTE terminal device or a second PS-LTE terminal device, and an emergency mode switching step of switching the PS-LTE terminal device in which the emergency signal is detected to the emergency mode .

The terminal synchronization step may include a base station mode setting step of setting a PS-LTE terminal of either the first PS-LTE terminal or the second PS-LTE terminal to a base station mode, It is possible to synchronize other PS-LTE terminal units based on the synchronization signal generated at the PS-LTE terminal set to '0'.

The emergency situation sensing step detects whether the emergency status button of the first PS-LTE terminal or the second PS-LTE terminal is pressed for a predetermined time or more, The terminal device can generate an emergency mode switching signal.

The emergency mode switching step includes an emergency situation propagation step of propagating an emergency situation around the PS-LTE terminal in which an emergency occurs, a synchronization duty cycle of the PS-LTE terminal in which the emergency mode switching signal is generated, A duty cycle control step of controlling the duty cycle, and an emergency status continuation confirmation step of confirming whether the emergency situation is continued or not.

When the emergency mode switching signal is generated in the PS-LTE terminal device in which the emergency mode switching signal is not set to the base station mode, the emergency state propagation step may include an emergency mode switching signal of the PS-LTE terminal in which the emergency signal is detected, And transmits a change amount of the battery remaining amount to any one of the PS-LTE terminal units set to the base station mode, and when the emergency mode changeover signal is generated in the PS-LTE terminal set in the base station mode, And a base station emergency situation propagation step of transmitting a base station emergency mode switching signal to a neighboring PS-LTE terminal using the set PS-LTE terminal as a base station.

The base station emergency situation propagation step includes a base station emergency mode propagation step of transmitting the position of the PS-LTE terminal unit and the battery remaining amount, which have been operating as base stations, to another nearby PS-LTE terminal, Mode and delegating the base station mode to the surrounding PS-LTE terminal equipment where no emergency situation signal is detected.

In addition, the present invention provides a system for reducing battery consumption of a PS-LTE terminal device, the communication network including a PS-LTE base station and a PS-LTE terminal device, An operation mode control module for controlling the operation mode, an emergency signal detection module for detecting an emergency signal of the PS-LTE terminal machine, and an emergency situation control module for controlling the emergency situation of the PS-LTE terminal device.

The operation control module operates in the LTE mode when the PS-LTE terminal unit exists in the PS-LTE base station network. When the PS-LTE terminal unit exists outside the PS-LTE base station network, the operation control module operates in the base station mode. If an emergency signal is detected, the base station mode of the PS-LTE terminal can be terminated.

When the emergency button of the PS-LTE terminal is pressed for a predetermined time or more, the emergency signal detecting module may generate an emergency signal and transmit the emergency signal to the emergency situation control module.

The emergency situation control module includes a duty cycle adjustment module for adjusting a synchronization duty cycle of the PS-LTE terminal based on the measured remaining battery level, a synchronization duty cycle adjusted by the PS-LTE terminal, And a communication module for transmitting the change amount of the remaining amount to the base station and other PS-LTE terminal devices in the vicinity.

The present invention can reduce the battery consumption of the PS-LTE terminal device by controlling the operation mode and the synchronization duty cycle of the PS-LTE terminal device used in the disaster network.

1 is a schematic flowchart of a battery operation method of a PS-LTE terminal in a communication network of the present invention.
2 is a specific flowchart of a battery operation method of a PS-LTE terminal in a communication network of the present invention.
3 is a schematic flowchart of a method of operating a battery of a PS-LTE terminal device outside the communication network of the present invention.
FIG. 4 is a specific flowchart of a method of operating a battery of a PS-LTE terminal device outside the communication network of the present invention.
FIG. 5 is a diagram illustrating a communication network system of the PS-LTE terminal apparatus according to the present invention.
6 is a specific configuration diagram of the PS-LTE terminal device of the present invention.
7 is a data flow for adjusting the duty cycle of the PS-LTE terminal and the base station of the present invention.
FIG. 8 is a graph for measuring the amount of change in the remaining amount of the battery of the present invention. FIG.

Hereinafter, exemplary embodiments according to the present invention will be described in detail with reference to the contents described in the accompanying drawings. However, the present invention is not limited to or limited by the exemplary embodiments. Like reference numerals in the drawings denote members performing substantially the same function.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term, not on the name of a simple term, but on the entire contents of the present invention.

When an element is referred to as "including" an element throughout the specification, it is to be understood that the element may include other elements as well, without departing from the spirit or scope of the present invention.

The present invention relates to a method for reducing battery consumption of a terminal device for PS-LTE.

1. Reducing the battery consumption of PS-LTE terminals in the network

FIG. 1 and FIG. 2 are flowcharts illustrating a method of reducing battery consumption of a PS-LTE terminal unit existing in a communication network of the present invention.

Hereinafter, a method of reducing battery consumption of a terminal device for PS-LTE existing in a communication network of the present invention will be described with reference to FIGS. 1 and 2. FIG.

A method for reducing battery consumption of a PS-LTE terminal apparatus existing in a PS-LTE base station communication network of the present invention includes a base station synchronization step (S100) for synchronizing a PS-LTE terminal station and a PS-LTE base station, An emergency state detection step (S200) for detecting an emergency state button, and an emergency mode switching step (S300) for switching the PS-LTE terminal device to the emergency mode.

More specifically, the base station synchronization step S100 may synchronize the PS-LTE handset based on the synchronization signal of the PS-LTE base station.

Meanwhile, the emergency situation sensing step (S200) may detect whether the emergency signal button of the PS-LTE terminal is pressed for a predetermined time or more.

For example, when the emergency signal button is pressed for 5 seconds or more, the PS-LTE terminal determines that the terminal is in an emergency state, generates an emergency mode switching signal, and transmits the signal to the operation mode control module of the PS-LTE terminal.

In the meantime, the emergency mode switching step S300 includes an emergency state propagation step S310 for transmitting the emergency mode switching signal of the PS-LTE terminal to the base station, an emergency state propagation step S310 for transmitting the emergency mode switching signal of the PS- A duty cycle adjustment step S320 for adjusting the synchronization duty cycle based on the battery remaining amount, and an emergency situation continuation confirmation step S330 for determining whether the emergency situation is continued or not.

More specifically, the emergency situation propagation step S310 may propagate the emergency mode operation of the PS-LTE terminal operating in the emergency mode, the location information, and the battery remaining amount to another PS-LTE terminal in the communication network.

For example, in the emergency situation propagation step S310, the PS-LTE terminal unit that has generated the emergency signal and the other PS-LTE terminal unit in the communication network that has propagated the emergency signal transmit the group communication function, which is a function of the PS- Communication function, single base station operation function, relay function, etc. can be blocked to reduce battery consumption.

The location information of the PS-LTE terminal operating in the emergency mode can be obtained by using the three surrounding PS-LTE base stations to determine the position of the PS-LTE terminal by triangulation, The position of the PS-LTE terminal can be grasped by using its own GPS information.

The duty cycle adjustment step (S320) may negotiate the synchronization duty cycle with the base station based on the half-life of the battery remaining amount of the PS-LTE terminal in the emergency mode.

For example, the duty cycle adjustment step (S320) of adjusting the synchronization duty cycle of the PS-LTE terminal device based on the battery remaining amount may be as shown in FIG.

Referring to FIG. 7, the PS-LTE terminal equipment having an emergency situation transmits a synchronization duty cycle changed based on the location information of the PS-LTE terminal device, the battery remaining amount, and the battery remaining amount to the PS-LTE terminal base station (S321).

The PS-LTE base station, which has received the synchronization duty cycle changed based on the position information, the battery remaining amount, and the battery remaining amount, from the PS-LTE terminal in which the emergency occurs, determines whether the changed synchronization duty cycle is appropriate, , The location information of the PS-LTE terminal unit in which an emergency occurs, the changed duty cycle, the remaining battery amount, and the change amount of the remaining battery amount can be transmitted to other PS-LTE terminal units in the communication network (S323).

8 is a diagram of a method for measuring the amount of change in the remaining amount of the battery.

More specifically, referring to FIG. 8, since the remaining amount of the battery does not linearly decrease but decreases non-linearly, the use time of the battery is reduced even if the predetermined adjusted duty cycle is maintained. Therefore, even when the duty cycle is adjusted, the amount of change in the remaining amount of the battery is measured, and if the remaining amount of the battery rapidly decreases, the duty cycle can be additionally adjusted.

On the other hand, if the changed synchronization duty cycle is not suitable, the PS-LTE base station may re-adjust the synchronization duty cycle and transmit the emergency duty cycle to the PS-LTE terminal in step S322.

If the period of the normal synchronization duty cycle is 5 ms and the time for transmitting and receiving the synchronization data is set to 1 ms, the period of the duty cycle is increased to 10 ms when an emergency situation occurs, Is set to 1 ms, the synchronization duty cycle for the same time is reduced to half of the normal synchronization duty cycle, thereby reducing battery consumption.

2. Reducing the battery consumption of the PS-LTE terminal deviating from the communication network

FIG. 3 and FIG. 4 are flowcharts illustrating a method of reducing battery consumption of a terminal device for PS-LTE outside the communication network of the present invention.

Hereinafter, a method of reducing battery consumption of a terminal device for PS-LTE that is outside the communication network of the present invention will be described with reference to FIGS. 3 and 4. FIG.

A method of reducing battery consumption of a terminal for PS-LTE which is out of the PS-LTE base station communication network of the present invention includes a terminal synchronization step S400 for synchronizing a first PS-LTE terminal unit existing outside the network and a second PS- An emergency state detection step (S500) for detecting an emergency state button of the first PS-LTE terminal or the second PS-LTE terminal, an emergency mode for switching the PS-LTE terminal in which the emergency signal is detected to the emergency mode And a switching step S600.

More specifically, the terminal synchronization step (S400) may include a base station mode setting step of setting a PS-LTE terminal of either the first PS-LTE terminal or the second PS-LTE terminal to a base station mode And may synchronize another PS-LTE terminal based on the synchronization signal generated in the PS-LTE terminal set in the base station mode.

Meanwhile, in the emergency situation sensing step S500, if the emergency state button of the first PS-LTE terminal or the second PS-LTE terminal is pressed for a predetermined time or longer, , The emergency mode switching signal can be generated at the corresponding PS-LTE terminal.

For example, when the emergency signal button is pressed in the first PS-LTE terminal for more than 5 seconds, it is determined that the first PS-LTE terminal is in an emergency state, and an emergency mode switching signal is generated, To the operation mode control module.

The emergency mode switching step S600 includes an emergency state propagation step S620 of propagating the emergency state to the vicinity of the PS-LTE terminal in which the emergency occurs, the synchronization of the PS-LTE terminal in which the emergency mode switching signal is generated A duty cycle adjusting step (S610) of adjusting the duty cycle on the basis of the battery remaining amount, and an emergency condition continuation confirmation step (S630) of confirming whether the emergency situation is continued.

More specifically, in the emergency state propagation step S620, when the emergency mode switching signal is generated in the PS-LTE terminal equipment in which the base station mode is not set, The mode change signal, the position information, the remaining amount of the battery, and the remaining amount of the battery can be transmitted to any one of the PS-LTE terminal units set to the base station mode.

8 is a diagram of a method for measuring the amount of change in the remaining amount of the battery.

More specifically, referring to FIG. 8, since the remaining amount of the battery does not linearly decrease but decreases non-linearly, the use time of the battery is reduced even if the predetermined adjusted duty cycle is maintained. Therefore, even when the duty cycle is adjusted, the amount of change in the remaining amount of the battery is measured, and if the remaining amount of the battery rapidly decreases, the duty cycle can be additionally adjusted.

In the meantime, when the emergency mode switching signal is generated in the PS-LTE terminal set in the base station mode, the surrounding PS-LTE terminal unit using the PS-LTE terminal set in the base station mode, And a base station emergency situation propagation step (not shown) for transmitting the switching signal.

The base station emergency situation propagation step includes a base station emergency mode propagation step (S640) for transmitting the position of the PS-LTE terminal unit and the battery remaining amount, which have been operating as base stations, to another nearby PS-LTE terminal unit, a PS- And a base station mode delegation step (S650) of suspending the base station mode of the base station and delegating the base station mode to the surrounding PS-LTE terminal equipment in which the emergency situation signal is not detected.

More specifically, in the base station emergency mode propagation step S640, when the PS-LTE terminal device operating in the base station mode is in an emergency state and is used as a base station, battery consumption becomes excessive and the mobile terminal can not properly cope with an emergency situation. LTE terminal unit, the battery remaining amount, and the battery remaining amount to the neighboring PS-LTE terminal unit and terminating the base station mode of the PS-LTE terminal unit.

In the base station mode delegation step S650, when the PS-LTE mobile station operating in the base station mode is in an emergency state and is used as a base station, battery consumption is increased and the mobile station can not cope with emergency situations properly. Therefore, - It is possible to delegate the base station mode to the PS-LTE terminal nearest to the LTE terminal, or to the PS-LTE terminal with the greatest remaining battery power among the PS-LTE terminal in the vicinity, so that the communication network can be continuously operated.

The location information of the PS-LTE terminal operating in the emergency mode can be obtained by using the three surrounding PS-LTE base stations to determine the position of the PS-LTE terminal by triangulation, The position of the PS-LTE terminal can be grasped by using its own GPS information.

The duty cycle adjustment step (S630) may negotiate the synchronization duty cycle with the base station based on the half-life of the battery remaining amount of the PS-LTE terminal in the emergency mode.

For example, the duty cycle adjustment step (S320) of adjusting the synchronization duty cycle of the PS-LTE terminal device based on the battery remaining amount may be as shown in FIG.

Referring to FIG. 7, the PS-LTE terminal equipment having an emergency situation transmits a synchronization duty cycle changed based on the location information of the PS-LTE terminal device, the battery remaining amount, and the battery remaining amount to the PS-LTE terminal base station (S321).

The PS-LTE base station, which has received the synchronization duty cycle changed based on the position information, the battery remaining amount, and the battery remaining amount, from the PS-LTE terminal in which the emergency occurs, determines whether the changed synchronization duty cycle is appropriate, , The location information of the PS-LTE terminal unit in which an emergency situation occurs, the battery remaining amount, and the changed duty cycle can be transmitted to another PS-LTE terminal unit in the communication network (S323).

8 is a diagram of a method for measuring the amount of change in the remaining amount of the battery.

More specifically, referring to FIG. 8, since the remaining amount of the battery does not linearly decrease but decreases non-linearly, the use time of the battery is reduced even if the predetermined adjusted duty cycle is maintained. Therefore, even when the duty cycle is adjusted, the amount of change in the remaining amount of the battery is measured, and if the remaining amount of the battery rapidly decreases, the duty cycle can be additionally adjusted.

On the other hand, if the changed synchronization duty cycle is not suitable, the PS-LTE base station may re-adjust the synchronization duty cycle and transmit the emergency duty cycle to the PS-LTE terminal in step S322.

If the period of the normal synchronization duty cycle is 5 ms and the time for transmitting and receiving the synchronization data is set to 1 ms, the period of the duty cycle is increased to 10 ms when an emergency situation occurs, Is set to 1 ms, the synchronization duty cycle for the same time is reduced to half of the normal synchronization duty cycle, thereby reducing battery consumption.

3. Reduction of battery consumption of PS-LTE terminal.

5 and 6 are system diagrams of a system for reducing battery consumption of a terminal for PS-LTE.

Hereinafter, a system for reducing battery consumption of a terminal device for PS-LTE according to the present invention will be described with reference to FIG. 5 and FIG.

The communication network of the present invention includes a PS-LTE base station 500 and a PS-LTE terminal 100, and the PS-LTE terminal 100 is connected to the PS- An emergency mode detection module 300 for detecting an emergency signal of the PS-LTE terminal 100, an emergency status control module 300 for controlling an emergency situation of the PS- 400).

The PS-LTE terminal 100 is a terminal that can be used variously between a function of communicating using the LTE communication network and a PS-LTE function such as a radio function and a base station.

The operation mode control module 200 may control an operation mode of the PS-LTE terminal 100 so as to perform various functions of the PS-LTE terminal 100. For example, if the PS-LTE terminal 100 exists in the communication network of the PS-LTE base station 500, the PS-LTE terminal 100 operates in the LTE mode using the LTE network, The PS-LTE terminal 100 is operated in the base station mode, and when an emergency signal is detected, the operation mode of the PS-LTE terminal 100 is terminated such that the base station mode of the PS- Can be controlled.

Meanwhile, when the emergency button of the PS-LTE terminal 100 is pressed for a predetermined time or longer, the emergency signal detecting module 300 generates an emergency signal and transmits the emergency signal to the emergency situation control module 400. [

The emergency situation control module 400 includes a duty cycle adjustment module 410 for adjusting the synchronization duty cycle of the PS-LTE terminal 100 based on the remaining battery level, a PS- 100, and a communication module 420 for transmitting the amount of change in the battery remaining amount and the battery remaining amount to another PS-LTE terminal device in the vicinity of the base station.

Meanwhile, the synchronization duty cycle adjustment module 420 may measure the remaining amount of the battery, negotiate with the battery remaining amount and the PS-LTE base station, and adjust the synchronization duty cycle.

For example, when the cycle of a normal synchronization duty cycle of 80% or more of the battery is 5 ms and the time of transmitting and receiving synchronization data is set to 1 ms, if the remaining amount of the battery is reduced to 40% or less and an emergency situation occurs, If the cycle of the duty cycle is increased to 10 ms and the time for transmitting and receiving the synchronization data is set to 1 ms, the synchronization duty cycle for the same time is reduced to half of the normal synchronization duty cycle, thereby reducing battery consumption.

8 is a diagram of a method for measuring the amount of change in the remaining amount of the battery.

More specifically, referring to FIG. 8, since the remaining amount of the battery does not linearly decrease but decreases non-linearly, the use time of the battery is reduced even if the predetermined adjusted duty cycle is maintained. Therefore, even when the duty cycle is adjusted, the amount of change in the remaining amount of the battery is measured, and if the remaining amount of the battery rapidly decreases, the duty cycle can be additionally adjusted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention.

100: PS-LTE terminal device
200: Operation mode control module
300: Emergency signal detection module
400: Emergency situation control module
500: Base station

Claims (15)

delete delete delete delete delete A method for reducing battery consumption of a terminal device for PS-LTE which deviates from a communication network,
A terminal synchronization step of synchronizing a first PS-LTE terminal unit existing outside the network and a second PS-LTE terminal unit;
An emergency situation sensing step of sensing an emergency situation of the first PS-LTE terminal or the second PS-LTE terminal;
An emergency mode switching step of switching the PS-LTE terminal in which the emergency signal is detected to the emergency mode;
≪ / RTI >
The emergency mode switching step
When the emergency mode switching signal is generated in the PS-LTE terminal equipment not set to the base station mode,
The emergency mode switching signal of the PS-LTE terminal in which the emergency signal is detected, the position information, the remaining battery level, and the remaining battery level is transmitted to any one of the PS-LTE terminal units set to the base station mode,
When the emergency mode switching signal is generated in the PS-LTE terminal set in the base station mode,
And a base station emergency mode switching step of transmitting a base station emergency mode switching signal to a neighboring PS-LTE terminal using the PS-LTE terminal set in the base station mode as a base station. How to save battery.
Claim 6
Wherein the terminal synchronization step comprises:
And a base station mode setting step of setting a PS-LTE terminal of either the first PS-LTE terminal or the second PS-LTE terminal to a base station mode, wherein the PS- And synchronizes the other PS-LTE terminal devices based on the synchronization signal generated in the PS-LTE terminal device.
The method of claim 6,
The emergency situation sensing step may include:
LTE terminal unit or the second PS-LTE terminal unit is pressed for a predetermined period of time or longer, and when the PS-LTE terminal unit is depressed for a predetermined time or more, the emergency mode switching signal The method of claim 1, further comprising:
The method of claim 6,
Wherein the emergency mode switching step comprises:
A duty cycle adjusting step of adjusting a synchronization duty cycle with a base station of a PS-LTE terminal machine in which the emergency mode switching signal is generated based on a battery remaining amount;
Checking whether the emergency situation continues to check whether the emergency situation continues;
The method of claim 1, further comprising the steps of:
delete The method of claim 6,
The base station emergency situation propagation step includes:
A base station emergency mode propagation step of transmitting the position of the PS-LTE terminal unit operating as a base station and the battery remaining amount to another PS-LTE terminal unit in the vicinity;
A base station mode delegation step of suspending a base station mode of a PS-LTE mobile station operating as a base station and delegating the base station mode to a neighboring PS-LTE mobile station in which an emergency situation signal is not detected;
The method of claim 1, further comprising:
In a system for reducing battery consumption of a PS-LTE terminal,
The network
A PS-LTE base station; And
PS-LTE terminal equipment;
And,
The PS-LTE terminal machine includes:
An operation mode control module for controlling an operation mode of the PS-LTE terminal device;
An emergency signal detection module for detecting an emergency signal of the PS-LTE terminal;
An emergency situation control module for controlling the emergency situation of the PS-LTE terminal;
And,
Wherein the operation control module comprises:
Wherein the PS-LTE terminal equipment is delegated a base station mode to another PS-LTE terminal unit when an emergency signal is detected in the PS-LTE terminal equipment used as a base station, and ends the base station mode of the PS- Battery saving device of LTE terminal machine.

The method of claim 12,
Wherein the operation mode control module comprises:
If the PS-LTE terminal exists in the PS-LTE base station network, it operates in LTE mode;
If the PS-LTE terminal exists outside the PS-LTE base station network, the PS-LTE terminal operates in the base station mode;
And a controller for controlling the PS-LTE terminal device so as to control the power consumption of the PS-LTE terminal device.
The method of claim 12,
The emergency signal detection module
Wherein when the emergency button of the PS-LTE terminal is pressed for a predetermined time or more, an emergency signal is generated and transmitted to the emergency situation control module.
The method of claim 12,
The emergency situation control module
A duty cycle adjustment module for adjusting a synchronization duty cycle of the PS-LTE terminal based on the measured battery remaining amount;
A communication module for transmitting a variation amount of the synchronization duty cycle, the battery remaining amount, and the battery remaining amount adjusted by the PS-LTE terminal machine to the base station and other PS-LTE terminal devices in the vicinity;
The apparatus of claim 1, wherein the battery is a battery.

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