KR102427014B1 - Street light controller for smart public lighting and remote control system including the same - Google Patents

Abstract

Disclosed are a street light controller for smart public lighting and a remote control system including the same. The street light controller comprises: a wireless communication unit provided for LoRa communication with a repeater that relays communication between a control server and the street light controller; a lighting control unit for controlling a plurality of street lights to be turned on or off and controlling dimming of a plurality of street lights for each channel based on a signal received from the repeater; a current sensing unit for sensing a current for each channel so that states of lighting and states of switches provided in the plurality of street lights can be grasped; a storage unit for storing information about the amount of power used by the plurality of street lights for each channel; and a MPU unit which controls the lighting control unit based on the signal received from the repeater so that the turn on or off and dimming of the street lights is controlled for each channel, transmits information about the states of lighting and the states of switches identified based on the signal received from the current sensing unit to the control server for each channel through the wireless communication unit, and which transmits the information about the amount of power stored in the storage unit to the control server for each channel through the wireless communication unit. Accordingly, the street lights can be multi-dimensionally and remotely controlled.

Description

Street light controller for smart public lighting and remote control system including the same}

The present invention relates to a smart street light controller for public lighting and a remote control system including the same, and more particularly, to a smart street light controller for public lighting that remotely manages whether a street light is operating and whether there is an abnormality by a control server, and a remote control including the same It's about the system.

As IoT technology develops, the concept of smart public lighting that can remotely control on-off or dimming of lighting by sensing the brightness or movement of people around street lamps is emerging.

In order to play the role of smart public lighting by performing a unified operation under the control of the control server or operating according to the rules, many street lights installed on the road, as well as general lighting technology, IoT sensor technology and network technology, and Intelligent remote control technology is essential.

In particular, in recent years, there are many needs for integrated management of not only smart public lighting for small unit areas such as roads, buildings, and bridges, but also overall public lighting targeting wide unit areas such as cities, counties, and wards in local governments.

Accordingly, there is a need for a technology that enables bidirectional communication with individual street lights, reduces power consumption, secures a wide effective distance, and enables comprehensive control of a plurality of street lights.

Registered Patent Publication No. 1406901 (20140605, RF individual light pole monitoring system) Registered Patent Publication No. 1021614 (201110304, wireless dimming power saving street light fixture for remote control street light system)

The present invention has been devised to solve the above problems, and an object of the present invention is to interact with a control server and a repeater and enable multi-dimensional remote control of street lights, a smart street light controller for public lighting, and a remote control system including the same is to provide.

In order to achieve the above object, the street light controller installed to remotely control a plurality of street lights for each channel according to an embodiment of the present invention for achieving the above object is to perform LoRa communication with a repeater that relays communication between a control server and the street light controller. a wireless communication unit provided; a lighting control unit for controlling on/off and dimming of the plurality of street lamps for each channel based on the signal received from the repeater; a current sensing unit configured to sense a current for each channel so as to detect a state of a light and a state of a switch provided in the plurality of street lamps; a storage unit for storing information on the amount of power used by the plurality of street lights for each channel; and controlling the lighting controller based on the signal received from the repeater to control the on/off and dimming of the street lamp for each channel, and the state of the lighting and the switch identified based on the signal received from the current detector Including; MPU unit for transmitting information about the state of the state of each channel to the control server through the wireless communication unit, and transmitting information about the amount of power stored in the storage unit to the control server through the wireless communication unit for each channel do.

Here, the street light controller and the repeater communicate with each other through LoRa communication to secure a wide communication coverage, and the control server and the repeater communicate with each other through LTE or Ethernet to secure a high data rate. can

In addition, the street light controller and the repeater can use LoRa communication and LTE or Ethernet together by using the repeater in order to secure wide communication coverage and high data rate and at the same time reduce communication costs due to the use of a mobile communication network.

In addition, the street light controller may be installed in a street light control panel for supplying power to the plurality of street lights.

Here, the control server transmits the status information of the plurality of street lights to a manager terminal or a maintenance terminal, and the status information includes a map screen indicating the locations of the plurality of street lights and the locations of the street light controllers and the plurality of street lights. An interface screen for controlling on/off and dimming of street lights for each channel may be included.

Thereby, multidimensional remote control of the street lamp is possible.

In particular, even when many street lights are used in a large area of a city or county unit, by using a repeater to use LoRa communication and LTE or Ethernet together, it is possible to secure a higher data rate than when using only LoRa communication, LTE or Compared to the case of using only Ethernet communication, it is possible to reduce the communication cost due to the use of a mobile communication network.

In addition, information on a streetlight that needs to be managed among a plurality of management target streetlights can be grasped in real time and can be intuitively grasped.

1 is a view provided to explain a remote control system of a street light for smart public lighting according to an embodiment of the present invention.
2 is a block diagram illustrating the configuration of a street light controller installed to remotely control a street light according to an embodiment of the present invention.
3 is a diagram illustrating a map screen among status information provided to a manager terminal or a maintenance terminal according to an embodiment of the present invention.
4 is a diagram illustrating an interface screen among status information provided to a manager terminal or a maintenance terminal according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a view provided to explain a remote control system of a street light for smart public lighting according to an embodiment of the present invention, and FIG. 2 is a street light controller installed to remotely control a street light according to an embodiment of the present invention. It is a block diagram for explaining the configuration of . Also, FIGS. 3 to 4 are diagrams illustrating screens displayed in an administrator terminal or a maintenance terminal.

The remote control system of the street light for smart public lighting according to the present embodiment is composed of a control server 100, a repeater 200, and a street light controller 300, and in some cases, as shown, the manager terminal 400, maintenance A terminal 500 and a civil servant terminal 600 may be added.

The control server 100 serves to remotely manage the street lights in the jurisdiction through the control of the street light controller 300 . Among them, the control server 100 controls the street light to perform its original role of turning off the street light during the day and turning it on at night through on-off control of the street lights, and receives information about the street light, causing a problem with the street light to decide whether or not

As shown, the control server 100 may use the repeater 200 to communicate with the street light controller 300 .

The control server 100 and the repeater 200 communicate with each other using a communication method such as Ethernet or LTE, and the repeater 200 and the street light controller 300 communicate with each other using a communication method such as LoRa communication.

The reason for using the repeater 200 without direct communication between the control server 100 and the street light controller 300 is as follows.

First, there may be various networks applicable to the Internet of Things, such as Bluetooth, NFC, and Wi-Fi. However, since such a communication network is generally used for the purpose of short-distance communication, it is not suitable for smart public lighting streetlights used in a relatively wide range such as a city unit, a county unit, and a ward unit.

In order to secure wide communication coverage and high data rate at the same time, the method of using LTE or Ethernet networks can be considered. There are disadvantages.

For this reason, in this embodiment, the LoRa network is used in combination to control the street lamp for smart public lighting, and the LoRa network has a wide coverage and low power, so it is suitable for an IoT environment using lightweight data such as location values and sensor values. can see

Accordingly, from the control server 100 to the repeater 200, a high data transfer rate is secured using the backbone network, and from the repeater 200 to each street light controller 300, a wide communication coverage can be covered using LoRa communication. there will be

The street light controller 300 may be installed for each light pole as shown in the upper right corner in FIG. 1 or may be installed for each distribution box in a distribution box managing several light poles together as shown in the lower right corner of FIG. 1 . Usually, the upper right case is a security light and the lower right case is a street light, and hereinafter, it will be described on the premise that it is installed in each distribution box as in the case of the lower right side.

The street light controller 300 is configured to include a wireless communication unit 310 , a lighting control unit 320 , a current sensing unit 330 , a storage unit 340 , and an MPU unit 350 .

The wireless communication unit 310 is provided for the purpose of ultimately transmitting and receiving various information, data, and signals with the control server 100 through LoRa communication with the repeater 200 as described above.

The lighting controller 320 is provided for the purpose of controlling the on-off and dimming of lights provided in the street lamp according to a pre-stored schedule or a command received from the control server 100 .

Specifically, the lighting control unit 320 may refer to the on-off time schedule pre-stored in the storage unit 340 to operate in an internal timer method based on sunrise/sunset time prediction as in the conventional method, but this method In case of using only , an error may occur in the time information due to external noise and malfunction may occur.

As a solution to this problem, a method of determining the on-off timing by calculating sunrise/sunset times based on GPS information by separately providing a GPS receiver inside the street lamp controller 300 may also be proposed, but this is also a GPS installed in each distribution box. There may be a problem that the cost problem of the receiver and the problem of malfunction of the GPS receiver still exist.

Accordingly, in the street light controller 300 according to the present embodiment, the control server 100 solves the calculation for sunrise/sunset times for each street light location based on GPS information, but from the control server 100 Receive information on on-off timing in real time or periodically, and turn on/off lighting based on this.

The current sensing unit 330 serves to detect a current flowing through a light or a switch provided in the street lamp to determine whether the street lamp is in a faulty state.

The storage unit 340 serves to store a program for driving the street lamp controller 300 , schedule information for controlling blinking or dimming of the street lamp, or information on the amount of power used by the street lamp.

Information on the amount of power used by the street lamp may be provided in the street light controller 300 or may be received from a power meter provided in the distribution box separately from the street light controller 300 .

The control server 100 collects information on the amount of electricity stored in the storage unit 340 for each street lamp, information on the amount of electricity for each individual street lamp, information on the amount of electricity for each group of street lamps, and information on the amount of electricity of the entire street lamp. It can be visualized and transmitted to the manager terminal 400 .

The MPU unit 350 controls the overall street light controller, and in particular, controls the lighting control unit 320 based on the signal received from the repeater 200 to control the on/off and dimming of the street light, and the current sensing unit 330 ) to transmit information about the state of the lighting and the state of the switch identified based on the signal received from the wireless communication unit 310 to the control server 100, and information on the amount of power stored in the storage unit 340 It serves to be transmitted to the control server 100 through the wireless communication unit 310 .

The manager terminal 400 is a terminal used or possessed by a manager who collectively manages street lights installed in the area, and even in the case of a desktop or server used by the manager, not in the form of a mobile terminal, if the role is the same as that of the mobile terminal, such It may be included in the concept of the manager terminal 400 .

The manager terminal 400 is used for the purpose of receiving various status information about the street lamp through the control server 100 , receiving an alarm that a failure has occurred in the street light, or selecting a maintenance company to solve the failure problem.

For example, as shown in FIG. 3 , the manager terminal 400 transmits status information such as a map screen indicating the locations of the street light and the location of the street light controller 300 (the location of the distribution box) within the jurisdiction as shown in FIG. 3 , to the control server 100 . ), making it easier and easier to collectively identify and manage the status of streetlights within the jurisdiction.

In addition, as shown in FIG. 4 , the manager terminal 400 may receive status information such as an interface screen for controlling the on/off and dimming of a plurality of street lights for each channel from the control server 100 , It is possible to control the street lights in the house collectively or for each channel.

The maintenance terminal 500 is based on the maintenance command received from the control server 100 or the manager terminal 400, and allows the maintenance person to check the information on the street light that is the maintenance target, and the maintenance target is It serves to automatically provide a path to the streetlight.

The status information provided through the maintenance terminal 500 may also be the same as the status information provided through the manager terminal 400 , and there may be some limited or partially added items depending on whether or not the authority is authorized.

The civil complaint terminal 600 is a device such as a smartphone possessed by the general public, which executes an application program related to street light failure reporting to directly report when a street light malfunction occurs, or tags an identification tag even if the program is not installed in advance. It is provided for the purpose of allowing reports to be automatically received only with the action of doing so.

For example, if the civil petitioner sees a broken street lamp while walking, he or she can execute the program and register or select information on the location and symptoms of the broken street lamp so that a report can be received.

In addition, unlike this, the civil petitioner tags the identification tag such as a QR code attached to the light pole through the civil petitioner terminal 600 so that the failure can be directly received from the civil petitioner terminal 600 to the control server 100 . it might be

In this case, the control server 100 may specify a street lamp based on previously stored information about the identification tag, and may automatically receive a failure report for the specified street lamp.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

On the other hand, it goes without saying that the technical idea of the present invention can also be applied to a computer-readable recording medium containing a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, the technical ideas according to various embodiments of the present invention may be implemented in the form of computer-readable codes recorded on a computer-readable recording medium. The computer-readable recording medium may be any data storage device readable by the computer and capable of storing data. For example, the computer-readable recording medium may be a ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, hard disk drive, or the like. In addition, the computer-readable code or program stored in the computer-readable recording medium may be transmitted through a network connected between computers.

100: control server 200: repeater
300: street light controller 310: wireless communication unit
320: lighting control unit 330: current sensing unit
340: storage 350: MPU unit
400: manager terminal 500: maintenance terminal
600: civil complaint terminal

Claims (5)

In the street light controller installed to remotely control a plurality of street lights for each channel,
a wireless communication unit provided for LoRa communication with a repeater that relays communication between the control server and the street light controller;
a lighting control unit for controlling on/off and dimming of the plurality of street lights for each channel based on the signal received from the repeater;
a current sensing unit configured to sense a current for each channel so as to detect a state of a light and a state of a switch provided in the plurality of street lamps;
a storage unit for storing information on the amount of power used by the plurality of street lights for each channel; and
Based on the signal received from the repeater, the lighting control unit is controlled to control the on/off and dimming of the street lamp for each channel, and the state of the lighting determined based on the signal received from the current sensing unit and the switch and an MPU unit for transmitting information about the status to the control server through the wireless communication unit for each channel, and transmitting information about the amount of power stored in the storage unit to the control server through the wireless communication unit for each channel. ,
The street light controller and the repeater,
To ensure communication coverage, communicate with each other through LoRa communication,
The control server and the repeater,
To ensure data rates, they communicate with each other via LTE or Ethernet,
The street light controller and the repeater,
LoRa communication and LTE or Ethernet are used together using the repeater in order to secure communication coverage and data rate and reduce communication costs due to the use of mobile communication networks,
The control server is
Transmitting the status information of the plurality of street lights to a manager terminal or a maintenance terminal,
The status information is
a map screen indicating the locations of the plurality of street lights and the location of the street light controller, and an interface screen for controlling on/off and dimming of the plurality of street lights for each channel,
The manager terminal,
Controlling the street lights in the map screen collectively through the interface screen or controlling some of the street lights in the map screen for each channel,
A street light controller for smart public lighting, characterized in that one channel contains a plurality of street lights. delete delete According to claim 1,
The street light controller,
A street light controller for smart public lighting, characterized in that it is installed on a street light control panel that supplies power to the plurality of street lights. delete

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