KR102645703B1 - Street light security system - Google Patents

Abstract

The present invention relates to a road lighting security system that provides life safety services by detecting objects through CCTV images near security lights. The road lighting security system according to the present invention is connected to the user terminal through a network with a security light, a two-way flasher installed on the security light, and a beacon installed in multiple security lights with cameras installed at regular intervals, and sends a situation signal through an application installed on the user terminal. CCTV near security lights, including a signal generator that generates a signal generator and a server that determines a preset risk situation based on the signal received from the beacon and transmits a control signal for each risk situation to a second user terminal or two-way flasher connected to the user terminal. By providing life safety services by detecting objects through video, it has the effect of resolving the safety of pedestrians, including children and the elderly, caused by invisible viewing angles caused by vehicles parked around alleys or narrow intersections where security lights are installed. there is.

Description

Street light security system

The present invention relates to a road lighting security system, and more specifically, to a road lighting security system that provides life safety services by detecting objects through CCTV images near security lights.

In general, security lights are lighting facilities for night-time traffic safety and crime prevention purposes by illuminating the movement of pedestrians, and are installed in areas with low traffic volume, dark alleys, and roads without street lights.

The security light of the existing Registered Utility Model Publication No. 427302 forms a basic framework and is composed of multiple stages that can be separated and combined, and the lower part is a support that is fixed by being buried in the ground, and is mounted on this support to produce and/or store power on the web. A power supply device that supplies cameras, lighting devices, and control units, a lighting device that irradiates light to the outside using the power supplied from the power supply device, and a real-time view of the surrounding situation using the power supplied from the power supply device. It consists of a web camera that transmits data, and a control unit that controls the operation of the lighting device and web camera. This conventional technology installs a web camera on a security light so that it can be controlled through a personal terminal. As a result, the security light, which was used only to ensure night vision, now functions as a crime prevention and inspection function, expanding the scope of use of the security light, and real-time surveillance through a web camera. Since it is possible to check the status of security lights, there is an advantage in that damage or operating errors can be easily identified and quick repairs are possible. However, in order to apply it to crime prevention, web cameras installed in all security lights must be monitored on the web through a personal terminal at all times, so many monitors are required. There is a problem where it is necessary, and when an emergency or abnormality occurs, it is not possible to know where it occurred, so it is not possible to respond directly.

In addition, there is a problem with the safety of pedestrians, including children and the elderly, due to invisible viewing angles caused by vehicles parked in alleys or around narrow intersections where security lights are installed.

Public patent 2010-0107659 (2010.10.06)

The present invention was designed to solve the above-mentioned problems, and its purpose is to provide a road lighting security system that provides life safety services by detecting objects through CCTV images near security lights.

The road lighting security system according to the present invention includes a plurality of security lights (100) with cameras installed at regular intervals, a two-way flasher (200) installed on the security lights to control the turning on and off of each security light, and a two-way flasher (200) installed on the security lights. A beacon 300 that forms a short-distance communication network in a certain area, a signal generator 400 that is connected to a user terminal through the beacon and a network and generates a situation signal through an application installed on the user terminal, and a corresponding signal from the beacon. Receives the location information of the user terminal and the situation signal of the signal generator, determines a preset risk situation based on the received signal, and transmits a control signal for each risk situation to a second user terminal connected to the user terminal or the two-way flasher. Includes server 500.

Preferably, the signal generator 400 includes a first situation signal generation module 410 that generates a pedestrian situation signal when it detects the pattern of the movement line using a GPS signal through an application installed on the user terminal and determines that an abnormal situation is present. do.

In addition, the signal generator 400 is a second situation signal generation module that generates an emergency situation signal when it detects a movement or vibration pattern at a certain location using a GPS signal through an application installed on the user terminal and determines that an elderly person living alone is in an emergency situation. Includes (420).

In addition, the signal generator 400 detects with a camera the movement of a vehicle or person approaching a security light connected to the beacon and a short-range communication network through an application installed on the user terminal, and generates a collision risk situation signal based on the location of the user terminal. It includes a third situation signal generation module 430 that generates.

The server 500 receives the location information of the user terminal and the situation signal of the signal generator from the beacon, and operates the security light according to the direction of movement of the user terminal and the approach distance to the security light based on the location information of the user terminal. The color of the security light is changed using the installed two-way flasher.

The server 500 receives the location information of the user terminal and the situation signal of the signal generator from the beacon, and is installed at the security light according to the direction of movement of the user terminal and the approach distance to the security light based on the location information of the user terminal. With a two-way flasher, the on and off control signal of the security light is controlled differently depending on the preset situation.

According to one embodiment of the present invention, by detecting objects through CCTV images near security lights and providing a life safety service, children are prevented from seeing due to invisible viewing angles due to vehicles parked around alleys or narrow intersections where security lights are installed. It has the effect of resolving the safety of pedestrians, including the elderly and the weak.

Figure 1 is a diagram showing the configuration of a road lighting security system according to an embodiment of the present invention.
Figure 2 is a diagram showing the detailed configuration of a road lighting security system according to an embodiment of the present invention.
Figure 3 is a diagram for explaining a pedestrian situation in a road lighting security system according to an embodiment of the present invention.
Figure 4 is a diagram for explaining the service implementation of a road lighting security system according to an embodiment of the present invention.
Figure 5 is a diagram showing a smart streetlight operation process in conjunction with a user terminal of a road lighting security system according to an embodiment of the present invention.
Figure 6 is a diagram for explaining the operation between the user terminal of the road lighting security system and the smart security light flasher device according to an embodiment of the present invention.

The specific structural or functional descriptions presented in the embodiments of the present invention are merely illustrative for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. In addition, it should not be construed as being limited to the embodiments described in this specification, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Meanwhile, in the present invention, terms such as first and/or second may be used to describe various components, but the components are not limited to the above terms. The above terms are used only for the purpose of distinguishing one component from other components, for example, without departing from the scope of rights according to the concept of the present invention, a first component may be named a second component, Similarly, the second component may also be referred to as the first component.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. In describing embodiments of the present invention, if a description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the description is omitted.

Figure 1 is a diagram showing the configuration of a road lighting security system according to an embodiment of the present invention. As shown in FIG. 1, the road lighting security system includes a security light 100, a two-way flasher 200, a beacon 300, a signal generator 400, and a server 500.

The security light 100 is a security light that is installed in plural numbers with cameras installed at regular intervals.

The two-way flasher 200 is installed on the security light 100 to control the turning on and off of each security light.

The beacon 300 is installed in the security light 100 to form a short-range communication network in a certain area.

The signal generator 400 is connected to the user terminal 10 through the beacon 300 and a network, and is configured to generate a situation signal through an application installed on the user terminal 10.

Figure 2 is a diagram showing the detailed configuration of a road lighting security system according to an embodiment of the present invention. As shown in Figure 2, the signal generator 400 of the road lighting security system according to an embodiment of the present invention includes a first situation signal generation module 410, a second situation signal generation module 420, and a third situation signal generation module 410. Includes a situation signal generation module 430.

The first situation signal generation module 410 detects the pattern of the movement line using a GPS signal through an application installed on the user terminal 10, and when it determines that an abnormal situation is present, it generates a pedestrian situation signal.

Figure 3 is a diagram for explaining a pedestrian situation in a road lighting security system according to an embodiment of the present invention. As shown in FIG. 3, a pedestrian situation signal is generated by reading when the distance is suddenly getting closer or the behavior of the person behind is hiding to the left or right or showing an abnormal pattern. The first situation signal generation module 410 can increase the accuracy of signals for each pedestrian situation by learning these movement patterns through deep learning for each situation.

The second situation signal generation module 420 detects a movement or vibration pattern at a certain location using a GPS signal through an application installed on the user terminal 10 and generates an emergency situation signal when it determines that the elderly person living alone is in an emergency situation.

The third situation signal generation module 430 detects with a camera the movement of a vehicle or person approaching a security light connected to a beacon and a short-range communication network through an application installed on the user terminal 10, and determines the location of the user terminal 10. generates a collision risk signal.

The server 500 receives the location information of the user terminal 10 and the situation signal of the signal generator 400 from the beacon 300, determines a preset dangerous situation based on the received signal, and detects the user terminal 10. A control signal for each dangerous situation is transmitted to the second user terminal 20 or the two-way flasher 200 connected to.

The server 500 of the road lighting security system according to an embodiment of the present invention receives the location information of the corresponding user terminal 10 and the situation signal of the signal generator from the beacon, and based on the location information of the user terminal 10 The colored light of the security light is varied using a two-way flasher installed on the security light according to the moving direction of the user terminal 10 and the approach distance to the security light. This has the effect of preventing accidents by encouraging pedestrians and drivers to detect a dangerous situation in advance according to the variable color light of the security light.

In addition, the server 500 receives the location information of the user terminal 10 and the situation signal of the signal generator from the beacon, and determines the direction of movement of the user terminal 10 and security etc. based on the location information of the user terminal 10. Depending on the approach distance, a two-way flasher installed on the security light controls the on and off control signal of the security light differently depending on the preset situation. With this configuration, the road lighting security system according to this embodiment has the effect of quickly recognizing the dangerous situation in the nearby area through the corresponding user terminal 10 or security light 100.

Figure 4 is a diagram for explaining the service implementation of a road lighting security system according to an embodiment of the present invention. The smart security light flasher safety linkage service of the road lighting security system according to an embodiment of the present invention is such that when an emergency is reported through a mobile app such as a smartphone at dark night, surrounding smart security lights flash and the responding police quickly recognize the scene. So that you can deal with the situation. In addition, the security light blinks to draw attention to the dangerous situation of people around the site.

As shown in Figure 4, when the road lighting security system according to an embodiment of the present invention detects an emergency report through a mobile app such as a smartphone at the autonomous district control center, it transmits the situation to the resident police and instructs an on-site dispatch signal to respond to the situation. Radio waves are sent to the scene, and security lights are flashed when an emergency is reported through a mobile app.

In addition, the road lighting security system according to an embodiment of the present invention performs safe return monitoring through a mobile app and approaches near the security light when monitoring safe return through IoT communication between the user running the mobile app and the security light flasher. When doing so, ensure that the lighting at the location becomes brighter.

The range of interworking with the mobile app, which is a user terminal to provide security services of the road lighting security system according to this embodiment, is transmission of an Ansim app emergency reporting start/end signal, transmission of an Ansim app safe return monitoring start/end signal, 1 minute ( Emergency report), automatically shuts off if no signal is received for more than 1 to 5 minutes (safe return). From a technical perspective, it is compatible with both Android and IOS, and when an emergency report is made through the mobile app, it provides a function to blink streetlights at the location and stops blinking when the emergency report ends. In addition, the road lighting security system increases the brightness (illuminance) of streetlights at the beginning of safe return when safe return (monitoring) is done through the mobile app on the user's terminal, and controls it to return to normal brightness at the end of safe return.

Figure 5 is a diagram showing a smart streetlight operation process in conjunction with a user terminal of a road lighting security system according to an embodiment of the present invention. As shown in Figure 5, the road lighting security system generates a start/end signal according to an emergency report event and transmits a flashing control command through a mobile app (Ansim E-app) on the user terminal. In addition, the road lighting security system generates start/end signals according to home monitoring events and transmits illumination brightness control commands during home monitoring. At this time, the smart streetlight operates in Advertise mode and Broadcast mode through BLE communication (I-Beacon) when approaching within a radius of 5 to 20 meters according to the operation of the mobile app on the user terminal.

Figure 6 is a diagram for explaining the operation between the user terminal of the road lighting security system and the smart security light flasher device according to an embodiment of the present invention. As shown in Figure 6, APP ADV (broadcast) data is transmitted to the beacon of the smart security light flasher through the mobile app on the user terminal. In other words, when an emergency report start event occurs, a signal is transmitted in broadcast mode through a nearby smart security light flasher beacon, and when a safe return (monitoring) start event occurs, a signal is transmitted in broadcast mode through a nearby smart security light flasher beacon.

The beacon of the smart security light flasher of the road lighting security system according to this embodiment blinks if the APP ADV (broadcast) received data is an emergency report event, and if the APP ADV (broadcast) received data is not relieved for 1 minute, it returns to the basic function. Let's switch. In addition, the road lighting security system controls the brightness of the light and runs brightly when the safe APP ADV (broadcast) received data is a safe return event, and switches to the basic function if the safe APP ADV (broadcast) received data is not received for 1 to 5 minutes. do.

Here, the basic function includes functions such as waiting for input of the start/end of an emergency report event or homecoming monitoring event.

According to one embodiment of the present invention, by detecting objects through CCTV images near security lights and providing a life safety service, children are prevented from seeing due to invisible viewing angles due to vehicles parked around alleys or narrow intersections where security lights are installed. It has the effect of resolving the safety of pedestrians, including the elderly and the weak.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it will be clear to those skilled in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention.

100: Security light
200: Two-way flasher
300: Beacon
400: signal generation unit
410: First situation signal generation module
420: Second situation signal generation module
430: Third situation signal generation module
500: Server

Claims (6)

Security lights (100) with multiple cameras installed at regular intervals,
A two-way flasher (200) installed in the security light to control the turning on and off of each security light,
A beacon (300) installed in the security light to form a short-range communication network in a certain area,
It is connected to the user terminal through the beacon and the network, and sends a signal for each pedestrian situation according to the pedestrian movement pattern, an emergency situation signal according to the vibration pattern, and a collision risk situation signal based on the location of the user terminal through an application installed on the user terminal. A signal generator 400 and
Receives the location information of the user terminal and the situation signal of the signal generator from the beacon, determines a preset dangerous situation based on the received signal, and controls each dangerous situation with a second user terminal connected to the user terminal or the two-way flasher. Includes a server 500 that transmits signals,
When the signal generator 400 detects the pattern of the movement line using the GPS signal through the application installed on the user terminal and determines that an abnormal situation exists, it learns the movement pattern through deep learning for each situation and generates a signal for each pedestrian situation. , it detects a vibration pattern at a certain location using a GPS signal, determines an emergency situation, and generates an emergency situation signal, and detects the movement of a vehicle or person approaching the security light connected to the beacon and a short-range communication network with a camera to determine the location of the user terminal. Based on this, a collision risk situation signal is generated,
The server receives the location information of the user terminal and the status signal of the signal generator from the beacon, and uses a two-way flasher installed on the security light according to the direction of movement of the user terminal and the approach distance to the security light based on the location information of the user terminal. By varying the color light of the security light, pedestrians and drivers can detect in advance that it is a signal for each pedestrian situation, an emergency situation signal, or a collision risk signal according to the variable color light of the security light.
The beacon blinks when the APP ADV (broadcast) received data is an emergency report event through an application installed on the user terminal, and if the APP ADV (broadcast) received data is a safe return event, the beacon runs brightly by controlling the brightness of the illumination, and the APP A road lighting security system that switches the start/end of an emergency reporting event or homecoming monitoring event to an input standby function if there is no ADV (broadcast) reception data for a certain period of time.
According to paragraph 1,
The signal generator 400 is
A road lighting security system comprising a first situation signal generation module 410 that generates a pedestrian situation signal when it detects a movement pattern using a GPS signal through an application installed on the user terminal and determines that an abnormal situation is present. .
According to paragraph 1,
The signal generator 400 is
It is characterized by including a second situation signal generation module 420 that generates an emergency situation signal when it is determined that an emergency situation of an elderly person living alone is detected by detecting a movement or vibration pattern at a certain location using a GPS signal through an application installed on the user terminal. road lighting security system.
According to paragraph 1,
The signal generator 400 is
A third situation signal is generated that detects the movement of a vehicle or person approaching a security light connected to the beacon and a short-range communication network through an application installed on the user terminal with a camera and generates a collision risk situation signal based on the location of the user terminal. A road lighting security system comprising a module (430).
delete According to paragraph 1,
The server 500 is
The location information of the user terminal and the situation signal of the signal generator are received from the beacon, and the security light is activated by a two-way flasher installed on the security light according to the direction of movement of the user terminal and the approach distance to the security light based on the location information of the user terminal. A road lighting security system characterized by controlling the on and off control signals differently according to preset situations.