KR20150053291A - TCP/IP-based ICET(Information, Communication, and Energy Technology) Integrated Communication Platform for Smart Nano-Grid - Google Patents

Abstract

The present invention relates to an integrated communication platform for smart nano-grid capable of securing the access autonomy of 2(MAC, Data Link) layer and the low level 1(PHY) on OSI7-layer by integrating data transmission/reception standar between various communication devices including smart nano-grid devices.

Description

ICET Integrated Communication Platform for TCP / IP-based Smart Nano-Grid {TCP / IP-based Integrated Communication Platform for Smart Nano-Grid}

The present invention relates to an ICET integrated communication platform for smart nano-grids, and more particularly, to integrate data transmission / reception standards between various communication devices including a smart nano-grid device into the TCP / IP standard, ), 2 (MAC, Data Link) layer, and a method thereof.

As the power industry and IT technology develop rapidly, the Smart-Grid industry segment is divided into Mega-Grid, Milli-Grid, Micro-Grid and Nano-Grid according to the scale of distributed power grid. Technological developments are being actively pursued to chemically combine various technologies of consumer sources.

In Korea, it is also possible to use Smart-Grid, Micro-Grid, K-MEG (industrial complex, university campus, town, building-scale power generation source, ), And H-EMS (electricity generation source, storage source, consumer source of home or small building scale).

The Nano-Grid or Smart Nano-Grid is a commercial grid of household and building-scale low-voltage distribution lines (eg, 220V, 380V) The communication technologies for power network intelligence included in the information transmission system of the upper layer are mainly composed of the communication system integration of the lower layer rather than the communication system integration of the lower layer. For example, as shown in FIG. 1, there is no problem if the data transmission / reception specification between the control device and the controlled device is the same (for example, serial communication), but the data transmission / reception standard of the control device (Such as TCP or UDP, which is the transmission / reception standard) and the data transmission / reception specification of the device under control (for example, serial communication as a data transmission / reception standard for a breaker, a transformer, etc.) There is a problem that conversion of the communication standard needs to be performed.

Korean Priority No. 10-2002-0045278 (published on Jun. 19, 2002) may be referred to as related prior art.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide intelligent intelligent service technologies (SEP v2.0, OpenADR (Automatic Demand Response) ) v2.0, DLMS (Device Language Message Specification), ISO / ICE 15118 EV (Electric Vehicle) -EVSE (Electric Vehicle Supply Equipment) communication) Integrated communication platform that can guarantee connection autonomy of lower layer 1 (PHY), 2 (MAC, Data Link) layer on OSI (Open Systems Interconnection) 7-layer by integrating transmission and reception standard into TCP / .

According to another aspect of the present invention, there is provided an integrated communication platform for communicating with a plurality of communication networks, An integrated communication platform for relaying data transmission and reception between nano-grid devices, wherein the integrated communication platform transmits data of another data transmission / reception standard transmitted / received between the first device and the second device of the nano-grid devices to a TCP / To relay the data transmission / reception.

According to another aspect of the present invention, there is provided an integrated communication platform for relaying data transmission / reception between nano-grid devices of different communication methods on an integrated network in which networks of a plurality of communication methods interoperate, A transmission / reception specification verifying unit for receiving data transmitted from the first device to the second device among the grid devices and identifying the data transmission / reception standard; And a transmission / reception standard integration unit for converting data of another data transmission / reception standard identified by the transmission / reception standard verification unit into a TCP / IP data transmission / reception standard and transmitting the data to the second device.

Even if a device of any communication type interworking on the integrated network accesses the integrated communication platform and transmits data according to a data transmission / reception standard different from the TCP / IP data transmission / reception standard, the corresponding TCP / IP data transmission / So that it can be relayed to the standard.

The integrated network includes a PLC (Power Line Communication) network, an Ethernet based Internet, a WiFi network, a CDMA network, a WCDMA network, an LTE network, a wired telephone network, or a wireless local area network based on Bluetooth / ZigBee.

The nano-grid devices can be used to control energy management, state management, overall control management, or simple on / off state and control management of lower-level controlled devices including energy consuming devices, power devices, or nano- And the like.

In accordance with another aspect of the present invention, there is provided a communication relay method for a platform that relays data transmission / reception between nano-grid devices of different communication methods on an integrated network in which networks of a plurality of communication methods cooperate with each other Receiving data transmitted from a first device to a second device of the nano-grid devices to identify a data transmission / reception specification; And converting data of another data transmission / reception standard identified according to the identification into a TCP / IP data transmission / reception standard and transmitting the converted data to the second device.

According to the integrated communication platform and the method according to the present invention, since the IP-based communication network based on the All-IP concept will be mainstream in the current and future communication technologies, the data transmission / reception specification between various communication devices including the smart nano- By integrating into the TCP / IP standard, various communication service application requirements such as scalability, portability, and integration of device connection can be satisfied.

For example, in a super-application for smart nano-grid, communication devices such as PLC (Power Line Communication) for information-based integrated energy management, monitoring and control, and communication devices using Ethernet, WiFi, (W) CDMA, Since the data transmission / reception method between the lower communication devices is integrated into the TCP / IP standard, an integrated network between various communication methods can be easily configured according to communication environment, communication medium, performance requirement, and the like.

FIG. 1 is a diagram for explaining a conventional data transmission / reception method through a gateway.
2 is a diagram for explaining the concept of an integrated communication platform according to an embodiment of the present invention.
3 is a diagram for explaining a specific configuration of the integrated communication platform of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

FIG. 2 is a view for explaining the concept of the integrated communication platform 100 according to an embodiment of the present invention.

2, the integrated communication platform 100 according to an exemplary embodiment of the present invention includes a plurality of nano-grid devices 100a, 100b, Relay.

In particular, the integrated communication platform 100 according to an exemplary embodiment of the present invention is an ICET (Information, Communication, and Energy Technology) integrated communication platform for TCP / IP based smart nano- , Data of another data transmission / reception standard transmitted / received between any one of the nano-grid devices (first device) and another device (second device) is changed to the Transmission Control Protocol / Internet Protocol (TCP / IP) By relaying the data transmission and reception, it is possible to guarantee the connection autonomy of the lower 1 (PHY) and 2 (MAC, Data Link) layers on the OSI (Open Systems Interconnection) 7-layer.

Here, the interworking integrated network integrates a PLC (Power Line Communication) network, an Ethernet based Internet, a WiFi network, a CDMA network, a WCDMA network, an LTE network, a wired telephone network, a wireless local area network such as Bluetooth / ZigBee, As one network, nano-grid devices are capable of transmitting and receiving data to and from each other in such a variety of communication methods in accordance with the relay of the integrated communication platform 100.

Managers and operators can integrate communication with nano-grid devices of any communication method such as PLC, Ethernet-based Internet, WiFi, CDMA, WCDMA, LTE, wired telephone network, wireless local area communication method such as Bluetooth / Zigbee, IP data transmission / reception standard of the integrated communication platform 100 with respect to data of a standard (e.g., serial communication, UDP (User Datagram Protocol), etc.) that can be connected to the platform 100 and is not a TCP / IP data transmission / reception standard The integrated network between various communication methods can be easily configured even if the communication environment, the communication medium, the performance requirement, etc. between the source device and the destination device are different from each other. Since current and future communication technologies will be dominated by the IP-based communication network of the All-IP concept, integrating data transmission and reception standards between various communication devices including smart nano-grid devices into the TCP / IP standard, , Portability, integration, and other various communication service application requirements.

Such an integrated communication platform 100 can be applied to information-based intelligent service technologies (Smart Energy Profile (SEP) v2.0, OpenADR (Automatic Demand Response) v2.0, DLMS (Device Language Message Specification ), ISO / ICE 15118 Electric Vehicle (EV) -EVSE (Electric Vehicle Supply Equipment) communications, and the like. These nano-grid devices include energy management, state management, overall control management, A control device on a nano-grid for status and control management, and a control device on a lower layer on a nano-grid including an energy consumption device, a power device, or a nano-grid component device.

For example, the control device on the nano-grid may be a desktop PC, a notebook PC, a smart phone, and the like as well as a nano-grid class EMS (Energy Management System), an IHD (In-Home Display)

For example, the lower-level controlled devices on the nano-grid include FFD (Full Function Device) for supporting individual service, energy management function, state management function, control management function, energy management function, (Reduced Function Device) for supporting functions and control management functions and MFD (Minimum Function Device) for supporting simple on / off status and control management. Energy saving appliances such as home appliances, lighting, and heating and cooling devices, energy storage systems such as ESS (Energy Storage System), electric vehicles, charging systems, solar power generation , Solar heating, wind power, and renewable energy equipment.

FIG. 3 is a diagram for explaining a specific configuration of the integrated communication platform 100 of FIG.

The integrated communication platform 100 transmits data of another data transmission / reception standard transmitted / received between any one of the nano-grid devices (first device) and another device (second device) via Transmission Control Protocol / Internet Protocol ) Data transmission / reception standard to relay the data transmission / reception, the transmission / reception specification checking unit 110 and the transmission / reception specification integration unit 120 may be included.

The transmission / reception standard verifying unit 110 may be a wired or wireless communication unit, such as a PLC, an Ethernet based Internet, a WiFi, a CDMA, a WCDMA, an LTE, a wired telephone network, a wireless local area network such as Bluetooth / ZigBee, Receives data transmitted from the first device to the second device among the nano-grid devices to be connected, and identifies the data transmission / reception specification.

The transmission / reception standard may be TCP, TCP / IP, serial communication (RS232, RS485, etc.), UDP (User Datagram Protocol) And can identify the data transmission / reception standard corresponding thereto.

The transmission / reception specification integration unit 120 converts the data of another data transmission / reception standard from the first device identified by the transmission / reception specification verification unit 110 into the TCP / IP data transmission / reception standard and transmits it to the second device. In the case where the second device is a device that communicates with a standard different from the TCP / IP data transmission / reception standard such as serial communication (RS232, RS485, etc.), TCP / IP based data received via a modem or the like by simple software or hardware change processing Can be normally received.

For example, when the data from the first device is the TCP / IP data transmission / reception standard, the transmission / reception standard integration unit 120 bypasses the corresponding data to be transmitted to the corresponding destination device, and the TCP / IP data transmission / Data of the standard (for example, serial communication, UDP (User Datagram Protocol), etc.) is changed to the TCP / IP data transmission / reception standard of the integrated communication platform 100 and is transmitted to the corresponding destination device.

Accordingly, any one of the communication methods that operate on an integrated network that integrates a PLC network, an Ethernet-based Internet, a WiFi network, a CDMA network, a WCDMA network, an LTE network, a wired telephone network, a wireless local area network such as Bluetooth / ZigBee, The device can access the integrated communication platform 100 and transmit data to the destination device in an integrated TCP / IP data transmission / reception standard even if the data is transmitted in a data transmission / reception standard different from the TCP / IP data transmission / reception standard. That is, the source device can relay the data transmitted from the device of one communication method to the destination to be transmitted in the TCP / IP data transmission / reception standard irrespective of the data transmission / reception standard.

The TCP / IP data transmission / reception standard (or network data transmission protocol) is a standard protocol for transmitting information between information devices such as computers using different operating systems on the Internet. TCP is a protocol for distributing and packing transmission data in a predetermined unit, and IP includes a protocol for directly exchanging data between a device having a source IP address and a device having a destination IP address. Data is exchanged between devices on the Internet according to the TCP / IP data transmission / reception standard, which is an Internet standard protocol, so that data can be completely transmitted and received.

In the serial or UDP method, data is transmitted unilaterally from the source device to the destination device. Therefore, it is impossible to cope with data loss, loss or error. On the other hand, in the TCP / IP data transmission / reception standard, A method of transmitting data including a process of confirming transmission and reception of data between a source device and a destination device and an error checking process so as to ensure complete transmission of data by allocating an IP address of the source device and the destination device. In the data transmission according to the TCP / IP data transmission / reception standard, if a data packet between the devices is lost or damaged, it is notified that the corresponding fault has occurred and the data can be retransmitted properly. Accordingly, the host that receives the data can always receive the data in order without any error.

According to the integrated TCP / IP-based data transmission / reception relay of the integrated communication platform 100, nano-grid class EMS and IHD as well as nano-grid control devices such as desktop PC, notebook PC, In the energy management, state management, general control management, or simple on / off state and control management of controlled devices such as energy consuming devices, electric power devices or nano-grid configuration devices on grid, administrators, Grid device of any communication method such as Internet, WiFi, CDMA, WCDMA, LTE, wired telephone network, Bluetooth / ZigBee wireless local area network and other wired / wireless communication method can be connected to a control device or a controlled device, Even if data transmission / reception is performed according to the data transmission / reception standard, Data can be transmitted and received in accordance with one integrated TCP / IP data transmission / reception standard, so that complete data transmission is ensured and even if the communication environment, communication medium, performance requirement, etc. between the source device and the destination device are different, So that it can be easily configured.

The integrated communication platform 100 plays a role of the third, fourth, and fifth layers of the OSI-7 layer. The integrated communication platform 100 is a data format (6 layers, Presentation layer) such as XML, The specifications of the devices related to the user interface format (7 layer or application layer) such as DHCP and FTP can be applied without modification.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill 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. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

Integrated communication platform 100
The transmission /
The transmission / reception standard integration unit 120,

Claims (6)

An integrated communication platform for relaying data transmission / reception between nano-grid devices of different communication methods on an integrated network in which networks of a plurality of communication methods interoperate,
Wherein the integrated communication platform relays data transmission / reception by changing data of another data transmission / reception standard transmitted / received between the first device and the second device among the nano-grid devices to a TCP / IP data transmission / reception standard. . An integrated communication platform for relaying data transmission / reception between nano-grid devices of different communication methods on an integrated network in which networks of a plurality of communication methods cooperate with each other,
A transmission / reception specification verifying unit for receiving data transmitted from a first device to a second device among the nano-grid devices and identifying a data transmission / reception standard; And
A transmission / reception standard integration unit for converting data of another data transmission / reception standard identified by the transmission / reception standard verification unit into a TCP / IP data transmission / reception standard and transmitting the data to the second device;
And an integrated communications platform. 3. The method according to claim 1 or 2,
Even if a device of any communication type interworking on the integrated network accesses the integrated communication platform and transmits data according to a data transmission / reception standard different from the TCP / IP data transmission / reception standard, the corresponding TCP / IP data transmission / Standard to be transmitted to the base station. 3. The method according to claim 1 or 2,
Wherein the integrated network includes a PLC (Power Line Communication) network, an Ethernet based Internet, a WiFi network, a CDMA network, a WCDMA network, an LTE network, a wired telephone network, or a Bluetooth or ZigBee based wireless local area network . 3. The method according to claim 1 or 2,
The nano-grid devices may include a lower-level controlled device including an energy consuming device, a power device, or a nano-grid component device
Control devices for energy management, state management, overall control management, or simple on / off state and control management
And an integrated communications platform. A communication relay method of a platform for relaying data transmission / reception between nano-grid devices of different communication methods on an integrated network in which networks of a plurality of communication methods interoperate,
Receiving data transmitted from a first device to a second device of the nano-grid devices to identify a data transmission / reception specification; And
Converting the data of another data transmission / reception standard confirmed according to the identification into a TCP / IP data transmission / reception standard, and transmitting the data to the second device
And transmitting the communication information to the platform.

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