KR20170061869A - Street light control system and method for maintaining duplex communication thereof - Google Patents

Abstract

The present invention discloses a streetlight control system and a bi-directional communication maintenance method thereof. A method for maintaining a two-way communication of a streetlight control system comprises: tabulating a unique identification (ID) of a distribution control device and an IP (Internet Protocol) of a router provided in a distribution box; Maintain bi-directional communication between devices.

Description

TECHNICAL FIELD [0001] The present invention relates to a streetlight control system and a method for maintaining two-

The present invention relates to a streetlight control system, and more particularly, to a method of maintaining a two-way communication of a streetlight control system.

Street light is installed along the road for the safety of street lighting and traffic. It is installed on the highway, the main road of the city area, the commercial district road, the residential district road, and various kinds of street light are used depending on the installation place.

The streetlight is installed in a relatively large area, and it is necessary to manage the lighting time, the lighting time and the abnormality of the lighting facilities in order to prevent waste of energy. A streetlight control system is a system for efficiently managing a streetlight remotely.

The streetlight control system constitutes a lighting facility and a network in a management area through a communication network.

The conventional streetlight control system constitutes a network by using a DDNS (Dynamic Domain Name System), a fixed IP, a VPN (Virtual Private Network), or an IP update method using SMS messages.

However, among the network configuration methods of the streetlight control system, the method of configuring the network using the DDNS may cause a security problem because the domain information is exposed. In the method using the static IP, it is difficult to secure a large number of IPs. Since the method of using the service is implemented in cooperation with the communication company, the additional cost is expensive, and the method using the SMS text service has a problem that the network status is unstable due to the arrival of the character delay, the loss, and the server connection failure.

Therefore, there is a need for a method capable of bidirectional communication of a streetlight control system without incurring additional costs.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a streetlight control system for protecting a domain information of a streetlight control system and a bidirectional communication maintaining method thereof.

It is another object of the present invention to provide a streetlight control system for stably configuring a network of a streetlight control system without additional equipment and a method for maintaining a two-way communication.

A bidirectional communication control method of a streetlight control system of the present invention comprises the steps of: a distribution control device providing its own unique identification (ID) and an IP (Internet Protocol) of a router to a control server; The control server tableing and storing the unique ID of the distribution control device and the IP of the router; And searching the IP of the router for maintaining bidirectional communication based on the unique identification ID stored in the control server, and maintaining bi-directional communication with the distribution control device corresponding to the retrieved IP.

In the present invention, when the rebooting event of the router occurs, the distribution control device provides its own unique identification ID and the IP of the updated router to the control server. And the control server tables and stores the unique identification ID of the distribution control device and the IP of the updated router.

In the present invention, the distribution control device periodically reboots the router and sets the IP of the router to change so as to prevent the risk of an external attack that may occur by holding the fixed IP for a long time.

In the present invention, at the time of providing the status information corresponding to at least one of the schedule and the request of the control server, the status of the status information connected with the status, the unique identification ID of the status, And providing the IP to the control server.

In the present invention, the power distribution controller performs periodic status reporting to prevent loss due to IP change of the router.

In the present invention, the distribution control device and the router are connected to a local network and are set to maintain tunneling with at least one of a demultiplexer (DMZ) and a port forwarding scheme.

The streetlight control system of the present invention includes a distribution control device having a unique identification ID and managing state information of a street, a router having a pre-assigned IP address and relaying communications between the distribution control device and the outside, A distribution box for providing the unique identification ID of the router and the IP of the router to the control server; And a control server that keeps communication with the distribution box and stores the unique ID of the distribution control device and the IP of the router in a table and stores the IP of the router in a table based on the unique ID, .

In the present invention, the distribution control device transmits status information of the status, its own unique identification ID, and the current IP address of the router in association with at least one of a preset schedule and a request of the control server, .

As described above, according to the present invention, since the control server performs communication based on the unique identification ID of the distribution control device and the IP can be changed or updated when the status information of the lighting facility is provided, Can be safely protected.

In addition, since the present invention periodically reboots the router by rebooting the router, it is possible to lower the probability of an external attack that may occur due to a long IP hold.

Further, the present invention can maintain the bidirectional communication of the streetlight control system without the configuration of the additional system, thereby reducing the management and maintenance costs.

1 is a block diagram for explaining an embodiment of a streetlight control system of the present invention.
2 is a flowchart for explaining a bidirectional communication maintaining method of the streetlight control system of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the terminology used herein is for the purpose of description and should not be interpreted as limiting the scope of the present invention.

The embodiments described in the present specification and the configurations shown in the drawings are preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention and thus various equivalents and modifications Can be.

1 is a block diagram for explaining an embodiment of a streetlight control system of the present invention.

1, the streetlight control system of the present invention includes a control server 20 installed in the distribution box 200 of each management area and a control server 10 installed in the central control room and a database 70, And a router 22 and is provided for each of the louvers 300 and receives the power from the power distributing box 200 through a power line to control the louder 40. [

Here, the management area means a layered geographical area for grouping and managing the lighting facilities, which can be an administrative area or a virtual space divided by the administrative area.

The lighting facility may be a distribution box 200, a lantern 300, and other facilities. The distribution box 200 is provided with a distribution control device 20 including a controller and a watt hour meter capable of checking power and overvoltage and overcurrent, A streetlight control device 30 for controlling the illumination lamp 40 and the illumination lamp 40 is installed in the case 300. The illumination lamp 40 may be a street lamp and a security lamp.

The distribution box 200 further includes a control server 10 and a router 22 for network configuration. The router 22 is assigned the public IP of the communication network 50 and the distribution control device 20 has the unique identification ID and the address information of the control server 10 for real time data transmission, Network. For example, the distribution control device 20 and the router 22 may be set to tunnel through a DMZ or a port forwarding scheme.

The distribution control device 20 performs communication based on a unique identification (ID), performs an IP (Internet Protocol) table built in itself by searching based on the unique identification ID, and controls the IP And changes and renews by connection of the distribution control device 20. [

The control server 10 is connected to the distribution control device 20 of the distribution box 200 of each management area through the communication network 50 and the distribution control device 20 is connected to the regular control device 30 of each of the spurs 300. [ And power line communication. In addition, the control server 10 is connected to the client 60 through the wired / wireless communication network 50.

Here, the client 60 may be a terminal of an operator or a maintenance person, and the terminal may be a smart phone, a tablet, a personal computer, or the like, and an application for monitoring lighting facilities of each management area may be installed .

The control server 10 communicates with the distribution control device 20 of the distribution box 200 of each management area to perform schedule control and illumination control based on the sunrise and sunset time, The control unit 20 collects and analyzes the state information of the distribution box 200 and the case 300 and stores the collected information in the database 70 for each management area and stores and updates the information.

The control server 10 is equipped with a GIS (Geographic Information System) based engine and operates a service for transmitting and receiving data based on a fixed IP or a domain. The control server 20 is connected to the distribution control device 20 of all distribution boxes 200 A unique ID and an IP for identifying the equipotential control device 30 of the equipments 300 are tabularized and stored.

2 is a flowchart for explaining a bidirectional communication maintaining method of the streetlight control system of the present invention.

2, the distribution control device 20 provides its own unique identification (ID) and IP (Internet Protocol) of the router 22 to the control server 10.

The control server 10 tables and manages a unique identification ID provided from the distribution control device 20 of the distribution box 200 and an IP (Internet Protocol) of the router 22.

Then, the control server 10 retrieves the IP from the table based on the unique identification ID, and requests the distribution control device 20 corresponding to the retrieved IP to report the status of the lighting fixtures.

The distribution control device 20 provides its own unique identification ID and the IP of the router 22 to the control server 10 together with the status information of the lighting facility. The state information of the lighting facility may include state information of the equilateral triangle 30 associated with the distribution control device and state information of the distribution control device 20. [ Here, the IP of the router 22 can be updated and configured to be provided with the status information of the lighting fixture.

The control server 10 stores and manages the state information of the lighting facility provided from the distribution control device 20 in the form of a table based on the unique identification ID.

In this manner, the control server 10 periodically collects and analyzes the status information of the lighting facilities in the management area, and groups and stores the status information of the lighting facilities in each management area, and stores and updates the status information. At this time, the control server 10 retrieves the IP corresponding to the unique identification ID of the distribution control device 20 and maintains bi-directional communication.

Then, the distribution control device 20 can be configured to periodically reboot the router 22 and provide the changed IP to the control server 10 by rebooting to maintain bi-directional communication.

The distribution control device 20 provides its own unique identification ID and the updated IP of the router 22 to the control server 10 when a rebooting event of the router 22 occurs, The IP address of the router 22 corresponding to the unique identification ID of the router 20 is changed into the updated IP table, and the IP address is changed and stored.

Meanwhile, the location information and the state information of the lighting facility may be stored together, and the failure history and the maintenance history information of the lighting facility may be stored together to manage the lighting facility.

As described above, according to the present invention, since the control server performs communication based on the unique identification ID of the distribution control device and the IP can be changed or updated when the status information of the lighting facility is provided, Can be safely protected.

In addition, since the present invention periodically reboots the router by rebooting the router, it is possible to lower the probability of an external attack that may occur due to a long IP hold.

Further, the present invention can maintain the bidirectional communication of the streetlight control system without the configuration of the additional system, thereby reducing the management and maintenance costs.

10: control server 20: charge control device
30: a washer control device 70: a database
80: Status information database 200:
300: Streetlight

Claims (7)

The distribution control device providing its own unique identification (ID) and IP (Internet Protocol) of the router to the control server;
The control server tableing and storing the unique ID of the distribution control device and the IP of the router; And
Retrieving an IP of the router to maintain bidirectional communication based on the unique identification ID stored in the control server, and maintaining bi-directional communication with the distribution control device corresponding to the retrieved IP;
Wherein the light source is a light source. The method according to claim 1,
Upon occurrence of a reboot event of the router,
Providing the distribution control device with the unique identification ID of itself and the updated IP address of the router to the control server; And
The control server tableing and storing the unique identification ID of the distribution control device and the IP of the updated router;
Further comprising the steps of: 3. The method of claim 2,
Wherein the power distribution control device provides the IP address of the router to the control server according to a preset schedule. The method according to claim 1,
When the state machine is provided with state information corresponding to at least one of a preset schedule and a request of the control server,
Providing the control server with state information of the state of being connected to itself, the unique identification ID of its own, and the IP of the current router;
Further comprising the steps of: The method according to claim 1,
Wherein the power distribution control device and the router are configured to be connected to a local network and configured to maintain tunneling with at least one of DMZ and a port forwarding method. A distribution control device having a unique identification ID and managing status information of the equipments, and a router having a pre-assigned IP and relaying communication between the distribution control device and the outside, wherein the unique identification ID of the distribution control device and the router A distribution box for providing the IP of the control server to the control server; And
A control server which keeps communication with the distribution box, stores a unique identification ID of the distribution control device and an IP of the router in a table, and searches the IP of the router based on the unique identification ID to maintain bidirectional communication; Wherein the light control system comprises: The method according to claim 6,
Wherein the distribution control device includes status information of the status quo corresponding to at least one of a preset schedule and a request of the control server, a streetlight for providing its own unique identification ID and an IP of the current router to the control server Control system.

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