KR101829040B1 - Intelligent system that tele-diagonoses, and tele-operates modular devices attached to a modular facility - Google Patents

Abstract

The present invention provides an intelligent system remotely and integrally controlling modules attached to module type equipment which can optimally operate an internet of things (IoT) based facility according to an installation environment and a purpose. The intelligent system remotely and integrally controlling modules attached to module type equipment of the present invention comprises: module type equipment combining a plurality of modules having different functions, attaching or detaching the plurality of modules to the facility, and detecting, transmitting and controlling the attached modules; and an integrated management server connected to the module type equipment with a network to receive in real time state information of the modules attached to the module type equipment, and remotely and integrally controlling the attached modules based on a result analyzing the received state information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an intelligent system for remotely diagnosing and controlling modular devices attached to a modular facility apparatus. BACKGROUND OF THE INVENTION < RTI ID = 0.0 >

The present invention relates to an intelligent system for remotely and integrally controlling modules attached to a modular facility, and more particularly, to a system and method for remotely integrating and controlling modules attached to a modular facility, A modular facility for sensing, diagnosing, and transmitting and controlling diagnostics of modules; And an integrated management module for remotely controlling the modules attached to the module based on a result of analyzing the received status information in real time by receiving status information of the modules attached to the modular facility by a network, By including the server, it is possible to centrally monitor and remotely control the status of each module attached to the facility, to increase the efficiency of troubleshooting and maintenance, and to select modules needed before or after installation To an intelligent system for remotely and integrally controlling modules attached to a modular facility device capable of adding, deleting, or changing the configuration of the modular facility device so that facilities based on Internet (IoT) based on the installation environment and purpose can be optimally operated.

Streetlights are installed to prevent accidents and prevent crime by ensuring that the driver or pedestrian's field of view is secured in the middle of the night, on dark roads or on sidewalks. The street lamp is usually supplied with commercial power, automatically lights the lamp when it goes off, and turns it off at the same time of sunrise.

Lamps used as commercial power sources are using metal halay lamps (170 ~ 450W) or sodium lamps (170 ~ 450W) and they are used as parks, roads or security lamps because of high power consumption of lamps.

Generally installed street lamps use batteries that are easy to charge and discharge. Batteries used for street lamps are often high-performance sealed type lead acid batteries that do not require maintenance.

In recent years, ubiquitous urban lighting facility control systems have been proposed for centralized remote control of decentralized streetlamps. Such a control system is a bidirectional supervisory control system in a unidirectional supervisory control system, a power line communication system Power line communication, PLC) or a wireless solution, as well as a hybrid control system that utilizes the advantages of each communication medium.

However, in the control systems according to the related art as described above, when the power line communication (PLC) is utilized, the power line is unstable, the stabilizer is outdated or the controller is broken down frequently, There is a problem in that communication must be performed through the disconnected line.

In addition, the prior art not only improves the efficiency of diagnosis and maintenance, but also can selectively add, delete or change the modules required before or after the installation, There is a technical limitation in that it is not possible to provide a technology capable of optimally operating the facilities of the facility.

Korean Patent No. 10-1183189

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a modular facility device for detachably attaching or attaching a plurality of modules having different functions to a facility and detecting, And an integrated management module for remotely controlling the modules attached to the module based on a result of analyzing the received status information in real time by receiving status information of the modules attached to the modular facility by a network, By including the server, it is possible to centrally monitor and remotely control the status of each module attached to the facility, to increase the efficiency of troubleshooting and maintenance, and to select modules needed before or after installation (IoT) -based facility in accordance with the installation environment and purpose, and to provide an intelligent system for remotely and integrally controlling modules attached to a modular facility apparatus .

According to an aspect of the present invention, there is provided an intelligent system for remotely and integrally controlling modules attached to a modular facility apparatus according to the present invention. The intelligent system includes a plurality of modules having different functions, Modular facility for sensing, transmitting and controlling; And an integrated management module for remotely controlling the modules attached to the module based on a result of analyzing the received status information in real time by receiving status information of the modules attached to the modular facility by a network, Provides a technology that includes a server.

The present invention improves the efficiency of fault diagnosis and maintenance, and can additionally, deletion, or change the modules required before or after the installation so that facilities based on Internet (IoT) There is a technical effect that can operate optimally.

FIG. 1 schematically shows the relationship between the modular facility apparatus, the integrated management server, the user terminal, and the emergency response terminal according to the present invention.
FIG. 2A is an embodiment according to the present invention, and shows a module type that can be selected in a combination of a modular facility apparatus.
FIG. 2B shows an embodiment of the present invention, in which the types of module selection types formed by selecting the modules of FIG. 2A are shown.
FIG. 3A shows an embodiment according to the present invention, in which a plurality of modular smart streetlamps installed on a road and an integrated management server are shown.
FIG. 3B is an embodiment according to the present invention, and shows a detailed configuration of a streetlight control module of the module of FIG. 3A.
FIG. 4 illustrates an integrated management server for integrally managing a plurality of modular smart streetlights according to an embodiment of the present invention. Referring to FIG.

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

FIG. 1 schematically shows the relationship between the modular facility apparatus, the integrated management server, the user terminal, and the emergency response terminal according to the present invention.

Referring to FIG. 1, the present invention includes a modular facility 100, an integrated management server 200, a user terminal 300, and an emergency response terminal 400.

The modular facility apparatus 100 is configured such that various modules (see FIG. 2A) are selected according to the installed environment (refer to FIG. 2B), and the selected modules are attached to various facilities (such as street lamps, telephone poles, (IoT) -based facility device, which is connected to the integrated management server 200 via a network such as the Internet, and transmits status information of various facility devices to the integrated management server 200 in real time, A control signal of the integrated management server 200 is received to implement various controls according to the control signal, which will be described later in detail with reference to FIGS. 3A to 4.

The network may be a wireless network such as Zigbee, RF, WiFi, 3G, 4G, LTE, LTE-A, Wireless Broadband Internet, Bluetooth (including BLE, Beacon) , SUB-1Ghz, etc., or wired communication such as Ethernet and PLC (Power Line Communication), or Internet, and SNS (Social Network Service).

The integrated management server 200 can be connected to the modular facility 100 through a network such as the Internet to control the modular facility 100 in real time and to integrate and control the user terminal 300 or emergency response The emergency alert signal is transmitted to the terminal 400, and a detailed description thereof will be given later with reference to FIG. 3A to FIG.

The user terminal 300 includes all devices capable of communicating with the integrated management server 200 via the Internet or wireless communication with a mobile terminal owned by the user, such as a smart phone, a tablet PC, a PDA, and the like .

Here, the user may include a manager who manages the modular facility 100, or a party or a guardian of the incident in the case of an emergency (such as a crime, a child occurrence, a fire, etc.).

The emergency response terminal 400 is a terminal capable of communicating with the integrated management server 200 when an emergency situation (such as a facility failure, a crime, a child occurrence, a fire, etc.) occurs with respect to the modular facility 100, For example, a terminal carried by a manager (for example, a maintenance work manager or the like) to handle the emergency, or a terminal of the relevant institution (for example, a police station, a fire station, a medical institution or an insurance company).

FIG. 2A is an embodiment according to the present invention, and shows a module type that can be selected in a combination of a modular facility apparatus.

2A, modules capable of selecting a combination of modules according to the present invention include a CCTV module 11, an LED lamp module 12, a SOLAR PANEL module 13, A DISPLAY module 14, a SPEAKER module 15, a BEACON module 16, an emergency call module 17, a battery module 18, (LTE / WiFi) module 19, a SEARCH LIGHT module 20, a TRAFFIC SIGNAL LIGHT CONTROLLER module 21 and a WIND GENERATOR module 22, (Such as a SIGNAGE module, a security module, etc.) according to the It is of course possible to include more.

In addition to the above modules, various functions can be performed using software linked with a module. Examples of the software include software for processing motion detection, facial recognition, traffic volume confirmation, and the like in cooperation with a camera.

In this case, the modules are a set of functional units having known characteristics, and the modules having different functions are selected by combining and attached to various facilities, and the attached modules are connected to the external integrated management server 200 and the Internet , It is possible to perform smart operation which can manage the integrated environment according to the installation environment and purpose of various facilities irrespective of the installed location.

FIG. 2B shows an embodiment of the present invention, in which the types of module selection types formed by selecting the modules of FIG. 2A are shown.

Referring to FIG. 2B, when a combination of two to four modules illustrated in FIG. 2A is selected, a module selection type A to a module selection type E are generated. In this case, each module selection type generated will be described below .

The module selection type A is a combination of the CCTV module 11 and the traffic signal control module 21 in a traffic signal installation such as a twenty-four hour crossing including self-power generation and network function, The maintenance cost is greatly reduced, and active control through the CCTV screen is enabled at the central control center (integrated management server 200).

Next, the module selection type B is a combination of the display module 14 and the speaker module 15, such as attaching the display module 14 and the speaker module 15 to the streetlight, 200), it is possible to transmit the advertisement according to the purpose and the area through the management of the centralized control center (the integrated management server 200) through the individual video and voice management, and to deliver the evacuation guidance promptly in case of a disaster .

The module selection type C then determines whether the beacon module 16 and the user terminal 300 are in combination with the beacon module 16 by attaching the beacon module 16 to the streetlight of the amusement park and the amusement park, Beacon function and Indoor Navigation function of the user terminal 300 are implemented to quickly track a child when a child is misbehaved.

Next, the module selection type D is a combination type of the CCTV module 11, the emergency call module 17 and the speaker module 15. For example, the combination selection modules are installed in the bad area, the square area, By wirelessly communicating with the control center (integrated management server 200), an emergency report is transmitted to the emergency response terminal 400 of the police station promptly in case of an emergency, and the police is promptly and promptly It enables countermeasures.

Finally, the module selection type E is a combination type of the CCTV module 11, the battery module 18, the wind power generation module 22 and the solar panel module 13, for example, (Wind power generation and solar power generation) and a wireless network by performing wireless communication with the control center (integrated management server 200) by installing a combination of selected modules and performing a forest fire monitoring and marine surveillance without on-site monitoring personnel I can do it.

FIG. 3A shows an embodiment according to the present invention, in which a plurality of modular smart streetlamps installed on a road and an integrated management server are shown.

Referring to FIG. 3A, a plurality of first modular smart street lamps 100-1 through n-th smart streetlight lamps 100-n are installed at predetermined intervals on the road, And a wireless communication module 150. The wireless communication module 150 communicates with the integrated management server 200. The wireless communication module 150 communicates with the integrated management server 200,

In this case, the first to n-th modular smart streetlamps 100-1 to 100-n provide unique ID and fixed coordinate information, respectively, and if necessary, combine and select the modules illustrated in FIG. 2A You can also add, exclude, and change the type of modules.

The streetlight control module 110 includes a power control unit 111, a battery control unit 112, a lighting control unit 113, a camera control unit 114, and a status monitoring control unit 115, as shown in FIG. It enables monitoring, transmission and control of various modules attached to the modular smart streetlight.

The power control unit 111 distributes and supplies electric power to the modular smart street lamp, thereby enabling the attached modules to operate electrically.

In this case, it is possible to supply power by converting the voltage and current according to the type of the modular smart street lamp (cover, road, security, etc.). For example, when installed in security lamp, power is supplied through AC / DC conversion, When installed on roads, power can be supplied through DC / DC conversion.

The battery control unit 112 stores a small-sized battery (e.g., Lithium-Polymer or the like) charged with a predetermined amount of charge in advance and gradually consuming the charged amount according to use, or electricity generated by the solar module 130 By controlling the recycled battery, it is possible to supplement the power even in an emergency such as a power cut-off.

In this case, a small model battery (not shown) or a recycled battery (not shown) is installed by utilizing the space inside the streetlight control module 110 or inside the streetlight.

Meanwhile, it is preferable to include a battery management system (BMS) for controlling a charging or discharging environment of a small model battery (not shown) or a recycled battery (not shown).

Also, by including the integrated electric vehicle management system, electric vehicles can be charged through the electric vehicle charging module (not shown) by using the electric energy generated through the solar module 130 .

In addition, the recent installation of energy sources using solar light as a new and renewable energy source is rapidly increasing, and the production of new and renewable energy sources is mainly sporadic due to the influence of the daytime and the climate. (Energy Storage System (ESS)), a storage device capable of efficiently storing, managing and using energy resources, and a total energy management system (TEMS) capable of responding to demand management, ) Are being developed.

In this case, an optimum voltage tracking control device (MPPT) is installed and operated in order to supply electric energy produced by the solar module 130 to the ESS first .

The lighting control unit 113 controls the power of the lighting module 120. In this case, the lighting control unit 113 may transmit a dimming control signal to the lighting module 120 so as to implement illumination of intensity set for each situation.

For example, when a human body is detected in the vicinity of a streetlight, the illumination control unit 113 controls the light to be brighter than the normal brightness so as to prevent the passage of traffic, and when an emergency such as a crime occurs, Can be implemented.

The camera controller 114 controls various movements of the camera module 140. For example, the pan / tilt / zoom function of a PTZ dome camera (Pan / Tilt / Zoom dome camera) And controls movement of the PTZ dome camera in the up, down, left, and right directions so as to provide a detailed image through the PTZ dome camera.

In this case, the image data captured by the PTZ dome camera is transmitted to the integrated management server 200 in real time based on AVB (Audio Video Bridge), and the integrated management server 200 directly stores (E.g., a hard disk drive (HDD), an optical disk drive (ODD), a solid-state disk (SSD), or the like).

The block parallel direct storage method used in the present invention can selectively control each disk by using unique MAC address information of the board, The storage speed can be increased.

In the case of the file unit storage method, unnecessary header information of a packet and a continuous input / output (I / O) signal are generated, a transmission amount and a frame are reduced while a file system transmits a packet, By storing in a sequential manner rather than in a sequential manner, the storage speed is slow compared to the slow.

The status monitoring control unit 115 determines the occurrence of an error by monitoring the operation statuses of the lighting module 120 and the wireless communication module 150 in real time and if an error is detected, An alarm signal indicating the occurrence can be transmitted so that an immediate response can be made.

For example, the status monitoring control unit 115 monitors at least one of voltage, current, and power consumption of the lighting module 120 and the wireless communication module 150, Status and communication status can be monitored.

That is, it can be determined that an abnormality occurs when an abnormal power source due to a surge is applied to the lighting module 120 and the wireless communication module 150, or when the amount of power consumption due to a short circuit or the like suddenly decreases or surges.

Referring again to FIG. 3A, the lighting module 120 is attached to the upper surface of the lamppole and is turned on / off and controlled according to the control of the lighting controller 113 of the lamp control module 110 Adjust the brightness of the lighting by each situation.

The solar module 130 is attached to the top of the lamppost and converts solar energy into electric energy, and the generated electric energy is charged into a battery module (not shown).

The camera module 140 is attached to one side of the upper side of the lamppost and photographs the surroundings of the wide area in real time through the pan / tilt / zoom function of a PTZ dome camera (Pan / Tilt / Zoom dome camera) Is transmitted in real time to the integrated management server (200) through the wireless communication module (150).

On the other hand, the transmission method of data transmitted to the integrated management server 200 is mainly carried out between a facility (street lamp) and a facility (street lamp) using a wireless communication method, but depending on the installed place and environment, It may happen that the transmission is performed.

In addition, since a facility (streetlight) connected to the first integrated management server 200 must be connected by wireless communication or wire communication, a control part for controlling wired communication is included in the inside of the streetlight control module 110.

In this case, it is preferable that a security module (not shown) is attached to the inside of the streetlight control module 110 to perform encryption, decryption, integrity verification, and the like on the photographed image so as to prevent hacking from outside .

In the case of the present invention, an encryption algorithm (for example, a lightweight encryption algorithm such as ARIA (Academy Research Institute Agency) or ECC (Elliptic Curve Cryptosystem)) is installed in a security module For example, a block chain method was used.

Hereinafter, the concept and features of the block chain method will be briefly described.

A block chain is a distributed ledger that stores transaction details of bit coin, which is electronic money. It is a technology to prevent forgery and falsification by storing transfer history of ownership of bit coin issued using cryptography technology. . ≪ / RTI >

In addition, a block chain is characterized by performing a series of processes such as transaction, proof of work, and incentive. In the block chain, .

Here, a transaction performs the task of creating a transfer of ownership transfer from person to person using a cryptographic technique.

Proof of work is a process of collecting transactions that occur every 10 minutes and creating a block and time stamp to give credibility. This process is called mining.

The incentive is used as a motivator to give miners a new bit coin as an incentive to engage in timestamping, allowing more people to participate in the verification.

Meanwhile, in the present invention, the integrated management server 200 for managing the modular smart street lamps is a node for storing a block chain, and each node stores information of devices requesting permission to access the wireless network .

In the block chain, it is assumed that the device has access rights (a defined number or letter, not a virtual money) in contrast to the information of the devices that have previously shared and agreed upon access to the wireless network, The access authority is stored.

Lastly, the wireless communication module 150 is attached to the upper surface of the lamppole and provides an interface capable of performing wireless communication with the integrated management server 200. For example, Zigbee, RF, Long distance wireless connectivity between facilities utilizing WiFi, 3G, 4G, LTE, LTE-A, Wireless Broadband Internet, Bluetooth (including BLE, Beacon), LTE-M, LORA and SUB-1GHz Or the Internet, Social Network Service (SNS), or the like.

FIG. 4 illustrates an integrated management server for integrally managing a plurality of modular smart streetlights according to an embodiment of the present invention. Referring to FIG.

4, the integrated management server 200 of the present invention includes a module installation management unit 211, a power management unit 212, a solar module management unit 213, a battery management unit 214, a failure diagnosis management unit 215, A camera management unit 217, an emergency situation management unit 218, a communication management unit 219, a cryptographic module management unit 220, and an integrated control unit 230. The illumination management unit 216, the camera management unit 217,

Each of the constituent elements will be described below with reference to Figs. 3A to 4.

3A, the module installation management unit 211 may include a selection module type, unique ID information, and fixed type information for each of the first module type smart street lamp 100-1 to the nth module type smart street lamp 100-n, Coordinate information, and the like.

In this case, the module installation management unit 211 determines whether the communication failure occurs based on the unique ID information and the fixed coordinate information for each of the first module type smart street lamp 100-1 to the nth module type smart street lamp 100- The priority for performing communication can be determined.

For example, the module installation management section 211 determines that the first modular smart streetlamp 100-1 located at a minimum distance from the transmission destination within a radius of communication with a certain transfer node has a first priority, It can be determined that the third modular smart streetlight 100-3 and the second modular smart streetlight 100-2 have the second priority and the third priority, respectively, in descending order.

That is, the module installation management unit 211 can determine the priority among the modular smart street lamps based on the minimum distance information. When a communication failure occurs, the module installation management unit 211 performs communication according to the predetermined priority according to the method, .

The power management unit 212 generates power for each of the first to n-th modular smart street lamps 100-1 to 100-n based on the power state information received from the streetlight control module 110, (Such as a normal state, a power failure state, etc.) of the module 120, the solar module 130, the camera module 140, and the wireless communication module 150.

The solar module management unit 213 is a module for managing the first to n-th modular smart street lamps 100-1 to 100-n based on the state information received from the streetlight control module 110, And remotely monitors the power generation status of the solar module 130.

In this case, the power generation state of each solar module 130 depends on the installed place, the sun altitude, the weather, the operating setting conditions, and the like.

The battery management unit 214 is configured to control the battery modules of the first to n-th modular smart street lamps 100-1 to 100-n based on the status information received from the streetlight control module 110, (Such as the charging rate, the discharging state, etc.) of the battery cell (not shown).

The fault diagnosis management unit 215 generates illumination light for each of the first to n-th modular smart street lamps 100-1 to 100-n based on the state information received from the streetlight control module 110, Remote diagnosis is made as to whether the module 120, the solar module 130, the camera module 140, and the wireless communication module 150 are faulty, and when it is determined as a failure, the failure notification signal is transmitted to the terminal And enables rapid maintenance work to be carried out.

The lighting management unit 216 controls the lighting modules for the first to n-th modular smart street lamps 100-1 to 100-n based on the state information received from the streetlight control module 110. [ And remotely monitors the state of the display unit 120 and, if necessary, performs a light replacement operation due to failure, life completion, and the like.

In this case, the lighting management unit 216 may control lighting of the first modular smart lamp 100-1 to the nth modular smart lamp 100-n based on the street lamp blinking schedule, the sunrise time and the sunset time, Group control, and integrated control for each of the first modular smart streetlight 100-1 to the n-th modular smart streetlight 100-n may be selectively performed . ≪ / RTI >

The camera management unit 217 controls the camera modules 21-1 to 21-n for the first to n-th modular smart street lamps 100-1 to 100-n based on the status information received from the streetlight control module 110, The operation status of the camera 140 can be remotely monitored, and if necessary, the camera can be replaced due to failure, life completion, or the like.

The emergency situation management unit 218 determines whether an emergency situation (such as a crime, a child occurrence, a fire, etc.) has actually occurred based on the emergency situation alert information transmitted from the streetlight control module 110. If the emergency situation management unit 218 determines that the emergency situation It sends an emergency alert signal to the terminal of the relevant agency (for example, police station, fire station, medical institution, insurance company, etc.) so that quick response measures can be taken.

The communication management unit 219 generates wireless communication for each of the first to n-th modular smart street lamps 100-1 to 100-n based on the state information received from the streetlight control module 110. [ And remotely monitors the communication state of module 150 (e.g., transmission rate, transmission priority, antenna status, failure, etc.).

The cryptographic module management unit 220 manages security for each of the first to n-th modular smart street lamps 100-1 to 100-n based on the status information received from the streetlight control module 110. [ And remotely monitors the status of the module (not shown, for example, data hacking, physical damage, etc.).

The integrated control unit 230 includes a module installation management unit 211, a power management unit 212, a solar module management unit 213, a battery management unit 214, a failure diagnosis management unit 215, a lighting management unit 216, a camera management unit 217 ), The emergency situation management unit 218, the communication management unit 219, and the cryptographic module management unit 220.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention.

100-1 ~ 100-n: 1st modular smart street light ~ n modular smart street light
110: Streetlight control module
120: Lighting module
130: Solar module
140: Camera module
150: Wireless communication module
200: Integrated management server
211: module installation management unit 212: power management unit
213: solar module management unit 214: battery management unit
215: Failure diagnosis management unit 216:
217: Camera management unit 218: Emergency situation management unit
219: Communication Management Unit 220: Cryptographic Module Management Unit
230:

Claims (10)

A modular facility device for detachably attaching or attaching a plurality of modules having different functions to a facility and for sensing, transmitting and controlling the attached modules; And
An integrated management server that is connected to the modular facility and is connected to the modular facility to receive status information of the modules attached to the modular facility in real time and remotely integrates the attached modules based on the analysis result of the received status information / RTI >
The modular facility comprises:
CCTV module, LED lamp module, solar panel module, display module, speaker module, beacon module, emergency call module, battery module, wireless communication module, searchlight module, traffic signal control module and wind power module With the form attached to the facility,
A combination of a plurality of modules is selected and installed in consideration of the installation environment and purpose, operated on the Internet (IoT)
Wherein the plurality of modules comprises:
It is possible to add, exclude or change the type before or after installation in facilities,
The integrated management server includes:
A module installation management unit for managing selected module types, unique ID information, and fixed coordinate information of modules attached to the facility;
Receiving status information of the modules attached to the facility from the modular facility, remotely determining whether the module is faulty, generating a failure notification signal when the failure is determined, and transmitting the generated failure notification signal to the external administrator terminal in real time A fault diagnosis management unit; And
An emergency situation manager for receiving an emergency situation information generated around the facility from the modular facility to determine whether an emergency situation has actually occurred and for transmitting an emergency situation alert signal to an emergency emergency response terminal when it is determined that the emergency situation has occurred, Lt; / RTI >
The module installation management unit,
A priority of each module attached to the facility is determined in advance in order to perform communication in a predetermined order when a communication failure occurs based on the unique ID information and the fixed coordinate information of each module attached to the facility,
The video data photographed by the CCTV module includes:
(AVB) (Audio Video Bridge), is stored in the integrated management server in block parallel direct storage mode,
The image data may include:
Characterized in that the encryption / decryption, integrity verification and authentication are performed using a block chain method, and an intelligent system for remotely and integrally controlling modules attached to the modular facility. delete delete The system of claim 1, wherein the modular facility comprises:
(IoT) based on a plurality of modules installed on street lamps of a road, and an intelligent system for remotely and integrally controlling modules attached to the modular facility. 5. The system of claim 4, wherein the modular smart streetlight comprises:
An illumination module attached to a top surface of the lamppole and adjusting the intensity of the illumination in consideration of a power on / off or a surrounding situation according to a control signal;
A solar module attached to the top of a lamppole and performing solar power generation by converting solar energy into electrical energy;
A camera module attached to one side of the upper side of the lamppole and photographing an environment around the streetlight;
A wireless communication module attached to an upper surface of a lamppole and providing an interface capable of performing wireless communication with the integrated management server; And
And a streetlight control module for integrally controlling the lighting module, the solar module, the camera module, and the wireless communication module. 6. The lighting control system according to claim 5,
A battery control unit for controlling power of a small model battery which is charged with a predetermined amount of charge in advance and gradually consumed according to use or a recycling battery which stores electric energy generated by the solar module,
A lighting control unit for controlling the power on / off operation of the lighting module by generating a power control signal or generating a dimming control signal to adjust intensity of illumination according to a situation; And
And a status monitoring controller for monitoring the operation status of the lighting module and the wireless communication module in real time, generating an alarm signal when an error occurs, and transmitting the generated alarm signal to the integrated management server An intelligent system that remotely integrates and controls the modules attached to the facility unit. 7. The apparatus according to claim 6,
Wherein it is determined that an abnormality occurs due to an abnormal power source due to a surge in each of the lighting module or the wireless communication module or when an amount of power consumption due to a short circuit is rapidly reduced or increased rapidly Intelligent system that remotely controls integrated modules. delete delete delete

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