KR101611472B1 - Location based electric power management method and system thereof - Google Patents

Abstract

The disclosure provides a location based power management method and a system thereof capable of making a user spontaneously reduce power usage by using a power measuring device and a smart phone capable of being connected to a communication network and terminals such as a computer. In a power management system, the disclosure relates to a power management system comprising: a power management server; an access point which communicates with the power management server and has an address and an ID; a power measuring device which is connected to the access point and has an ID; and a user terminal capable of being connected to the access point and being communicated with the power management server. The power management server comprises: an event transmission unit to transmit an event message to the user terminal; and an information receiving unit to receive user control information from the user terminal and the address and ID information of the access point connected by the user terminal.

Description

TECHNICAL FIELD [0001] The present invention relates to a location-based power management method,

The present disclosure relates to a location based power management method and system thereof. In particular, the present invention provides a location-based power management method and system for enabling a user to voluntarily reduce power usage by using a power measurement device that can be connected to a communication network and a terminal such as a smart phone and a computer.

Here, background art relating to the present disclosure is provided, and they are not necessarily meant to be known arts.

The power supplier operates a demand response (DR) service to drive energy savings for the participant (consumer) when the power reaches a peak. According to this service, the provider notifies the peak of the electric power amount, and the participant receiving the notice message reduces the electric power consumption. The amount of power consumed here is compensated by the supplier in a certain form to the participants. Specifically, for example, the power exchange issues a DR signal (reduction command) at a time when a peak of a power peak in summer or winter is anticipated or peaked. Then, the providers participating in the DR business transmit the power reduction message according to the DR signal to the customers managed by themselves. According to this message, consumers who save power will be compensated for future gains from power savings. The supplier's system is operated in this way to manage the power, but the power savings in such a system is such that the information is not properly communicated to the individual in the customer and how much it voluntarily moves. have.

According to Korean Patent Laid-Open Publication No. 10-2013-0073464 described in FIG. 1, in order to save energy, a function controllable in the smart home appliances 12 and 13 is provided to an energy service interface 11 ) And a meter, and discloses a smart home appliance (12,13) direct control device and method for energy saving that achieves energy saving by direct control when a certain condition is satisfied according to a user defined priority. According to the present invention, it is possible to control the smart appliances (12, 13) directly within the range permitted by the user (15) in a situation where power supply and demand is not possible, (12, 13) to the energy provider within the allowed range, thereby preventing the worst of the power outage and ensuring continuity of energy supply when power supply is not good. According to this conventional technology, an additional configuration such as a wall pad 14, an interface between the energy supplier and the home electric appliance (ESI, Energy Service Interface 11) is required in the home, and a limited range There is a problem in that the power can be reduced only within the allowable range). In addition, there is also a problem that it is difficult to realize the system installation cost in excess of direct profit through power reduction.

This will be described later in the Specification for Implementation of the Invention.

Here, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure.

According to an aspect of the present disclosure, there is provided a power management system, comprising: a power management server, an access point communicable with a power management server, the access point having an address and an ID, a power measurement device connected to the access point and having an ID, And a user terminal capable of communicating with the power management server. The power management server includes an event transmission unit for transmitting a power management event message to the user terminal, an access control unit There is provided a power management system having an information receiving unit for receiving address and ID information.

This will be described later in the Specification for Enforcement of the Invention.

1 is a diagram showing a power grid system disclosed in Korean Patent Laid-Open Publication No. 10-2013-0073464 as a prior art,
Figure 2 illustrates a location based power management system in accordance with one embodiment of the present disclosure;
3 is a diagram illustrating a location based power management system in accordance with another embodiment of the present disclosure;
4 is a diagram illustrating a power management server and data movement in accordance with one embodiment of the present disclosure;
5 is a diagram illustrating a data movement flow of a user terminal, a power management server, and a power measurement device according to an embodiment of the present disclosure;
6 is a diagram illustrating an access point, a power measurement device, a communication method of a user terminal according to another embodiment of the present disclosure,
7 illustrates a power management system with a sensing device according to another embodiment of the present disclosure;

Hereinafter, the present disclosure will be described in detail with reference to the accompanying drawings.

Figure 2 illustrates a power management system in accordance with the present disclosure. The power supplier 200 has a power grid for supplying power to the consumer. It supplies electricity to the consumer through this grid. The power supplier 200 has a power management server 201 for monitoring the power situation of such a power grid.

A plurality of subgroups may be formed in the power grid to receive power step by step. Usually there is a provider designated by the power supplier 200, there may be a customer who is subscribed to the provider, and the end user group 202, 203, e.g., general households, is ultimately supplied with electricity.

In FIG. 2, a method of managing the end user groups 202 and 203 will be described with reference to FIG. A power management system for managing power in a power grid has a power management server (201) for collecting and processing data related to power. The end user groups 202 and 203 of the system include an access point 210 (AP, Access Point) having an address and an ID that can be connected to the power management server 201 by the Internet or its own infrastructure, A power measurement device 220 connected to the power management server 210 and having an ID, and a user terminal 240 communicable with the power management server 201.

The power measurement device 220 installed in the end user groups 202 and 203 can communicate with the Internet or the like and can have a wireless communication function. The power measuring device 220 may be a smart meter that is capable of communicating with an electric meter currently used in the home. May transmit power usage information of the end user group 202, 203, or may optionally receive information from the supplier 200 to process the requested items.

The power measuring device 220 is installed in the power network and stores the ID of the power measuring device 220 and the ID and MAC address of the access point 210 used by the power measuring device 220 as power And registers it in the management server 201. This may be due to the user's program installation or random registration, or may be a plug and play function that automatically sends information at the time of installation.

When the power measurement device 220 is installed, the power management server 201 can know the amount of power usage in the end user groups 202 and 203 and analyze and collect data. In addition, the power management server 201 can specify the location of the power measurement device 220 according to the information of the access point 210 specified at the time of installation of the power measurement device 220.

The access point 210 has its own Media Access Control (MAC) address and ID. With this, the access point 210 can specify its location on the communication network. In addition, the location of the power measurement device 220 coupled to the access point 210 may additionally be specified. The communication network may be based on the network infrastructure of the power network operator, or may be based on the Internet. There is no restriction on wired and wireless. The wireless access point 210 allows wireless devices to connect to a wired network using industry standards such as WiFi, BlueTooth, and Zigbee. The wireless access point 210 is generally connected to a router that relays a wired network and can relay data between a wireless device such as a computer, a printer, or a smart phone, and a wired device on the network.

Also, the access point 210 may have a password set by the user. In this case, only the authorized user having the password can obtain the access point 210 information and send the event result information 252 to the power management server 201.

The user terminal 240 may be any communication device such as an arbitrary terminal installed on the supplier 200 side, a smart phone used by a user, a pad type computer, a notebook computer, or the like. The user terminal 240 is provided with a location based application (App), which is a program for communicating with the power management server 201. The app can receive the event message 251 sent by the power management server 201 and show it to the user. The user will control or reduce power usage based on the content of messages received through this app. The user who participated in the event transmits the event result information 252 to the power management server 201. The event result information 252 includes adjustment information according to a user's event request and the ID and address of the access point 210 used by the power measurement device 220 of the participating end user groups 202 and 203. Accordingly, the user participating in the event can send the position of the participant at the time of the participation to the power management server 201 using the access point information, and the power management server 201 calculates the degree of the power amount adjusted or reduced by the event Allow the user to compensate.

The location based participating app can allow the user to confirm and directly input the address and ID information of the access point 210 to which the power measuring device 220 is connected. Alternatively, the access point 210 may be configured to automatically determine whether the power measurement device 220 is connected to the access point 210.

The user directly turns off the home appliance 230 or adjusts the power used to adjust the power. In Figure 3, an additional method by which the user adjusts the power is described. The home appliances 230 installed in the end user group 202, 203 may have an actuator 260 that enables control thereof. The actuator 260 is connected to a power source unit or a power source management unit of the home appliance 230 so that the user can adjust the power used by the home appliance 230 through the actuator 260. The actuator 260 may enable the ID to be automatically registered in the power management server 201. [ Plug and play installation may be possible in the same manner as the power measuring device 220. However, if necessary, the ID of the actuator 260 to be used by the user himself may be directly registered in the power management server 201. [ The actuator 260 makes it easier for the user to control the household appliance 230. The location based participating app has a function to control the actuator 260 so that it can control the electricity usage amount of the home appliance 230 even when the user is outside the area of the end user group 202 or 203 . The number of the home appliances 230 controlled by the actuator may be one or more.

In FIGS. 4 and 5, the configuration and data exchange of the power management server 201 for managing the amount of used power of each of the end user groups 202 and 203 will be described. First, the power management server 201 receives and stores the address and ID of the access point 230 and the ID of the power measuring device 220 connected from the power measuring device 220. The power management server 201 transmits an event message 251 to each user terminal 240 when a power management event (e.g. power reduction according to the power peak) is required. Users holding the user terminal 240 may perform actions necessary for power reduction according to an event. As a concrete example, when the power peak enters the peak state due to over-use of the cooler in summer, the power management server 201 transmits an event message 251 related to power reduction (DR) to users. Users perform an event at their location and notify the power management server 201 of the result. The contents of the event result may be such that the power of the specific home appliance 230 is cut off or the amount of power used is reduced. The power management server 201 generates the compensation contents to the personnel who participated in the performance, using the personnel who participated in the event and the measurement result from the power measuring device 220. Compensation may be a point or cash amount designated by the system operator. The power management server 201 uses the data of the access point 210 sent by the user to determine whether or not the data matches the data of the access point 210 of the registered power measurement apparatus 220 and then make compensation.

The power management server 201 includes a power measurement device management unit 301 that receives information of the power measurement device 220, an event transmission unit 310 that transmits a power management event message 251 to the user terminal 240, And an information receiving unit 320 for receiving the user control information and the access point 210 information 252 from the control unit 240. In addition, the power management server 201 has a compensation information generating unit 330 for generating predetermined user compensation information according to an event result. All the information generated and exchanged here is stored in the data storage unit 340.

 The compensation information generating unit 330 of the power management server 201 uses the data transmitted from the registered power measuring apparatus 220 to calculate the basic usage power amount CBL of the end user groups 202 and 203, In the data storage unit 340. [ When an event related to the power reduction is generated by the power management server 201, it is compared with the basic use amount of power (CBL) value to determine the amount of power adjusted by the event.

FIG. 6 illustrates a method in which the user terminal 240 confirms the power measurement device 220 through a location based participating application. The user terminal 240 connects to the connectable access point 210 to determine if the power measuring device 220 is connected together. Then, the user can confirm whether the power measurement device 220 connected to the area where the event is performed is correct, and send the information of the access point 210 automatically confirmed at the time of sending the event result.

The location-based program of the terminal can be operated in the following order.

P1) Confirm the address and ID of the access point 210 to which the terminal is connected

P2) whether or not the power measuring device 220 connected to the access point exists and the ID of the power measuring device 220

P3) receiving an event message 251 of the power management server 201

P4) Display event message on screen

P5) Receive user's event result (control information)

P6) The control information is transmitted to the power management server 201, the address of the access point 210 to which the terminal is connected, the ID information sending unit 252,

7 is a diagram showing another embodiment of this disclosure. One power measuring device 220 can measure only the total power consumption connected to the household appliances 230 divided into the plurality of spaces A, B, C, and D. The user (a) of the separately divided space A reported adjustment information info1 for power reduction, but it is necessary to verify the authenticity of this report. To this end, the power management system has a sensing device 710 that measures changes in the spatial environment, such as a thermometer or an illumination sensor, that is accessible to the access point 210 in the space A. The sensing device 710 may select the ID of the device itself, the address and ID of the connected access point 210 and the ID information of the power measuring device 220 to which the home appliances 230 in the same space are connected, To the power management server 201, and the power management server 201 can store them. In addition, the measurement information can be transmitted to the power management server 201 through the access point 210. In this system configuration, when the user (a) terminal 740 sends home appliance 230 control information according to the event message 251 (for example, when the temperature of the air conditioner is adjusted or the brightness of the light is lowered The power management server 201 can actually verify whether the environmental change such as temperature or illumination has occurred by using the measurement information change data of the sensing device 710, (a) to make appropriate compensation accordingly. The related information will also be transmitted to the compensation information generating unit 330. [

According to the system and method of this disclosure, it is possible to build a system of effective demand response services that can compensate users who actually participate in power control and reduction, thereby motivating individual users. In other words, it is compensated for the amount of power saved in one building or factory unit, but in this system, it is possible to control the power in smaller units by floor and furniture. Within each area covered by each access point 210, it is possible to compensate for the individual who actually participated in the event.

Hereinafter, various embodiments according to the present disclosure will be described.

(1) A power management system, comprising: an access point capable of communicating with a power management server and a power management server, the access point having an address and an ID, a power measurement device connected to the access point and having an ID, And a user terminal capable of communicating with the management server. The power management server includes an event transmitter for transmitting a power management event message to the user terminal, an address transmitter for transmitting the power control event message to the user terminal, And an information receiving unit for receiving the information.

(2) A power management system for automatically transmitting a power measuring device ID, an access point address and an ID to a power management server at the same time of installation.

(3) The power management system wherein the access point is wireless communication means.

(4) The power management system wherein the wireless communication means is one of WiFi, Zigbee, and Bluetooth.

(5) An access point is located within a power measurement device.

(6) The power management system according to claim 1, further comprising a compensation information generation module for generating user compensation information using adjustment information, access point address and ID, and power information received from the power measurement device.

(7) The user terminal receives the ID of the power measuring device, the access point address and ID information of the access point from the access point and stores the same.

(8) A power management method for a power management server, comprising: receiving and storing a connection access point address and an identification information of a power measurement device; transmitting a power management event message to a user terminal; Receiving ID information and control information from the power measurement device, receiving power consumption information from the power measurement device, confirming whether the address of the user terminal connection access point and the ID information match the ID of the connection access point address of the power measurement device, And generating user compensation information when the user terminal connection access point address and ID information match the connection access point address and ID information of the power measurement device.

(9) A power management method using a reference value of used power information to generate user compensation information.

(10) The user terminal automatically determines a connection access point address and an ID of a power measurement device using an access point.

201: power management server 210: access point 220: power measuring device
230: home appliance 240: user terminal 260: actuator

Claims (10)

An access point including a power management server, the access point being capable of communicating with a power management server and having an address and an ID; A power measuring device connected to the access point and having an ID; And a user terminal connectable to the access point and capable of communicating with the power management server, the power management server comprising:
An event transmission unit for transmitting a power management event message to a user terminal;
An information receiver for receiving user control information and an address and ID information of an access point connected to the user terminal from the user terminal; And,
The information measuring unit compares the address and ID information of the access point received by the information receiving unit with the ID information of the connecting access point of the power measuring device to generate user compensation information, And a compensation information generation module that can compensate for each user participating in the power management system. The method according to claim 1,
The power measuring device is configured to automatically transmit the power measuring device ID, access point address and ID to the power management server at the same time of installation. The method according to claim 1,
The access point is wireless communication means. The method of claim 3,
Wherein the wireless communication means is one of WiFi, Zigbee, and Bluetooth. The method according to claim 1,
Wherein the access point is located within the power measurement device. delete The method according to claim 1,
Wherein the user terminal receives the ID of the power measuring device, the access point address and ID information of the connection from the access point and stores the same. A power management method for a power management server using the power management system according to claim 1,
Receiving and storing a connection access point address and ID information of the power measurement device;
Transmitting a power management event message to a user terminal through an event transmission unit;
Receiving connection access point address, ID information and control information from a user terminal through an information receiving unit;
Receiving power usage information from a power measurement device;
Confirming whether or not the user terminal connection access point address and the ID information match the connection access point address and ID information of the power measurement device;
When the access point address and ID information of the user terminal connection access point match with the connection access point address and ID information of the power measuring device, And generating compensating user compensation information. The method of claim 8,
And using the reference value of the used power information to generate the user compensation information. The method of claim 8,
And the user terminal automatically determines the connection access point address and the ID of the power measurement device using the access point.

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