KR102188531B1 - Intelligent streetlight apparatus for smart city - Google Patents

Abstract

The present invention collects and analyzes the data collected through various sensing means provided in the street light itself, so as to facilitate the active control of the street light itself as well as the human and physical management of the entire security target area where the street light is installed. It relates to a street light device, and more particularly, an object detection unit that is provided with an object detection sensor to output an object detection signal according to object detection and transmit the same; A lighting control unit that controls lighting based on an object detection signal output from the object detection unit; A rescue request unit having an emergency bell outputting a rescue request signal and transmitting a rescue request signal output by the emergency bell; And receiving the object detection signal and the rescue request signal output from the object detection unit and the rescue request unit, monitoring and outputting the emergency situation in the security target area where the streetlight is installed, and outputting the output monitoring information to one or more selected action centers. It characterized in that it includes; an information output unit to transmit.

Description

Intelligent streetlight apparatus for smart city {Intelligent streetlight apparatus for smart city}

The present invention collects and analyzes the data collected through various sensing means provided in the street light itself, so as to facilitate the active control of the street light itself as well as the human and physical management of the entire security target area where the street light is installed. It relates to a street light device.

Conventionally, a system for disseminating safety disaster information has spread the fact of a disaster or disaster to an unspecified number of people regardless of the area in which the disaster or disaster actually occurred or the extent to which it affects. Therefore, such a system has a problem of reducing the efficiency of information transmission or response to safety disasters.

As an example of technology to improve these problems, Korean Patent Registration No. 10-1643984 analyzes safety disasters when they occur, calculates the extent of the safety disaster, and then calculates the power pole, collecting device, watt hour meter, AMI modem, and power communication network. A control server configured to set a safety disaster information transmission area based on address information of a smart grid facility including a smart grid facility or street light, a security light, and a smart city facility including a CCTV main, and transmit safety disaster information; A wide area network including an optical communication network, a mobile communication network, a TRS network, a dedicated disaster network, or a local network including a wireless LAN, binary CDMA, TVWS, RF communication, power line communication, and wired LAN, and transmits and receives safety disaster information with the control server. Safety and disaster information transmission network, which is a communication network; A safety disaster information propagation device attached to the smart grid facility or smart city facility and receiving and transmitting safety disaster information based on the location information of the smart grid facility or smart city facility; A safety disaster information notification device that transmits safety disaster occurrence information to the safety disaster information propagation device; And a safety disaster information display device that receives and displays a safety disaster information propagation command from the safety disaster information propagation device or the safety disaster information notification device, wherein the control server comprises: A communication unit that enables communication with an external system including a safety disaster information transmission device through the safety disaster information transmission network; A location information management unit for managing location information of the safety and disaster information propagation device based on address information of the smart grid facility or smart city facility; In the case of receiving safety disaster information from media or public institutions, the type of safety disaster, the risk, the regional scope that the safety disaster can affect, the regional scope for which notification is required, countermeasures for each safety disaster, whether or not to evacuate, and how to evacuate. Safety and disaster information analysis unit to analyze; A database that stores data required to operate the location information management unit or the safety and disaster information analysis unit, and provides the data upon request from them; A control unit for controlling the flow of data between the communication unit, the location information management unit, the safety and disaster information analysis unit, and the database; And a component management unit that sets and manages the installation information and operation status of the device existing in the control server, safety disaster information transmission network, safety disaster information transmission device, safety disaster information notification device, or safety disaster information display device. It proposes a safety disaster information dissemination system based on the characteristic location of public facilities.

However, in the case of the above technology, there is a need for a system that is limited to safety disasters and is capable of collecting more comprehensive information and managing each information as a system to transmit such information.

Korean Patent Registration No. 10-1643984

Accordingly, an object of the present invention is to collect and analyze data collected through various sensing means provided in the streetlight itself, thereby enabling the active control of the streetlight itself, as well as human and physical management of the entire crime prevention area where the streetlight is installed. It is to provide an intelligent street light device for the city.

As a means for solving the above-described problems, the intelligent street light apparatus for a smart city of the present invention includes: an object detection unit that is provided with an object detection sensor to output an object detection signal according to object detection and transmit the same; A lighting control unit that controls lighting based on an object detection signal output from the object detection unit; A rescue request unit having an emergency bell outputting a rescue request signal and transmitting a rescue request signal output by the emergency bell; And receiving the object detection signal and the rescue request signal output from the object detection unit and the rescue request unit, monitoring and outputting the emergency situation in the security target area where the streetlight is installed, and outputting the output monitoring information to one or more selected action centers. It characterized in that it includes; an information output unit to transmit.

As an example, a fire detection unit that is provided with a fire detection sensor to output and transmit a fire detection signal according to fire detection; further comprising, wherein the information output unit receives a fire detection signal output from the fire detection unit It monitors and outputs the fire situation in the security target area where street lights are installed in real time, and the output monitoring information can be transmitted to one or more selected action centers.

As an example, a camera that receives an external control signal, captures an image of a crime prevention area in which a streetlight is installed, and outputs the captured image signal by the received control signal, wherein the information output unit, The video signal output from the camera may be received and the video signal of the security target area in which the streetlight is installed may be transmitted to one or more selected action centers.

As an example, a vibration sensing unit is provided with a vibration sensing sensor to output and transmit a vibration sensing signal according to vibration sensing, and the information output unit receives a vibration sensing signal output from the vibration sensing unit. It monitors and outputs the incident situation in the security target area where streetlights are installed in real time, and can transmit the output monitoring information to one or more selected action centers.

As an example, the vibration sensing unit includes a casing in which a fixed space in which a spring is fixed at an inner end and a slide space in which the spring is exposed by communicating with the fixed space is formed, and a frame is fixed to the end of the spring and is attached to the slide space. A mounting plate in contact with the mounting plate, a mounting bar protruding from the mounting plate, a plurality of weights selectively fastened to the mounting bar, and a buffer pad made of an elastic material attached to the inside of one end of the slide space; It may include a buffer tube of an elastic material attached while accommodating the spring, an interference prevention tube formed on the inside of the spring in the fixed space, and a vibration detection sensor configured inside the interference prevention tube.

As an example, an illuminance sensor is provided to output an illuminance sensing signal according to illuminance detection and transmit the same; further comprising, the lighting control unit, the object sensing signal output from the object sensing unit and the Stores and collects the illuminance sensing signal output from the illuminance sensing unit, analyzes the collected object sensing signal and illuminance sensing signal using a selected learning algorithm, and selectively selects the brightness of the lighting by time of the security target area where the streetlight is installed. Can be controlled.

Therefore, the intelligent street light device for a smart city of the present invention collects and analyzes data collected through various sensing means provided in the street light itself, thereby actively controlling the street light itself, as well as the traffic volume of the security target area where the street light is installed, and a human danger signal. It has the advantage of being able to realize a smart city by recognizing natural danger signals such as earthquakes and automatically taking appropriate measures for each situation, making it easier to manage people and materials throughout the city.

1 is a view schematically showing an intelligent street light device for a smart city of the present invention.
2 is a block diagram showing the configuration of an intelligent street light device for a smart city according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing the configuration of a vibration sensing unit according to an embodiment of the present invention.
4 is a diagram illustrating an operating state of a vibration sensing unit according to an embodiment of the present invention.
5 is a block diagram showing a lighting control configuration according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the present invention will be described in more detail based on the accompanying drawings. In describing the present invention, terms or words used in the present specification and claims are the present invention based on the principle that the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted as a meaning and concept consistent with the technical idea of

1 is a diagram schematically showing an intelligent street light device for a smart city of the present invention, and FIG. 2 is a block diagram showing the configuration of an intelligent street light device for a smart city according to an embodiment of the present invention.

Referring to Figure 1, the intelligent street light device for a smart city (hereinafter referred to as'streetlight device 1)' of the present invention may be installed one or more per security target area, and receives various signals collected in the security target area. By collecting and analyzing these, as well as automatic lighting control according to object detection, emergency situations, fire occurrences, and accidents can be identified.

For example, the street light device 1 of the present invention includes traffic volume information including vehicle traffic for a set area range, floating population information, environmental information including temperature, humidity, and air quality, as well as energy consumption information, and nearby areas The condition of the road and the surrounding environment can be collected, and various information including traffic volume, induced population, temperature, humidity, and air quality conditions for the corresponding area can be provided based on the collected information.

In addition, the streetlight device 1 of the present invention transmits the identified emergency situation, fire occurrence, accident situation, etc. to the action center adjacent to the security target area using a wired or wireless communication network, so that a quick follow-up action can be made from the action center. .

That is, the street light device 1 of the present invention intelligently collects and analyzes data from the street light itself, and actively controls the street light itself according to the analysis result.

Here, the action center may include a police station (2), a fire station (3), a hospital (4) operated by a local government as shown in FIG. 1, as well as a civil complaint situation room, a district zone adjacent to each area, etc., and a street light device (1) Can select an appropriate action center for each identified situation and deliver the information.

That is, the action center receives monitoring information on an emergency situation from the streetlight device 1 of the present invention, monitors the monitoring information, and dispatches management personnel according to an emergency situation due to a crime so that they can quickly respond to a crime.

Such an action center may be connected to at least two streetlight devices 1 and through a network to collect monitoring information for a plurality of security target areas, and by enabling the monitoring, the surveillance area may be expanded.

Referring to FIG. 2, the street light device 1 of the present invention may include an object detection unit 11, a lighting control unit 16, a structure request unit 12, and an information output unit 10.

The object detection unit 11 is provided with an object detection sensor 110 to output and transmit an object detection signal according to object detection. For example, the object detection unit 11 detects a pedestrian in a corresponding crime prevention area and automatically controls the lighting 17 by the lighting control unit 16, or detects the traffic volume and transmits information on such traffic volume. Is to function.

Here, since various known sensors such as an infrared sensor can be applied to the object detecting sensor 110 mentioned above, a detailed description thereof will be omitted.

The lighting control unit 16 may receive an object detection signal output from the object detection unit 11 and control lighting based thereon. For example, the lighting control unit 16 can save energy by turning off the lighting 17 when a pedestrian is not detected.

The rescue request unit 12 is provided with an emergency bell 120 that outputs a rescue request signal and may transmit a rescue request signal output by the emergency bell 120.

The rescue request unit 12 is not shown in the drawing, but the emergency bell 120 is exposed to the street light device 1 so that a rescue request according to the user's guidance is made, and the rescue request signal generated in this way is as follows. It can be transmitted to the described information output unit 10.

The information output unit 10 receives the object detection signal and the rescue request signal output from the object detection unit 11 and the rescue request unit 12, and monitors and outputs an emergency situation in a crime prevention area where a streetlight is installed in real time, The output monitoring information can be transmitted to one or more selected action centers.

The information output unit 10 can determine the authenticity of the rescue request signal received from the rescue request unit 12.

For example, the street light device 1 of the present invention further includes a camera 14 that receives an external control signal and captures an image of a crime prevention area in which the street light is installed by the received control signal, and outputs the captured image signal. can do.

In addition, the information output unit 10 may receive the video signal output from the camera 14 and transmit the video signal of the security target area in which the streetlight is installed to one or more selected action centers, and thus transmitted from the information output unit 10 The video is transmitted to the action center so that the authenticity of the rescue request signal can be easily grasped from the perspective of the manager, and immediate action can be taken in the judgment of the action center.

The street light device 1 of the present invention can be utilized as a CCTV, such as monitoring an image in an area by constantly photographing the operation of the camera 14 without interlocking with object detection, etc., and communication is not shown in the drawing. It can be used as a general-purpose communication repeater by embedding a terminal.

Meanwhile, the street light device 1 of the present invention may further include a fire detection unit 13 and a vibration detection unit 15.

The fire detection unit 13 may be provided with a fire detection sensor 130 to output and transmit a fire detection signal according to fire detection.

In addition, the information output unit 10 receives the fire detection signal output from the fire detection unit 13, monitors and outputs the fire situation in the area where street lights are installed in real time, and outputs the output monitoring information to one or more selected action centers. Can send. Here, the action center will be the fire department.

The fire detection unit 13 may be configured to transmit and receive data to and from the fire detection unit 13 of the adjacent street light device 1. For example, one selected fire detection unit 13 collects the fire detection signal of the adjacent other fire detection unit 13, and the collected fire detection signal for a plurality of areas is transmitted to the information output unit ( 10) can be sent collectively to the action center.

That is, in the present invention, a plurality of fire detection units 13 configured in each street light device 1 establish a sensor network network in the city, and one selected fire detection unit 13 plays a relay role of a gateway. By doing so, the information collected from each device in the city can be transmitted to the action center.

At this time, the fire detection signal output from each fire detection unit 13 may transmit a unique identification signal for identifying the corresponding security target area.

By this configuration, even if the information output unit 10 of a specific street light device 1 is broken or damaged by a fire, the fire detection unit 13 of another street light device 1 adjacent to the action center Since it can be transmitted to, it is not only free in a communication environment, but also has the advantage of securing a stable communication path.

The fire detection sensor 130 measures a factor causing a fire and outputs a detection signal accordingly, and the fire detection sensor 130 may include an ultraviolet flame detection sensor and a temperature sensor. It can generate a fire detection signal in response to the complex sensing data measured by the sensor.

For example, when a temperature higher than a set threshold temperature is measured while a flame is detected, the fire detection sensor 130 may determine that a fire has occurred and generate and output a fire detection signal.

The UV-type flame detection sensor reacts and operates when the change in ultraviolet rays emitted from the flame exceeds a certain amount. The temperature sensor reacts and operates when the change in temperature exceeds a certain amount, and it is preferable to apply a non-contact type temperature sensor that measures the heat source radiated from the object.

In this way, the fire detection unit 13 can implement more reliable fire detection while minimizing malfunction from non-fire factors by detecting fire by using different types of sensors in parallel.

The vibration detection unit 15 is provided with a vibration detection sensor 150 to output and transmit a vibration detection signal according to vibration detection.

In addition, the information output unit 10 receives the vibration detection signal output from the vibration detection unit 15, monitors and outputs the accident occurrence situation in the crime prevention area where the streetlight is installed in real time, and outputs the output monitoring information to at least one selected action center. Can be sent to.

That is, the vibration detection unit 15 detects the vibration transmitted to the corresponding street light device 1 and transmits the detected vibration detection signal to the information output unit, and the information output unit 10 analyzes the transmitted vibration detection signal to prevent collision. It analyzes the accidents caused by accidents and earthquakes, and transmits monitoring information on such accidents to the corresponding action center.

In particular, in this case, when the vibration detection signal is transmitted, the information output unit 10 automatically generates a command signal for controlling the operation of the camera, and transmits the command signal to the camera 14 provided in the corresponding street light device 1 By doing so, it is possible to allow the camera 14 to take an image of the security target area so that an image signal can be output, and the output image information is collected and transmitted from the information output unit 10 as monitoring information to the action center. By doing so, the accident situation is to be grasped from the perspective of the manager.

In the present embodiment, the fire detection unit 13 and the vibration detection unit 15 are configured to monitor an emergency situation and actively report the emergency situation to the control center, but the present invention is not limited thereto, A button capable of passing through 112, 119 or government offices may be provided on the street light device 1 itself, so that the user can directly report in response to an emergency situation.

3 is a side cross-sectional view showing the configuration of a vibration sensing unit according to an embodiment of the present invention, and Fig. 4 is an operational state diagram of the vibration sensing unit according to an exemplary embodiment of the present invention.

On the other hand, the vibration detection unit 15 of the present invention not only detects the vibration transmitted to the street light device 1, but also reduces the transmitted vibration, so that the electric devices fail due to the vibration transmitted to the street light device 1 It is possible to minimize the occurrence of or deterioration.

The vibration sensing unit 25 of the present embodiment shows an example configured outside the lighting control unit 16, which is not shown in the drawing inside the lighting control unit 16, but various electric devices are embedded. Shows an example of reducing the vibration transmitted to the lighting control unit 16 by the vibration detection unit 15 of the present embodiment because fatigue is generated due to continuous vibration and may be exposed to problems such as deterioration and failure. As such, the present invention is not limited thereto, and it is natural that the vibration detection unit 15 of the present embodiment may be installed in a location vulnerable to vibration when transmitting vibration in the street light device 1.

3 and 4, the vibration sensing unit 15 of this embodiment communicates with the fixed space 151-2 and the fixed space 151-2 in which the spring 152 is fixed at one end of the spring 152. A casing 151 in which the slide space 151-1 is exposed, a mounting plate 153 fixed to the end of the spring 152 and having an edge in contact with the slide space 151-1, and the mounting plate A mounting bar 154 protruding from 153, a plurality of weights 155 selectively fastened to the mounting bar 154, and an elastic material attached to the inside of one end of the slide space 151-1 A buffer pad 157, a buffer tube 158 made of elastic material attached while receiving the spring 152 from the mounting plate 153, and formed inside the spring 152 in the fixed space 151-2 It characterized in that it comprises an interference prevention tube 156 and a vibration detection sensor 150 configured inside the interference prevention tube 156.

As shown in FIG. 3, the casing 151 must have one end detachable so that the number of weights 155 can be adjusted.

In addition, a spring 152 is fixed to one end of the casing 151 and a buffer pad 157 is attached to the other end, and the buffer pad 157 is above when the mounting bar 154 slides inside the slide space 151-1. It is to prevent direct hitting the casing 151.

In the casing 151, a fixed space 151-2 is formed at an end fixed to the lighting control unit 16 in the drawing so that one end of the spring 152 is fixed to the fixed space 151-2. In (151-2), an interference prevention tube 156 is formed inside the spring 152, so that the vibration detection sensor 150 in contact with the outside of the lighting control unit 16 in the interference prevention tube 156 is The interference prevention tube 156 prevents the vibration of the spring 152 from being interfered with.

The reason for this configuration is that the vibration generated by a mechanism for reducing the transmitted vibration while allowing the vibration transmitted to the lighting control unit 16 to be accurately detected by the vibration detection sensor 150 is vibrated through the spring 152. It is to control what is transmitted to the detection sensor 150. That is, the vibration transmitted to the lighting control unit 16 is to be accurately detected without interfering with the surrounding conditions and derived vibration.

The mounting plate 153 is fixed to the end of the spring 152, and allows the slide to be made by the action of the spring 152 in the slide space 151-1 in a state in which the border is in contact with the slide space 151-1. will be.

In this way, the mounting plate 153 allows the slide in the slide space 151-1 to be performed in the opposite direction of the vibration transmitted to the lighting control unit 16 as the slide is made by the action of the spring 152. If the frictional force between the mounting plate 153 rim and the slide space 151-1 is large, such reverse vibration may be prevented.

Accordingly, in the present invention, a plurality of wheels 153-1 are configured on the rim of the mounting plate 153, so that the inner circumference of the slide space 151-1 and the mounting plate 153 are formed by the wheels 153-1. The slide between the mounting plate 153 and the inner circumference of the slide space 151-1 is made smoothly in contact with each other.

The mounting bar 154 protrudes from the mounting plate 153 and corresponds to a configuration in which the weight 155 is mounted. While the number of weights 155 is adjusted to the mounting bar 154, it is mounted.

Although three weights 155 are mounted on the mounting bar 154 in the drawing, it is not limited thereto. The adjustment is made so that reverse vibration in the opposite direction of the vibration transmitted to the lighting control unit 16 is achieved by adjusting the number of the weights 155.

That is, the vibration generated by the vibration detection unit 15 is generated in a direction and magnitude to attenuate the vibration transmitted to the lighting control unit 16. The number of weights 155 corresponds to a variable that causes reverse vibration to be generated by various factors.

The buffer tube 158 is an elastic material attached while receiving the spring 152 from the mounting plate 153 to prevent the mounting plate 153 from being hit directly during the slide process.

In this way, the elastic modulus (K) of the spring 152 in the vibration sensing unit 15 and the damper coefficient (D) of the buffer pad 157 and the buffer tube 158 are fixed and correspond to a constant, and the weight 155 The number of) corresponds to a variable as the mass coefficient (M), and by adjusting the number of weights 155, the vibration generated in the lighting control unit 16 is attenuated by the vibration generated in the vibration sensing unit 15. will be.

5 is a block diagram showing a lighting control configuration according to an embodiment of the present invention.

On the other hand, in the streetlight device 1 of the present invention, the object detection unit 11 collects the illumination information collected in the security target area, and learns the collected information to determine the floating population by time of the security target area. By analyzing, it is possible to control the lighting lamp 17.

That is, the street light device 1 of the present invention may further include an illuminance sensor 18 that is provided with an illuminance sensor, outputs an illuminance sensing signal according to illuminance detection, and transmits the illuminance sensing signal.

And the illumination control unit 16 stores and collects the object detection signal output from the object detection unit 11 and the illumination detection signal output from the illumination detection unit 18, and the collected object detection signal and illumination detection signal is a learning algorithm It is possible to analyze using and selectively control the brightness of the lighting by time of the crime prevention area where the streetlight is installed.

In the area subject to crime prevention, changes in the floating population by time period occur, and the lighting control unit 16 analyzes these changes through learning of accumulated data, enabling prediction of the floating population by time period, and lighting according to the predicted results. It controls the brightness of.

For example, the lighting control unit 16 controls ON/OFF of the lighting lamp 17 according to the predicted floating population for each time slot, but in the time zone where the lighting lamp 17 is turned on in consideration of the difference in illumination of the same time zone according to the season You can control the brightness.

At this time, since the learning algorithm can perform analysis by selecting an appropriate one of known artificial intelligence learning algorithms, a detailed description thereof will be omitted.

As described above, the street light device 1 of the present invention collects data through each sensing means, accumulates the collected data for a certain period to digitize it, and actively operates the lighting 17 based on the digitized data. In this way, the energy consumption according to the operation of the lighting lamp 17 is transmitted to the action center and output through a monitor provided in the street light device 1 so that the user can easily check the energy consumption for smart lighting. do.

As described above, the street light device 1 of the present invention can provide various information as well as smart lighting based on the collected information, and can be used to reflect policies on the residential and commercial areas where the street light device 1 is installed.

For example, it can be used as road policy through analysis of vehicles and floating population, air environment policy through analysis of air pollution data, crime prevention and safety management policy through crime occurrence information, and energy policy.

In addition, public relations can be performed through the monitor of the street light device (1) itself, and a location information system for public transportation, a public relations system for finding children and the elderly, a weather (region) provision service, and information collection using a touch screen monitor And it may be linked to various systems and services such as information utilization.

In addition, since the street light device 1 of the present invention has a unique identification code, it is possible to easily identify the area where the street light device 1 is installed. This street light device 1 performs a call function of call tax. Although not shown in the drawing, when a crosswalk is adjacent, it can be used as a pedestrian traffic light for a crosswalk by separately installing green and red lights.

It will be appreciated by those skilled in the art through the above description that various changes and modifications can be made without departing from the technical idea of the present invention. Therefore, the technical scope of the present invention is not limited to the contents described in the detailed description of the specification, but should be determined by the claims.

1: street light device of the present invention 10: information output unit
11: object detection unit 12: structure request unit
13: fire detection unit 14: camera
15: vibration detection unit 16 lighting control unit
17: lighting 18: illuminance sensing unit

Claims (6)

An object detection unit provided with an object detection sensor to output and transmit an object detection signal according to object detection;
A lighting control unit for controlling lighting based on the object detection signal output from the object detection unit;
A rescue request unit having an emergency bell outputting a rescue request signal and transmitting a rescue request signal output by the emergency bell;
Receives the object detection signal and the rescue request signal output from the object detection unit and rescue request unit, monitors and outputs the emergency situation in the security target area where street lights are installed in real time, and transmits the output monitoring information to one or more selected action centers. An information output unit; And
Includes; a vibration detection unit that is provided with a vibration detection sensor to output and transmit a vibration detection signal according to the vibration detection,
The information output unit,
Receives the vibration detection signal output from the vibration detection unit, monitors and outputs the accident occurrence situation in the crime prevention area where the streetlight is installed in real time, and transmits the output monitoring information to one or more selected action centers,
The vibration detection unit,
A fixed space in which a spring is fixed at an inner end and a casing in which a slide space to which the spring is exposed is formed in communication with the fixed space, a mounting plate fixed to an end of the spring and having an edge in contact with the slide space, and the mounting plate A protruding mounting bar, a plurality of weights selectively fastened to the mounting bar, a buffer pad of an elastic material attached to one end of the slide space, and a buffer of an elastic material attached while accommodating the spring in the mounting plate An intelligent street light device for a smart city, characterized in that it comprises a tube, an interference prevention tube formed inside the spring in the fixed space, and a vibration detection sensor configured inside the interference prevention tube.
The method of claim 1,
A fire detection unit that is provided with a fire detection sensor to output and transmit a fire detection signal according to fire detection; further includes,
The information output unit,
Intelligent for smart city, characterized in that it receives the fire detection signal output from the fire detection unit, monitors and outputs the fire situation in the security target area where street lights are installed in real time, and transmits the output monitoring information to one or more selected action centers. Street light device.
The method of claim 1,
A camera that receives an external control signal, captures an image of a security target area in which a streetlight is installed, and outputs the captured image signal according to the received control signal; and
The information output unit,
An intelligent street light device for smart city, characterized in that receiving the video signal output from the camera and transmitting the video signal of the security target area in which the street light is installed to at least one selected action center.
delete delete The method of claim 1,
An illuminance sensing unit is provided with an illuminance sensor to output an illuminance sensing signal according to illuminance sensing and transmit the illuminance sensing unit; further comprising,
The lighting control unit,
The object detection signal output from the object detection unit and the illumination detection signal output from the illumination detection unit are stored and collected, and the collected object detection signal and illumination detection signal are analyzed using a selected learning algorithm, and a street light is installed. An intelligent street light device for a smart city, characterized in that selectively controlling the brightness of lighting for each time zone in the security target area.

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