KR101940205B1 - Perpormance control system for battery ofiot terminal - Google Patents

Abstract

The present invention relates to a method and apparatus for efficiently managing the battery performance of a wireless terminal, and more particularly, the efficiency of the battery varies depending on the intensity of a signal of the wireless terminal. Currently, signals are exchanged by various methods such as 3G, Wi- However, it has not been able to control it properly, so that the performance of the battery can not be used completely. In order to achieve the above object, the present invention provides a method for efficiently managing the performance of a battery of a wireless terminal, comprising: deviating a limited distance of a Bluetooth (Local Area Network) using a signal system of a wireless terminal, Measuring the movement time of the transmission / reception coordinate interval of the wireless terminal, and calculating each step in combination using GPS, so that the signaling method is changed for each step, And more particularly to a system for efficiently managing performance by changing a signal system.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an IOT terminal,

In order to efficiently manage the battery of the wireless terminal, the present invention is to efficiently manage the performance of the battery by changing the signal system rather than the existing charging system, Performance management system

Generally, a wireless terminal is operated by a battery and the battery is operated by charging. There are various charging methods such as an electric method, a light method, and a heat method. However, nowadays, electric charging method is mainly used, and the use due to charging at this time depends on the performance of the battery.

 At this time, the wireless terminal also controls the maintenance performance of the battery by the frequency and the communication. Currently, the communication module which is designed to receive the communication signal as quickly as possible is adopted as the method that can maximize the performance of the battery.

However, this method is also possible in a space band where frequency and communication are completely made, but it is a reality that the performance of the battery is not so much affected.

Prior art literature

[Document 1] KR 10-20060096809 B1

[Document 2] KR 10-20060096809 A

[Document 2] KR 10-19970073256 A

This prior art document KR 10-20060096809 B1 is a battery management device based on a wireless communication based on a communication method based on a communication method based on a mobile communication method. In this method, And it is not operated when other communication is mixed and proceeded. In comparison with the comparative invention, the present invention includes a GPU capable of using a local area network, a GPS, a communication module, and a GPS, and detects when the local area network is disconnected from the local area network And the performance of the battery of the mobile terminal can be controlled using the communication interval and the movement distance of the GPS.

The UWB wireless terminal and the power supply method powered by the radio signal of the prior art document KR 10-20060096809 A wirelessly transmit the power to the terminal by using a wireless signal to charge the battery There is a significant difference from the method of minimizing the battery consumption by changing the communication module using the GPS distance and communication between the communication module and the server by changing the communication system of the present invention.

Among these prior documents, KR 10-19970073256 A discloses a signal processing method using a time in which the repeater processes signals according to whether the initial time (T1) for starting the current control mode has passed or the signal synchronization time (T2) And the present invention is characterized in that the signal interval of the communication module is adjusted through the interval of the GPS, which is a considerable difference from the prior art

In order to efficiently manage the battery of the wireless terminal, the conventional method is to charge the power source or charge the battery using solar energy or light energy. This is a method for efficiently using the battery even in the case of charging and for efficient reception of communication or frequency in other ways. Currently, using Bluetooth 4.0 technology improves the reception rate of communication and improves battery performance I had.

However, this method has a considerable effect when a communication blind spot or a communication network is deviated due to the restriction of the distance.

Therefore, we try to solve this problem by changing the communication system of the wireless terminal instead of this method.

According to an embodiment of the present invention, the present apparatus is composed of a device constituting a local area network, a GPS receiving device, a communication module, a battery, and an MPU. The MPU includes a CPU and a memory, A communication module and a program for controlling GPS are built in, and a terminal equipped with a battery control system of the wireless terminal operates.

The apparatus includes a step of departing from a limited distance of a local area network (Bluetooth, NFC, etc.), a step of measuring a moving distance of the wireless terminal, a step of measuring a moving time of a transmitting / receiving coordinate interval of the wireless terminal, And to increase the battery performance effectively by changing the signaling system and setting the signal time of the wireless terminal for each step,

The present invention is not limited to the conventional charging method and communication method, or the method of improving the performance of the battery, but the communication scheme is changed using the control program in the wireless terminal through the time of the movement distance and the coordinate interval, The present invention has a remarkable effect that the existing battery performance can be maximized by changing the signal time and the communication system with the phone.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram depicting the components of an overall system;
2 is a view showing internal components of an IOT mobile terminal;
3 is an operational connection diagram of an IOT mobile terminal
4 is a flowchart showing the operation of the IOT mobile terminal
5 is a schematic diagram for a method of improving battery performance by changing a communication method
6 shows an example of changing the communication method of the IOT mobile terminal by changing the communication method
7 is a diagram showing an operation principle inside an actual system of an IOT mobile terminal

In order to implement the present invention, the overall configuration system is composed of an IOT fixed terminal 1000, a user terminal 2000, a GPS 3000, an IOT mobile terminal 5000 and a server 4000, The IOT mobile terminal includes an MPU module 100, a short range communication module 200, a GPS transmission / reception module 300, and a communication module 400.

The MPU module 100 is composed of a CPU and a MEMORY. The MPU module 100 checks and operates whether the short-range communication module, the communication module, and the GPS module are operated. The MPU module 100 controls the short-range communication module, And instructs the control of the communication module and stores the information in the server by using the communication module. In order to control the operation time of the short distance communication module, the GPS transmission / reception module and the communication module by the server's command can do.

The short-range communication module 200 is a module that communicates with the IOT fixed terminal and operates only at a distance (area) of the short-range communication module. When the distance is out of the range, the operation is stopped. The GPS is activated through the MPU 100, and the information is stored in the server through the communication module. The short-range communication module generally refers to wireless communication used in a home, a shopping mall, or an office such as WIFI, communication via a wireless modem, Bluetooth, and NFC.

The GPS transmission / reception module 300 is a device for communicating with the GPS and operates when the operation of the short distance communication module stops. At this time, the GPS transmitting / receiving module checks the time, latitude and longitude of the IOT mobile terminal, and the number of satellites, and collects information about movement distance, time and coordinates of the IOT mobile terminal so that information is stored in the MPU memory And the stored data is transmitted to the server through the communication module.

The communication module 400 plays the role of transmitting information to the server or the user terminal according to the time setting of the operation information of the local communication module, the GPS transmission / reception information, the time and coordinate distance commanded by the MPU, and the like.

Communication module generally refers to wireless communication that can be used for long distance communication such as 3G, 4G, LTE WIFI.

The battery management system of the IOT mobile terminal

To improve the performance of the battery by turning on / off the operation of the short distance communication module, the GPS transmission / reception module and the communication module, or by controlling the operation time.

Hereinafter, an embodiment of the present invention will be described.

Generally, the battery power of the terminal is consumed most when data transmission / reception and GPS measurement are performed. That is, when the IOT mobile terminal moves from the IOT station to the IOT mobile station, the communication module and the GPS operate, and only the local communication module (for example, Bluetooth 4.0 only) operates and uses the super power.

When the IOT mobile terminal deviates from the range or range of the IOT station, an alarm notification is transmitted to the smartphone, and the communication module and the GPS transmission / reception module are operated in real time, and GPS information and interval are transmitted to the server . For example, GPS data may be stored in the RAM every 30 seconds and data may be transmitted to the server every 180 seconds (3 minutes) to confirm the movement path of the IOT mobile terminal.

In addition, if the distance and range of the IOT station is out of the range, the communication module and the GPS will operate in real time. If the distance is less than 1km, the alarm notification will be sent to the smartphone. And transmits the data to the server every 30 seconds. At this time, the power after operation is minimized according to the operation time interval.

When the IOT mobile terminal deviates from the range and range of the IOT station, the 5km departure warning message is transmitted to the smartphone. GPS data is stored in the RAM at intervals of 30 seconds, and the 3G boot data Is transmitted. After the data is transferred, the battery management mode is applied and low power is used.

That is, when the IOT fixed terminal and the IOT mobile terminal are located close to each other, only the local communication module is operated to control the battery use. When the IOT fixed terminal or the user terminal and the IOT mobile terminal deviate from the short distance communication, By using the module, it is possible to control the interval at which the communication module operates by the distance and the coordinate interval, thereby minimizing the use of the battery, thereby increasing the use time of the battery.

The present invention will be described in detail with reference to the drawings.

1 is a block diagram of an entire system for implementing the present invention.

The present invention relates to an IOT fixed terminal 1000 which is a fixed terminal installed in a house or an office, an IOT mobile terminal 5000 for moving people, animals or objects, a GPS 3000, An IOT mobile terminal, a server 4000 for communicating with a smartphone, and a smartphone 2000 of the user.

2 is a block diagram illustrating an IOT mobile terminal according to an embodiment of the present invention. Referring to FIG. 2, MPU (CPU + MEMORY) is composed of a local communication unit, a GPS receiver unit, a communication module, and a battery. Quot; communication " Currently, there are Bluetooth and NFC.

The GPS receiving apparatus 300 is a module capable of performing transmission and reception using wireless communication with GPS, and is adapted to transmit and receive the position of the IOT mobile terminal. The GPS receiving apparatus 300 is a separate device capable of setting the MPU and the MPU It is also possible to control it.

The communication module 400 is a module capable of connecting with a smart phone and a mobile communication base station, and is a module that can be connected to a wireless communication system such as CDMA or LTE. This communication module is controlled by the MPU, and the setting can be changed by a separate device that can control the MPU.

The MPU 100 is a MODULE PROCESS UNIT that is a combination of a CPU and a memory and controls the local communication 100, the GPS receiving device 300 and the communication module 400 as a unit for controlling the local communication, the GPS receiving device, , And the MPU may be configured so that the program settings can be changed by the user smartphone.

The battery 500 supplies power to the IOT mobile terminal, the IOT fixed terminal, the GPS receiver, and the communication module.

FIG. 3 shows the connection of the IOT mobile terminal 5000 to an external device in an operational connection. At this time, the MPU 100 of the IOT mobile terminal is an operation connection diagram in which the operations of the local area communication 200, the GPS receiving device 300, and the communication module 400 are directly connected.

The IOT station is connected to the local area network. At this time, when the distance between the IOT mobile terminal and the IOT mobile terminal becomes long, the connection with the IOT mobile station is disconnected,

Also, when the connection to the user terminal is disconnected, the disconnected information is determined by the MPU, and the MPU transmits information to the server through the communication module.

After that, the MPU activates the GPS transmit / receive module and tries to connect with GPS.

The GPS 3000 is connected to the GPS transmission / reception module 300 of the IOT mobile terminal 5000. When the short distance communication 200 is disconnected from the IOT fixed terminal, the GPS transmission / reception module operates on the command of the MPU 100, and the GPS transmission / reception module 300 transmits information to the MPU 100 in terms of coordinates, distance and time. Information is transmitted to the server 4000 through the communication module 4000 and can be checked at any time through the terminal 2000 of the user.

The server 4000 is connected to the communication module 400 of the IOT terminal 5000.

The communication module transmits and stores various information such as the distance and time through the GPS movement coordinates during the operation of the GPS through the communication module and transmits the information to the user's terminal at the request of the user, Can be done.

The user terminal 2000 can receive information through the server when the IOT fixed terminal and the IOT mobile terminal are connected to each other and can not confirm the movement path and status of the IOT mobile terminal. Also, information can be directly transmitted using the communication module of the IOT mobile terminal.

FIG. 4 shows an operation flowchart of the IOT mobile terminal.

That is, when the IOT terminal is powered on, the software is checked when the switch is on, and the software is updated through the communication module when the version is upgraded.

After that, the battery is checked. If the power is 30%, the LED or buzzer gives the charge signal, and the user can charge the battery.

Then, the local communication is checked. In this case, the local communication is a user terminal, an IOT fixed terminal and a user terminal.

At this time, there is a moment when the GPS is operated. When the local communication with the IOT fixed terminal is OFF and the user terminal is OFF, it is determined that the IOT mobile terminal is disconnected from the short distance communication and does not communicate with the user terminal. .

In this figure, the IOT mobile terminal is not displayed, but the IOT mobile terminal is a premise that the IOT mobile terminal and the user terminal communicate with the IOT mobile terminal through short-range communication.

After that, the GPS operates and the coordinate data is transmitted / received by the GPS transceiver, and this data is stored in the MPU storage device. At this time, when the user does not reach the set distance, the coordinates and distance which are the GPS values are continuously stored. When the set distance is reached, the data is sent to the server through the communication module. At this time, after reaching the set distance, the time for communication with the server of the communication module is adjusted by the MPU. For example, if the set distance is 1KM, the communication module can transmit the coordinate value to the server by the communication module once every 3 minutes, or if it is within 5KM, the coordinate value can be transmitted to the server once every 5 minutes have. As a result, the communication module is not always turned on, but the time of the communication module can be adjusted by user setting to extend the battery time.

At this time, the setting value can be changed by the user at any time by the user terminal.

The information transmitted to the server can be used to check the location of the IOT mobile terminal through the server in the user terminal. In addition, when the mobile communication terminal is disconnected from the mobile communication terminal, The path is stored in the server through the communication module of the IOT mobile terminal, and the user terminal and the server communicate with each other, so that battery consumption of the IOT mobile terminal can be minimized.

FIG. 5 is a schematic diagram illustrating a method of improving battery performance by changing a communication method in a communication method changing area of an IOT mobile terminal.

If the IOT fixed terminal and the IOT mobile terminal are close to each other, the mobile terminal operates using the local area network. If the IOT mobile terminal and the IOT mobile terminal depart from the distance or area, the GPS and the communication module operate to detect the location of the IOT mobile terminal. And controlling the operation time so as to minimize battery consumption of the IOT mobile terminal.

FIG. 6 illustrates a change in the communication method of the IOT mobile terminal by changing the communication method. At this time, the IOT mobile station is set as home and the IOT mobile terminal is set and displayed as an example.

The battery power of the terminal is consumed most when data transmission / reception and GPS measurement are performed. Therefore, if the companion is only active within a 20-meter radius of the home, only the local communication bluetooth 4.0 will operate and use super power (3G, GPS not working).

When the companion is 20m away from home, a warning alert is sent to the smartphone, 3G, GPS is activated, GPS data is stored in RAM every 30 seconds, data is sent to the server using the communication module every 180 seconds To confirm the movement path of the companion animal.

If you are away from home and you are within 1 ~ 5km radius, 3G and GPS will work. If you leave 1km, alert message will be sent to your smartphone. GPS data will be stored in RAM every 5 seconds, And transmits the data. At this time, the power after operation is minimized according to the operation time interval.

When leaving the home at a radius of 5 km, a 5 km departure warning message is sent to the smartphone. GPS data is stored in the RAM every 30 seconds and data is transmitted to the communication module every 5 minutes. After the data is transferred, the battery management mode is applied and low power is used.

The change of this communication method, the GPS coordinate shift interval,

The position of the IOT mobile terminal can be grasped by controlling the operation time of the IOT mobile terminal and the position of the companion animal can be grasped and battery performance of the IOT terminal can be maximized.

7 is a view showing the operation principle of the inside of an actual system of the IOT mobile terminal

1000: IOT fixed terminal
2000: User terminal
3000: GPS
4000: Server
5000: IOT mobile terminal
100: MPU
200: Local area communication module
300: GPS transceiver
400: communication module
500: Battery

Claims (4)

In order to efficiently manage the battery power of the IOT terminal,
An IOT fixed terminal 1000 for short range communication;
A GPS 3000 for confirming the location information of the IOT mobile terminal;
A server 4000 for exchanging data on the operation and operation of the IOT; Wow
A user terminal 2000 capable of communicating with a server to obtain location information of an IOT mobile terminal;
An IOT mobile terminal including an IOT fixed terminal, a GPS, and an IOT mobile terminal 5000 communicating with a server and a user terminal for the object Internet,
A local area communication module (200) for local area communication; and
A GPS transceiver module 300 for communicating with a GPS; Wow
A communication module (400) for communicating with a server and a user terminal; and
A short distance communication module, a GPS transmission / reception module, and an MPU 100 for controlling the communication module,
The local communication module 200 of the IOT fixed terminal 1000 and the IOT mobile terminal 5000 operates only the local communication module 200 when the IOT fixed terminal is within the area of the local communication
When any one of the IOT fixed terminal 1000 and the IOT mobile terminal 5000 is out of the local communication area and the IOT mobile terminal can not communicate with the user terminal, the operation of the local communication module 200 is stopped
To operate the GPS transceiver module and the communication module of the IOT mobile terminal
The coordinate, distance and interval of the IOT mobile terminal are measured using the GPS transmission / reception module, the measured data is stored in the MPU,
It is stored in the server through the communication module
And when the predetermined distance has been shifted, the position information is operated only for a predetermined time, and the position information is transmitted to the server to extend the time of the battery
Battery performance management system of IOT terminal by changing communication signal system

delete delete The method of claim 1, wherein
The communication module operates according to the setting of the user,
At this time, information is communicated to the MPU server
Battery performance management system of IOT terminal by changing communication signal system.

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