KR20160112486A - Smart plug control apparatus and method using the beacon on the home energy management system - Google Patents

Abstract

Disclosed are an apparatus and a method for controlling a smart plug using a beacon. A smart plug control apparatus according to an embodiment may include a beacon signal detection part which detects a beacon signal to be connected to a home energy management system, an authentication part which performs authentication on the smart plug control device when the beacon signal is detected, and a control part which transmits a control signal of the smart plug to the beacon to control the smart plug, when the authentication is successful. So, security can be secured.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart plug control apparatus and method using a beacon in a home energy management system,

More particularly, to an apparatus and method for controlling a smart plug using a beacon.

In recent years, electronic apparatuses have a function of automatically turning on / off a power source and a function of remotely controlling a power source. To this end, stand-by power that waits for a user's input is generated separately from the operating power of the electronic apparatus have. As a result, the power consumption is increased and a burden is placed on the countries and users.

In order to block the standby power, the plug of the electronic device must be manually disconnected and connected. However, in this case, the user is inconvenienced. Recently, as a method for automatically shutting off the standby power, Research is underway.

Korean Patent Registration No. 101242165 (March 31, 2013)

It is an object of the present invention to provide an apparatus and method for detecting security by ensuring the registration and authentication of a device by automatically detecting a beacon signal and controlling a smart plug remotely through a terminal.

According to one aspect, the smart plug control device includes a beacon signal sensing unit for sensing a beacon signal to access a home energy management system, an authentication unit for performing authentication of the smart plug control device when a beacon signal is detected, , And a control unit for controlling the smart plug by transmitting a control signal of the smart plug to the beacon.

According to another aspect, the authentication unit may transmit the authentication code previously given from the home energy management system to the home energy management system via the beacon, and receive the authentication key given as the authentication result of the home energy management system.

According to another aspect, the control unit may include a status information receiving unit that receives status information of the smart plug from the beacon.

According to another aspect, the status information may include at least one of a power energy usage, a usage time, a standby power supply availability, and an energy charge supplied through a smart plug.

According to another aspect, the control unit further includes a control signal generating unit for generating a control signal including at least one of power supply, power supply, power supply time, and power supply cycle of the smart plug based on the user input signal and the status information .

According to another aspect, the control signal generator may generate a control signal based on an input signal that sets a control condition of the smart plug and an input signal that the user inputs to request power supply and interruption of the smart plug.

According to another aspect, the control signal generating unit may generate the control signal based on the electronic device information including the type and control method of the electronic device connected to the plurality of smart plugs.

According to an aspect, a smart plug control method includes the steps of sensing a beacon signal to connect to a home energy management system, performing authentication of a smart plug control device when a beacon signal is detected, Generating a control signal, and transmitting the control signal to the beacon.

According to another aspect, the step of performing the authentication includes transmitting the authentication code previously given from the home energy management system to the home energy management system via the beacon and receiving the authentication key given as the authentication result of the home energy management system Step < / RTI >

According to another aspect, the step of generating the control signal of the smart plug includes receiving the status information of the smart plug from the beacon, and determining whether or not the power supply of the smart plug, the power supply amount, Generating a control signal including at least one of a power supply time, a power supply period, and generating a control signal, wherein the step of generating a control signal includes: The control signal can be generated based on the input signal for setting the control condition of the smart plug or on the type of the electronic device connected to the plurality of smart plugs and the electronic device information including the control method.

By using the beacon, the user can remotely control the smart plug, and the registration and authentication process of the smart plug control device can be performed to secure the security, thereby stably supplying power of the electronic device and reducing unnecessary power consumption.

1 is a system configuration diagram for home energy management according to an embodiment.
2 is a configuration diagram of a smart plug control apparatus according to an embodiment.
3 is a block diagram of a control unit according to an embodiment.
4 is a flowchart illustrating a smart plug control method according to an embodiment.
5 is a flow diagram illustrating a method for generating a smart plug control signal in accordance with one embodiment.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention of the user, the operator, or the custom. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, embodiments of the smart plug control apparatus and method will be described in detail with reference to the drawings.

1 is a system configuration diagram for home energy management according to an embodiment.

Referring to FIG. 1, a system for home energy management may include a smart plug control device 100, a beacon 200, a home energy management system 300, and a smart plug 400.

According to one example, the smart plug control device 100 may be connected to the home energy management system 300 via the beacon 200. The smart plug control device 100 may be connected to the home energy management system 300 to receive status information of the smart plug 400. [ The smart plug control device 100 receives a smart plug control signal from a user to generate a control signal and transmits the control signal to the home energy management system 300 via the beacon 200 to control the smart plug 400 . A detailed description of the smart plug control apparatus 100 will be described later.

According to an example, the beacon 200 may serve to relay the home energy management system 300 and the smart plug control device 100. [ To this end, the beacon 200 periodically generates a beacon signal to enable the smart plug controller 100 to know whether or not it has entered the coverage area of the beacon 200. When the smart plug control apparatus 100 is connected to the beacon 200, the beacon 200 can inform the home energy management system 300 that the new smart plug control apparatus 100 is connected.

According to another example, the beacon 200 may receive the status information of the smart plug 400 from the home energy management system 300 and transmit the status information to the smart plug control device 100. At this time, the beacon 200 can transmit status information only to the smart plug control device 100 authenticated from the home energy management system 300 among the smart plug control devices 100 within its coverage. The beacon 200 may receive the control signal from the smart plug control device 100 and transmit the control signal to the home energy management system 300.

According to another embodiment, the beacon 200 may utilize a Bluetooth (Blue Tooth) wireless communication technique in communication with the home energy management system 300 and the smart plug control device 100.

According to one example, the home energy management system 300 may control the smart plug 400 in conjunction with one or more smart plug control devices 100. To this end, the home energy management system 300 may register one or more smart plug control devices 100. At this time, the home energy management system 300 may use the unique identification number of the smart plug control device 100 to register the smart plug control device 100. [ For example, when a mobile terminal such as a smart phone or a tablet PC is used as the smart plug control device 100, the phone number of the mobile terminal can be used.

According to another example, the home energy management system 300 may perform authentication of the smart plug control device 100. [ When the smart plug control apparatus 100 enters the coverage of the beacon 200 and requests connection to the system, the home energy management system 300 confirms whether the smart plug control apparatus 100 is a registered device, The smart plug control apparatus 100 can be authenticated by giving an authentication key.

According to another embodiment, the home energy management system 300 may transmit the status information of the smart plug 400 to the smart plug control apparatus 100 authenticated via the beacon 200. [ In addition, the smart plug 400 can be controlled by receiving the control signal of the smart plug 400 from the smart plug control device 100. [

According to one example, the smart plug 400 may be a device that connects and supplies power to an electronic device. At this time, the smart plug 400 is connected to the home energy management system 300 and can transmit state information on the currently supplied power. In addition, the home energy management system 300 may receive a control signal to shut off or supply power to the connected electronic device.

2 is a configuration diagram of a smart plug control apparatus 100 according to an embodiment.

Referring to FIG. 2, the smart plug control apparatus 100 may include a beacon signal sensing unit 110, an authentication unit 130, and a control unit 150.

According to an example, the beacon signal sensing unit 110 may sense a beacon signal to connect to the home energy management system 300. [ It is necessary to know whether the smart plug control apparatus 100 is located within the coverage of the beacon 200 in order to communicate with the home energy management system 300. [ Therefore, the smart plug control device 100 periodically senses the beacon signal and knows whether it is located within the coverage of the beacon 200. [ At this time, the coverage of the beacon 200 may be an indoor space such as an office, a home, or a public institution managed by the home energy management system 300. For example, when the home energy management system 300 is installed in a home, when the user enters the home with the smart plug control device 100, the smart plug control device 100 is installed inside the home The beacon 200 may be detected and automatically attempted to access the home energy management system 300.

According to an example, when the beacon signal is detected, the authentication unit 130 can perform authentication of the smart plug control apparatus 100. [ For example, when a plurality of smart plug control apparatuses 100 detect a beacon signal and attempt to connect to the home energy management system 300, the home energy management system 300 transmits the registered smart plug control apparatus 100, It is necessary to provide information and input control signals. For this purpose, the authentication unit 130 may request authentication to the home energy management system 300 in order to obtain the authority for the reception of the status information and the control of the smart plug 400.

The authentication unit 130 transmits the authentication code previously given from the home energy management system 300 to the home energy management system 300 via the beacon 200, It is possible to receive the authentication key given as the authentication result of the authentication key.

For example, the authentication unit 130 may register its identification number in the home energy management system 300 in advance for interlocking with the home energy management system 300, and may provide the authentication code from the home energy management system 300 Can receive. When the smart plug control apparatus 100 enters the coverage area of the beacon 200 and detects a beacon signal, the authentication unit 130 transmits the authentication code, which has been previously given, to the home energy management system 300). The home energy management system 300 receives the authentication code transmitted by the authentication unit 130 and determines whether the device is a registered smart plug control device. If the smart plug control device is a registered smart plug control device, the home energy management system 300 transmits an authentication key to the authentication unit 130 Lt; / RTI > The smart plug control device 100 can receive the authentication key and receive the status information or use it to transmit the control signal.

According to one example, when the authentication is successful, the controller 150 may control the smart plug 400 by transmitting a control signal of the smart plug 400 to the beacon 200. [ For example, the control unit 150 may receive status information from the home energy management system 300. For example, In addition, a user input signal for controlling the smart plug 400 can be received from the user. At this time, the status information may include the amount of power energy supplied through the smart plug 400, the usage time, the standby power supply availability, and the energy charge. The user input signal received from the user may be transmitted to the smart plug 400 through the electronic device information including the power on / off of the smart plug 400, the operation time setting, the standby power state setting, the type of the electronic device connected to the smart plug 400, And the like.

According to another example, the control unit 150 may generate a control signal based on the user input signal and the state information, and may transmit the control signal to the home energy management system 300. For example, the control signal may include power supply of the smart plug 400, power supply amount, power supply time, power supply period, and the like. A concrete control signal generating method will be described later.

3 is a block diagram of the controller 150 according to an embodiment of the present invention.

3, the control unit 150 may include a status information receiving unit 152 and a control signal generating unit 154. [

According to an example, the status information receiving unit 152 may receive the status information of the smart plug 400 from the beacon 200. [ At this time, the status information may include at least one of the amount of power energy supplied through the smart plug 400, the usage time, the standby power supply availability, and the energy fee. For example, when the heating device is connected to the smart plug 400, the smart plug 400 can be used for a predetermined period of time such as one week, week, or month of the connected heating device, The home power management system 300 can measure the amount of standby power that is generated when the home power management system 300 fails. In this case, the home energy management system 300 can receive the information of the smart plug 400 and calculate the energy charge. The home energy management system 300 can transmit this information to the smart plug control device 100 via the beacon 200. [ At this time, the status information receiving unit 152 can receive the status information of the smart plug 400 through the beacon 200. [

According to another example, the status information receiving unit 152 can receive status information at regular intervals. Alternatively, when the state of the smart plug 400 is changed by transmitting the smart plug control signal to the smart plug control apparatus 100, the changed state information can be received. Or the smart plug 400 may be controlled by another smart plug control device to receive the changed status information when the status is changed.

The control signal generator 154 generates a control signal including at least one of power supply, power supply, power supply time, and power supply cycle of the smart plug 400 based on the user input signal and the status information. Lt; / RTI >

For example, the control signal generating unit 154 generates a control signal based on an input signal that the user inputs to request the power supply to the smart plug 400 and an input signal to set the control condition of the smart plug 400 A control signal can be generated. For example, the input signal input to request the power supply to the smart plug 400 may be an on / off control signal of the smart plug 400. The user can directly input the on / off control signal to the smart plug control device 100 when the user directly cuts off the power of the electronic device connected to the smart plug 400 or supplies power to the electronic device to operate the device. At this time, the control signal generating unit 154 can receive the input signal of the user and transmit it to the home energy management system 300 to control the smart plug 400.

For another example, the smart plug control apparatus 100 can control the smart plug 400 based on control condition signals such as an operation time setting, a standby power state setting, and the like. For example, when setting the operation time, the smart plug control device 100 can receive the usage time information of the smart plug 400 from the home energy management system 300, The smart plug 400 may generate a signal to shut off the power of the smart plug 400 and transmit the generated signal to the home energy management system 300. [ For example, when the standby power state is set, it is determined whether the standby state of the electronic device connected to the smart plug 400 is maintained. If the standby time is set by the user, A signal for shutting off the power may be generated and transmitted to the home energy management system 300.

According to another example, the control signal generator 154 may generate a control signal based on the electronic device information including the type of the electronic device connected to the plurality of smart plugs 400 and the control method. For example, when the electronic device connected to the smart plug 400 is a refrigerator, the cooler may be operated when the temperature is equal to or higher than a predetermined temperature on the characteristic of the refrigerator. In this case, when the smart plug 400 cuts off the smart plug power to cut off standby power, the refrigerator can not operate normally. Therefore, the control signal generating unit 154 can set the control condition so that even when the standby power is generated in the refrigerator, the power is kept uninterrupted. In another example, when the electronic device connected to the smart plug 400 is a television, the television consumes a certain amount of standby power even when the user turns off the power. Further, in the case of a television, since the standby power is cut off, no problem occurs in the operation like the refrigerator. Accordingly, the control signal generator 154 can set the control condition to block the standby power when the standby power is generated.

According to an embodiment, the beacon signal sensing unit 110, the authentication unit 130, and the control unit 150 may be implemented as a software block stored in the memory of the smart plug control device 100 and executed in the microprocessor. According to another embodiment, the beacon signal sensing unit 110, the authentication unit 130 and the control unit 150 may be implemented as a programmable logic array (PLA), a programmable array logic (PAL), a simple programmable logic device (SPLD) A programmable logic device (FPGA) or a field programmable gate array (FPGA).

4 is a flowchart illustrating a smart plug control method according to an embodiment. 4 may be an embodiment of a smart plug control method performed by the smart plug control apparatus 100 of FIG.

Referring to FIG. 4, a smart plug control method according to an exemplary embodiment of the present invention firstly detects a beacon signal to access a home energy management system (step 410). According to one example, the smart plug control apparatus 100 may sense a beacon signal to access a home energy management system. It is necessary to know whether the smart plug control apparatus 100 is located within the coverage of the beacon in order to communicate with the home energy management system. Accordingly, the smart plug control device 100 periodically senses the beacon signal, confirms whether it is located within the coverage of the beacon, and can automatically attempt to connect to the home energy management system.

When the beacon signal is detected, the smart plug control device 100 performs its authentication through the home energy management system (420). The home energy management system needs to grant authority to access the system only for the smart plug control device 100 registered for security. To this end, the smart plug control apparatus 100 may request authentication from the home energy management system to obtain the authority for receiving the status information and smart plug control.

For example, the smart plug control apparatus 100 transmits an authentication code previously given from the home energy management system to the home energy management system via a beacon for authentication, Key can be received.

For this purpose, the smart plug control device 100 registers its identification number in the home energy management system in advance for interlocking with the home energy management system, and can receive the authentication code from the home energy management system. Thereafter, when the smart plug control apparatus 100 enters the coverage of the beacon and senses the beacon signal, the smart plug control apparatus 100 can transmit the authentication code previously given to the home energy management system through the beacon. Thereafter, when the authentication is successful, the smart plug control device 100 can receive the authentication key from the home energy management system and receive the status information or use it to transmit the control signal.

The smart plug control apparatus 100 generates a control signal of the smart plug when the authentication from the home energy management system is successful (430). For example, smart plug control device 100 may receive status information from a home energy management system. In addition, the smart plug control device 100 may receive a user input signal for smart plug control from a user. At this time, the status information may include the amount of power energy supplied through the smart plug, the usage time, the standby power supply availability, and the energy charge. Also, the user input signal input from the user may include power on / off of the smart plug, operation time setting, standby power state setting, type of the electronic device connected to the smart plug, and electronic device information including the control method .

The generated control signal is transmitted to the beacon (440). For example, the smart plug control apparatus 100 may use a Bluetooth (Blue Tooth) wireless communication technique in communication with the beacon.

5 is a flow diagram illustrating a method for generating a smart plug control signal in accordance with one embodiment. Fig. 5 may be an embodiment performed by the smart plug control apparatus 100 of Fig.

The smart plug control device 100 receives the status information of the smart plug from the beacon to generate the control signal (432). At this time, the status information may include at least one of the amount of power energy supplied through the smart plug, the usage time, the standby power supply availability, and the energy fee. For example, when a heating device is connected to a smart plug, the smart plug can be used for a certain period of time such as days, weeks, or months of the connected heating device, The amount of power can be measured and transmitted to the home energy management system. In this case, the home energy management system can receive the information of the smart plug and calculate the energy charge. The home energy management system can transmit this information to the smart plug control device 100 via a beacon. At this time, the smart plug control apparatus 100 can receive status information of the smart plug through the beacon.

Then, the smart plug control device 100 controls the smart plug based on the user input signal and the status information based on the smart plug status information, and controls the smart plug including at least one of power supply, power supply, power supply time, A signal is generated (434).

For example, the smart plug control apparatus 100 may generate a control signal based on an input signal that sets a control condition of the smart plug and an input signal that the user inputs to request the power supply to and interruption of the smart plug . For example, the input signal input to request powering and blocking of the smart plug may be an on / off control signal of the smart plug. The user can directly input the on / off control signal to the smart plug control device 100 when the user directly cuts off the power of the electronic appliance connected to the smart plug or wants to supply power to the electronic device to operate. At this time, The smart plug control device 100 can receive a user's input signal and send it to the home energy management system to control the smart plug.

For another example, the smart plug control apparatus 100 can control the smart plug based on control condition signals such as an operation time setting, a standby power state setting, and the like. For example, when the operation time is set, the smart plug control device 100 can receive the usage time information of the smart plug from the home energy management system and confirm whether it has been used for the set time, , A signal for shutting off the power of the smart plug can be generated and transmitted to the home energy management system. For example, when the standby power state is set, the smart plug control device 100 determines whether the standby state of the electronic device connected to the smart plug is maintained. If the standby state is set by the user, A signal for shutting off the power of the plug can be generated and transmitted to the home energy management system.

According to another example, the smart plug control apparatus 100 can generate a control signal based on the electronic apparatus information including the type and control method of the electronic apparatus connected to the plurality of smart plugs. For example, when the electronic device connected to the smart plug is a refrigerator, the cooler may be operated when the temperature of the refrigerator is higher than a predetermined temperature, but may be stopped when the temperature is lower than a predetermined temperature. In this case, if the SmartPlug disconnects the SmartPlug power to block the standby power, the refrigerator will not be able to operate normally. Therefore, the smart plug control device 100 can set the control conditions so that the power is not cut off even when the standby power is generated in the case of the refrigerator. As another example, when the electronic device connected to the smart plug is a television, the television consumes a certain amount of standby power even when the user turns off the power. Further, in the case of a television, since the standby power is cut off, no problem occurs in the operation like the refrigerator. Therefore, the smart plug control device 100 can set the control condition to block the standby power when it occurs.

One aspect of the present invention may be embodied as computer readable code on a computer readable recording medium. The code and code segments implementing the above program can be easily deduced by a computer programmer in the field. A computer-readable recording medium may include any type of recording device that stores data that can be read by a computer system. Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, and the like. In addition, the computer-readable recording medium may be distributed to networked computer systems and written and executed in computer readable code in a distributed manner.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be construed to include various embodiments within the scope of the claims.

100: smart plug control device 110: beacon signal detection unit
130: authentication unit 150:
152: status information receiving unit 154: control signal generating unit
200: Beacon 300: Home Energy Management System
400: Smart Plug

Claims (10)

A smart plug control device in a home energy management system,
A beacon signal sensing unit for sensing a beacon signal for connection to the home energy management system;
An authentication unit for performing authentication of the smart plug control apparatus when the beacon signal is sensed; And
And a controller for controlling the smart plug by sending a control signal of the smart plug to the beacon if authentication is successful. The method according to claim 1,
Wherein the authentication unit transmits an authentication code previously given from the home energy management system to the home energy management system via the beacon and receives an authentication key given as an authentication result of the home energy management system. The method according to claim 1,
Wherein the controller includes a status information receiving unit for receiving status information of the smart plug from a beacon. The method of claim 3,
Wherein the status information includes at least one of a usage amount of power energy supplied through the smart plug, a usage time, a standby power supply availability, and an energy fee. The method of claim 3,
The control unit may further include a control signal generator for generating a control signal including at least one of a power supply amount, a power supply amount, a power supply time, and a power supply cycle of the smart plug based on a user input signal and the status information. Plug control device. 6. The method of claim 5,
Wherein the control signal generating unit generates the control signal based on an input signal inputted by the user to request power supply and interruption of the smart plug and an input signal setting the control condition of the smart plug. 6. The method of claim 5,
Wherein the control signal generation unit generates the control signal based on electronic device information including a type and a control method of an electronic device connected to a plurality of smart plugs. A smart plug control method in a home energy management system,
Sensing a beacon signal to connect to the home energy management system;
Performing authentication of the smart plug control device when the beacon signal is detected;
If the authentication is successful, generating a control signal of the smart plug; And
And transmitting the control signal to the beacon. 9. The method of claim 8,
The step of performing the authentication
Transmitting an authentication code previously given from the home energy management system to the home energy management system via the beacon; And
And receiving an authentication key given as an authentication result of the home energy management system. 9. The method of claim 8,
The step of generating the control signal of the smart plug
Receiving status information of the smart plug from a beacon; And
Generating a control signal including at least one of a power supply amount, a power supply amount, a power supply time, and a power supply period of the smart plug based on a user input signal and status information of the smart plug,
The step of generating the control signal
An electronic device including a control method based on an input signal to set a control condition of the smart plug or an input signal inputted by the user to request power supply and interruption of the smart plug or a plurality of types of electronic devices connected to the smart plug And generating the control signal based on the information.

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