KR101456089B1 - Method and system of demand-response electric consumption control using demand-response virtual multi-protocol server - Google Patents

Abstract

The present invention relates to a method and a system for controlling demand-response power by using a virtual demand-response server and, more specifically, to a method and a system for controlling demand-response power, wherein the system includes a virtual demand-response server, utilizes a DHCP server as well, and integrates the virtual demand-response server and a gateway into a single server, therefore enables a demand-response client to configure a network environment for a demand-response server easily or automatically. The method for controlling demand-response power comprises: a step where a virtual demand-response server receives a demand-response request signal from a demand-response client; a step where the virtual demand-response server delivers the demand-response request signal to a demand-response server corresponding to a protocol of the demand-response request signal; and a step where the virtual demand-response server receives a demand-response acknowledgement signal from the demand-response server and delivers the demand-response acknowledgement signal to the demand-response client. The virtual demand-response server can process one or more demand-response protocols. The present invention includes a virtual demand-response server, integrates the virtual demand-response server and a gateway into a single server, and enables a demand-response client to configure a network environment for a demand-response server automatically by using a DHCP server, thereby enabling an individual demand-response client to configure a network environment for a demand-response server easily or automatically without a complicated network configuration process in accordance with a multi-protocol environment.

Description

TECHNICAL FIELD The present invention relates to a demand response power control method and system using a virtual demand response server,

The present invention relates to a demand response power control method and system using a virtual demand response server, and more particularly to a virtual demand response server including a virtual demand response server, Gateway and a server, so that the demand reaction client can easily or automatically set the network for the demand response server.

There is a growing interest in smart grids as a way to efficiently improve the operation of conventional power grids. The Smart Grid is a next-generation intelligent power supply network that optimizes energy efficiency by exchanging information in real time between power suppliers and consumers by combining information technology (IT) with the power grid.

With regard to such a smart grid, implementation of a demand response function using an intelligent network has been raised as another issue for efficient management of electric power demand. This is because the demand response function imposes a differentiated charge according to the amount of electric power demand and induces the consumer to voluntarily change the power usage pattern in consideration of this, so that unnecessary power consumption can be efficiently managed.

Various protocols related to the implementation of the demand response function have been proposed. Examples thereof include Open Automated Demand Response (OADR), Smart Energy Profile (SEP), and Device Language Message Specification (DLMS). However, due to the existence of such a plurality of protocols, the user suffers from inconvenience in setting up a demand response server corresponding to the protocol used by each electric appliance in the smart electric appliance, which is a demand reaction client. Especially, if the user is a non-expert, the difficulty becomes bigger. As a result, there is a need for a method capable of solving the difficulty of setting and the inconvenience of use as described above, but a proper solution is not yet presented. Therefore, it is urgently required to implement a system for easily setting a demand reaction server regardless of the type of the protocol for the smart electric appliance, or further setting it automatically.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a system and method for setting a network environment for a demand response server in an individual demand response client, The present invention aims to provide a demand reaction power control method and system that can easily set up a server or automatically set a server.

According to an aspect of the present invention, there is provided a demand reaction power control method including: (a) receiving a demand response request signal from a demand response client; (b) the virtual demand response server transmitting the demand response request signal to a demand response server corresponding to the protocol of the demand response request signal; And (c) returning a demand response response signal from the demand response server to the virtual demand response server and forwarding the demand response response back to the demand response client, wherein the virtual demand response server processes one or more demand response protocols .

Here, the virtual demand response server may be implemented as a gateway and a server.

Here, in setting the network environment for the virtual demand response server, the demand response client may be set automatically without setting up the user by setting the network environment setting value for the gateway.

Here, the network environment setting value for the gateway can be automatically set by the demand response client by receiving the network environment setting value for the gateway from the DHCP server and setting the network environment setting value without any additional setting operation of the user.

The step (b) includes the steps of: (b1) determining that the demand reaction server discriminates the demand response protocol from the demand response request signal and determining a demand response server corresponding thereto; And (b2) transmitting the demand response request signal to the demand reaction server.

Here, the demand response protocol may be one or more of Open Automated Demand Response (OADR), Smart Energy Profile (SEP), and Device Language Message Specification (DLMS).

Here, a network environment for the demand reaction server may be established and managed in the virtual demand response server.

The demand reaction power control system according to another aspect of the present invention receives a signal of a specific demand response protocol from a demand response client, transmits the signal to the demand response server corresponding thereto, and returns the result to the demand response client. And a virtual demand response server capable of processing one or more demand response protocols.

Here, the virtual demand response server may be implemented as a gateway and a server.

Here, in setting the network environment for the virtual demand response server, the demand response client may be set automatically without setting up the user by setting the network environment setting value for the gateway.

Here, the network environment setting value for the gateway can be automatically set by the demand response client by receiving the network environment setting value for the gateway from the DHCP server and setting the network environment setting value without any additional setting operation of the user.

According to another aspect of the present invention, there is provided a demand reaction power control method of automatically setting a demand response server, comprising: (A) automatically setting a network environment of a demand response client; (B) receiving a demand response request signal from the demand response client by the virtual demand response server; (C) the virtual demand response server transmitting the demand response request signal to a demand response server corresponding to the protocol of the demand response request signal; (D) receiving the demand response signal from the demand response server and delivering it to the demand response client; And (E) controlling power consumption of the demand response client in consideration of the demand response response signal, wherein the virtual demand response server is capable of processing one or more demand response protocols.

Here, the step (A) may include: (A1) receiving a network environment setting value from the DHCP server by the demand response client; And (A2) automatically setting a network environment in the demand response client using the network environment setting value, wherein the gateway and the virtual demand response server are implemented as one server, and in the step (A2) And setting the network environment for the virtual demand response server automatically using a setting value for the gateway among the network environment setting values.

According to the present invention, a virtual demand response server is included. In addition, a virtual demand response server is implemented as a gateway and a server, and a network environment for a demand response server is automatically set in a demand response client using a DHCP server Thereby realizing a demand reaction power control method and system that can easily or automatically set a network environment for a demand response server in an individual demand response client without complicated network setup process according to a plurality of protocol environments.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
1 is a flowchart of a method of controlling demand response power using a virtual demand response server according to an embodiment of the present invention.
2 is a block diagram of a demand response power control system using a virtual demand response server according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments will be described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components are not limited by the terms, and the terms are used only for the purpose of distinguishing one component from another Is used.

In the network environment setting for the demand response server 230 in the demand response client 210 in which the prior art functions as a terminal of the demand reaction power control system 200, A complicated environment setting task is required to set up the network environment for the demand response server 230 in accordance with the protocol used by the response client 210, and thus it is difficult for a general person who is a non-expert The virtual demand response server 240 is set to be connected to the virtual demand response server 240 uniformly regardless of the protocol used by the individual demand response client 210. The virtual demand response server 240 is configured to communicate with the actual demand response server 230 To make it appear as though to handle the request of the individual demand response client 210, and the virtual demand response server 2 The virtual demand response server 240 is implemented with a gateway 240 and a server 240. In the network environment setting for the virtual demand response server 240 in the demand response client 210, The network environment for the demand response server 230 in the individual demand response client 210 can be set easily or automatically without complicated setting procedures according to a plurality of protocol environments So that the user can easily recognize the information.

Here, the term "response demand" refers to a change in a consumer's normal consumption pattern in response to an incentive such as incentive for reducing electric bill or power consumption by time in accordance with electric power demand. The demand response function implemented in the electric device functions as one of the core technology elements for implementing the smart grid using the intelligent network.

The virtual demand response server 240 supports one or more of a plurality of protocols that can be used in the demand response system and transmits a demand response request signal to the actual demand response server 230, And returns the signal to the demand response client 210. [ Meanwhile, the demand response client 210 is a device that includes a demand response function and can control power consumption by using the demand response function, and includes a smart electric appliance.

The network environment setting value is a setting value for a connection structure or configuration necessary for operation of the network, and includes an IP address, a gateway address, and a subnet mask in the case of an Internet Protocol (IP) network.

FIG. 1 is a flowchart illustrating a method of controlling a demand reaction power using a virtual demand response server 240 according to an embodiment of the present invention. 1, the demand response power control method using the virtual demand response server 240 according to an exemplary embodiment of the present invention first receives the network environment setting values from the DHCP server 220, (S120) of automatically setting the network environment for the virtual demand response server 240 using the network environment setting value for the gateway 240 in the demand response client 210 through the step S110 of setting the virtual demand response server 240 The demand response server 240 receives the demand response request signal from the demand response client 210 at step S130 and the virtual demand response server 240 transmits the demand request signal to the demand response server 230 corresponding to the demand response request signal (S140), the virtual demand response server 240 receives a response signal for the request signal and transmits the response signal to the demand response client 210 (S150). Finally, Client can 210 can be configured to include a step (S160) of controlling power in consideration of the demand response information in the response signal.

First, a step S110 of receiving the network environment setting value from the DHCP server 220 and setting up the demand response client 210 will be described. First, the demand response client 210 establishes a network environment in order to access the demand response server 230. Here, the network environment may include an IP address, a gateway address, a subnet mask, and the like necessary for connection to an IP network. At this time, there is a method of setting a fixed IP address directly by the user. However, when the DHCP server 220 is used, the setting process can be automatically performed without requiring a user to set the IP address manually. It is preferable to automatically allocate and set the network environment such as the gateway configuration.

Next, the demand response client 210 automatically sets the network environment for the virtual demand response server 240 using the network environment setting value for the gateway 240 (S120).

The demand response client 210 must have a network environment setting value such as the IP address of the demand response server 230 in order to access the demand response server 230 according to a protocol used by the demand response client 210. In this case, It is a very troublesome task to perform such a setting for the user 210. Especially, when the user is a general person rather than an expert, it can be a more difficult task. At this time, by using the virtual demand response server 240, it is possible to simplify the setting operation and improve the troublesome setting operation of the user.

The virtual demand response server 240 may be operated as a separate server from the gateway 240. When the virtual demand response server 240 operates as one server using the same IP address as the gateway 240, It is preferable that the virtual demand response server 240 operates as one server with the gateway 240 because the network environment setting for the virtual demand response server 240 can be set using the network environment setting values.

In addition, when the DHCP server 220 is used, the network environment of the demand response client 210 can be automatically set by automatically assigning a network environment such as a dynamic IP address. At this time, The network environment setting for the virtual demand response server 240 can be automatically set using the network environment setting value for the gateway 240 so that the user can set the network environment for the virtual demand response server 230 .

In order to realize the virtual demand response server 240 and the gateway 240 together, the following two methods are possible. One is a virtual demand response server 240 and the gateway 240 are separately processed in one physical server And the other method is to embed the virtual demand response server 240 in the gateway 240 so as to operate as a single process. However, considering the existing network environment and considering the difficulty of implementation, it is desirable to use a single physical server but add a separate process for the virtual demand response server 240 to operate.

Next, the virtual demand response server 240 receives the demand response request signal from the demand response client 210 (S 130). The plurality of demand response clients 210 can use various protocols such as Open Automated Demand Response (OADR), Smart Energy Profile (SEP), and Device Language Message Specification (DLMS) To the demand reaction server (230). However, when the virtual demand response server 240 is used as described above, the virtual demand response server 240 can be connected to a single virtual demand response server 240 regardless of the protocol, The system will be set up and available.

Then, the virtual demand response server 240 passes the request signal to the demand response server 230 corresponding to the demand response request signal (S140). The virtual demand response server 240 has information such as an IP address for a plurality of actual demand reaction servers 230, and may be modified and set as necessary. When the demand response request signal is received from the demand response client 210, the virtual demand response server 240 determines a protocol corresponding to the request signal, determines a demand response server 230 corresponding thereto, And transmits the demand response request signal received from the demand response client 210 to the demand response client 230.

Next, the virtual demand response server 240 receives a response signal for the request signal and transmits the response signal to the demand response client 210 (S150). The specific demand response server 230 transmits a response signal to the request signal to the virtual demand response server 240 and the virtual demand response server 240 transmits the request signal to the demand response client 210 Will be delivered.

Lastly, in step S160, the demand response client 210 controls the power in consideration of the demand response information of the response signal (S160). The demand response response signal transmitted to the demand response client 210 through the above- The reaction information is selected and the power is controlled by determining whether the demand response client 210 is in operation or not and considering whether to supply power thereto.

Through such a series of steps, the demand response client 210 can easily or automatically set the network environment for the demand response server 230 irrespective of the type of protocol, It is possible to more easily set the power consumption control environment for the implementation of the smart grid such as the system.

FIG. 2 is a block diagram of a demand response power control system 200 using a virtual demand response server 240 according to an embodiment of the present invention. 2, the demand reaction power control system 200 using the virtual demand response server 240 according to an exemplary embodiment of the present invention includes at least one demand response client 210, a DHCP server 220, The demand response server 230, the virtual demand response server, and the gateway 240. [

In order to access and operate the demand response server 230, the demand response client 210 must set up a network environment such as an IP address and a gateway address. In particular, the demand response client 210 must set the address of the demand response server 230 corresponding to the protocol Etc. should also be set. However, when the virtual demand response server 240 is used at this time, it is not necessary to separately set up servers corresponding to a plurality of protocols, and the network environment can be set and used for the virtual demand response server 240 uniformly.

Also, when the virtual demand response server 240 is implemented as one server with the gateway 240, the virtual demand response server 240 can be configured to use the network environment setting values for the gateway 240, The network environment for the demand response server 240 can be automatically set.

In addition, since the demand response client 210 can automatically set the network environment such as the IP address and the gateway 240 address using the DHCP server 220, It is possible to complete the network environment setting work in the network 210.

In general, the DHCP server 220 transmits a network environment setting value such as an IP address and an address of the gateway 240 to the demand response client 210 and automatically sets the network environment setting value. The demand response server 230 receives the demand response signal And transmits and receives the demand response to the demand response client 210. In the case of the demand reaction power control system 200 using the virtual demand response server 240 according to an embodiment of the present invention, the gateway 240 and the virtual demand response server 240 are implemented as one server The network environment for the virtual demand response server 240 can be automatically set using the network environment setting for the gateway 240 that the DHCP server 220 allocates and delivers. In this case, the demand response server 230 having received the demand response request signal transmits a demand response response signal to the virtual demand response server 240, and the virtual demand response server 240 again transmits the demand response request signal to the demand response client 210 ).

The virtual demand response server and the gateway 240 may be implemented as a single server including the virtual demand response server 240 and the gateway 240. The virtual demand response server 240 and the gateway 240 may be separated from each other and implemented in a separate server. In this case, the demand response client 210 sets up a network environment for the virtual demand response server 230 It is possible to automatically set the network environment for the virtual demand response server 240 by using the network environment setting value for the gateway 240 by implementing it as one server. In addition, when the automatic allocation function of the network environment setting values such as the dynamic IP address and the gateway address is connected by the DHCP server 220, the demand response client 230 The virtual demand response server 240 and the gateway 240 may be implemented as a single server as described above.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments described in the present invention are not intended to limit the technical spirit of the present invention but to illustrate the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

200: Demand Response Power Control System
210: Demand Response Client
220: DHCP server
230: Demand Response Server
240: Virtual Demand Response Servers and Gateways

Claims (13)

(a) a virtual demand response server receiving a demand response request signal from a demand response client;
(b) the virtual demand response server transmitting the demand response request signal to a demand response server corresponding to the protocol of the demand response request signal; And
(c) the virtual demand response server returns a demand response signal from the demand response server and delivers it back to the demand response client,
The virtual demand response server is implemented as a gateway and a server,
The virtual demand response server may process one or more demand response protocols,
In setting the network environment for the virtual demand response server in the demand response client,
By setting the network environment setting value for the gateway,
And is automatically set without a user's separate setting operation. delete delete The method according to claim 1,
Wherein the network environment setting value for the gateway comprises:
The demand response client receives and sets the network environment setting value for the gateway from the DHCP server,
Wherein the demand response power is automatically set without a user's setting operation. The method according to claim 1 or 4,
The step (b)
(b1) the virtual demand response server determining a demand response protocol from the demand response request signal and determining a demand response server corresponding thereto; And
and (b2) transmitting the demand response request signal to the demand reaction server. The method according to claim 1 or 4,
Wherein the demand response protocol is one or more of Open Automated Demand Response (OADR), Smart Energy Profile (SEP), and Device Language Message Specification (DLMS). The method according to claim 1 or 4,
And the network response to the demand response server is established and managed in the virtual demand response server. After receiving the demand response signal of the specific demand response protocol from the demand response client and transmitting it to the corresponding demand response server,
The request response response signal of the specific demand response protocol is returned to the demand response client,
A virtual demand response server capable of processing one or more demand response protocols,
The virtual demand response server is implemented as a gateway and a server,
In setting the network environment for the virtual demand response server in the demand response client,
By setting the network environment setting value for the gateway,
And is automatically set without a user's setting operation. delete delete 9. The method of claim 8,
Wherein the network environment setting value for the gateway comprises:
The demand response client receives and sets the network environment setting value for the gateway from the DHCP server,
And is set automatically without a user's setting operation. (A) automatically setting a network environment of a demand response client;
(B) receiving a demand response request signal from the demand response client by the virtual demand response server;
(C) the virtual demand response server transmitting the demand response request signal to a demand response server corresponding to the protocol of the demand response request signal;
(D) receiving the demand response signal from the demand response server and delivering it to the demand response client; And
(E) controlling power consumption of the demand response client in consideration of the demand response response signal,
The virtual demand response server is implemented as a gateway and a server,
In the step (A), in setting the network environment for the virtual demand response server, the network environment setting value is automatically set using the setting value for the gateway,
Wherein the virtual demand response server is capable of processing one or more demand response protocols. delete

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