RU127866U1 - STREET LIGHTING REGULATION SYSTEM AND DETERMINATION OF OFFENSES AND EXTRAORDINARY ACCIDENTS - Google Patents

Abstract

1. A system for regulating street lighting and detecting offenses and extraordinary events, comprising at least one lamppost on which an illuminator, at least one video camera, a communication device, a data storage device and at least one warning device are mounted connected to the information processing unit and at least one power supply means, wherein the illuminator is connected to the information processing unit via the lighting control unit, and the communication device is connected to the remote center control or at least one similar communication device mounted on an adjacent lamppost, while the video camera is configured to fix the level of illumination near the lamp; fixing the approach / removal of at least one moving object near the lamp; fixing fires, smoke and natural disasters in the field of view and transmitting data to the information processing unit, which is capable of analyzing data on the current level of illumination near the lamp, determining the corresponding value of light intensity, while comparing the current value of the level of illumination with a given threshold value, and setting a certain value of the light intensity of the illuminator by means of the lighting control unit; transmitting data from the video camera to the remote control center and receiving from the remote control center via the communication device the corresponding at least one control signal selected from a set of control signals, including a signal for changing the level of illumination, a signal for activating warning devices�

Description

The utility model relates to non-portable lighting devices and systems, namely to systems for regulating street lighting and determining offenses and emergency incidents, and can be used as part of a street lighting system for roads.

Currently, there are separate systems of lighting, video monitoring, alerts, which are controlled by separate communication lines located on lighting poles that clutter up the space and sometimes interfere with each other. In addition, in these systems there is no synergistic effect - when the required degree of illumination, and accordingly the energy consumption, is determined by the current situation directly at the installation site.

Closest to the claimed utility model is an automated road lighting control system (RF patent No. 2453761), containing lamps controlled centrally from a remote control center by an astronomical clock, the input of which is connected to a three-phase AC voltage, characterized in that it is additionally introduced light sensor, first, second and third switches, first, second, third and fourth video cameras mounted in pairs on the extreme supports of the illuminated area, four anal video motion detector, first, second and third timers, fog sensor and icing sensor. This system is selected as a prototype of the claimed utility model.

The disadvantages of the prototype system are that in addition to video cameras, additional sensors are used to determine illumination and emergency situations, such as ice and fog, which complicates the design of the system, increasing its cost; in addition, this system does not allow determining the intensity of vehicle traffic, offenses, smoke, and other non-staff incidents.

The objective of the claimed utility model is to create a system for regulating street lighting and detecting offenses and emergencies with a simpler and cheaper design by using only cameras to record the external situation, and for determining illumination, offenses and emergencies, only one information processing unit; as well as with increased functionality due to the possibility of the simultaneous determination of not only the illumination, but also offenses and emergency incidents.

The problem is solved by creating a system for regulating street lighting and detecting offenses and emergencies, containing at least one lamppost on which the illuminator, at least one video camera, communication device, data storage device, and at least one warning means connected to the information processing unit, and at least one power supply means, the illuminator being connected to the information processing unit via the lighting control unit, and GUSTs connection is connected to a remote control center or the at least one similar communication device, mounted on a nearby lamppost, with the video camera configured to clamp illuminance near the lantern; fixing the approach / removal of at least one moving object near the lamp; fixing fires, smoke and natural disasters in the field of view and transmitting data to the information processing unit, which is capable of analyzing data on the current level of illumination near the lamp, determining the corresponding value of light intensity, while comparing the current value of the level of illumination with a given threshold value, and setting a certain value of the light intensity of the illuminator by means of the lighting control unit; transmitting data from the video camera to the remote control center and receiving from the remote control center via the communication device the corresponding at least one control signal selected from a set of control signals, including a signal for changing the level of illumination, a signal for switching on warning devices and a control signal for the video camera, and transmitting a control signal to at least one of the devices selected from a set of devices comprising a lighting control unit, warning equipment, and a video camera; analysis of the data of at least one moving object, determining the direction and other parameters of the movement of the object, determining the value of the light intensity in accordance with a certain direction and other parameters of the movement of the object, as well as in accordance with a predetermined threshold value of illumination and setting a certain value of the light intensity of the illuminator by means of the lighting control unit, as well as transmitting certain directions and other parameters of the object’s movement to at least one similar a communication device mounted on an adjacent lamppost located in the direction of movement of the object, in order to create a wave of illumination; analysis of the data of at least one moving object, determining the direction and other parameters of the object’s movement and transmitting certain directions and other parameters of the object’s motion to the remote control center for further traffic traffic counting, in particular for the purpose of subsequent control of traffic lights; analyzing the data of at least one moving object, determining the direction and other parameters of the object’s movement, while recognizing traffic violations (Rules of the Road) and traffic violators, as well as transmitting the recognized data to a remote control center via a communication device; analyzing the data of at least one moving object, determining the parameters of the object’s movement, while recognizing the accumulation / movement of a group of people and transmitting data about the recognized accumulation / movement of a group of people to a remote control center via a communication device for the subsequent determination of the validity of the accumulation / movement of a group of people ; analysis of data on fires, smokes and natural disasters in the camera’s field of view, detection of fires, smokes and natural disasters, as well as generation and transmission of an alarm signal to a remote control center and receiving a signal from the remote control center via a communication device and transmitting it to alert tool; archival recording / reading of data from video cameras to a data storage device; Archive recording / reading of incoming / outgoing data to a data storage device.

In a preferred embodiment, the system comprises a wireless communication device comprising at least one device selected from a set of devices comprising a GSM module and a radio modem.

In a preferred embodiment, the system comprises a wired communication device.

In a preferred embodiment, the system comprises a wireless and wired communication device including at least one device selected from a set of devices comprising a GSM module and a radio modem.

In a preferred embodiment of the system, the illuminator and at least one video camera are made in one housing.

In a preferred embodiment of the system, the warning means is selected from the set of warning means comprising a speaker, a flashing light, a microphone.

In a preferred embodiment of the system, the power supply is selected from a set of power supplies comprising a street lighting network, a battery, a battery, a solar battery.

In a preferred embodiment of the system, the data storage device is selected from a set of data storage devices comprising flash memory and a hard disk.

In a preferred embodiment of the system, the information processing unit is configured to recognize traffic violations selected from a set of traffic violations that include speeding, red traffic lights, a pedestrian crossing the road, a traffic lane allocated for public transport.

In a preferred embodiment of the system, the information processing unit is configured to recognize traffic violators 'data, namely license plates of traffic violators' cars.

For a better understanding of the proposed utility model, its detailed description with the corresponding graphic materials is given below.

Figure 1. Scheme of an embodiment of a system for regulating street lighting and determining offenses and emergency events according to a utility model.

Consider an embodiment of the claimed system, presented in the figure.

The system for regulating street lighting and detecting offenses and extraordinary incidents contains lampposts, each of which has a light 1, a wide-angle video camera 2, two video cameras 3 for side viewing and number recognition, a communication device 4 comprising a GSM module 5 and a radio modem 6, a device 7 data storage, and two means of notification (loudspeaker 8 and microphone 9) connected to the information processing unit 10. In addition, the system comprises a power supply means 11, which is a street lighting network. The lighter 1 is connected to the information processing unit 10 through the lighting control unit 12. The communication device 4 is connected to a remote control center 13 and similar communication devices mounted on adjacent lampposts.

The system operates as follows. Video cameras 2, 3 record the level of illumination near the lamp; approaching / removing at least one moving object near the flashlight; fire, smoke and natural disasters in the field of view and transmit data to the information processing unit 10. The information processing unit 10 performs the following functions.

To control the light intensity of the lantern depending on the time of day, the information processing unit 10 analyzes the data obtained from the wide-angle video camera 2 about the current illumination level near the lantern, determines the corresponding value of the light intensity, and compares the current value of the illumination level with a given threshold value, and sets the determined value of the light intensity of the illuminator 1 by means of the lighting control unit 12.

To notify the remote control center 13 about the environment and receive instructions from it, the information processing unit 10 transmits data from cameras 2-3 to the remote control center 13 and receives from the remote control center 13 through the communication device 4 at least one control signal selected from a set of control signals, including a signal for changing the level of illumination, a signal for switching on warning devices (loudspeaker 8) and a control signal for a video camera, and also transmits a control signal, p at least one device selected from the set of devices, comprising a lighting control unit 12, a speaker 8 and video camera 2-3.

To control the light intensity of the lantern depending on the location of vehicles and pedestrians near it, the information processing unit 10 analyzes the data obtained from the video cameras 2-3 of at least one moving object (vehicle or pedestrian), determines the direction and other parameters of the object’s movement, determines the value of light intensity in accordance with a certain direction and other parameters of the object’s movement, as well as in accordance with a given threshold value of illumination and setting there is a certain value of the light intensity of the illuminator 1 through the lighting control unit 12, and also transmits certain directions and other parameters of the object’s movement to at least one similar communication device 4 mounted on an adjacent lamppost located in the direction of the object’s movement, in order to create waves of lighting.

To collect data on traffic traffic near the lantern, the information processing unit 10 analyzes the data obtained from video cameras 2-3 of at least one moving object, determines the direction and other parameters of the object’s movement, and transfers certain direction and other parameters of the object’s movement to the remote control center 13 for further counting traffic traffic, in particular with a view to the subsequent management of traffic lights.

To collect data on traffic violations (Rules of the Road) near the lantern, the information processing unit 10 analyzes the data obtained from video cameras 2-3 of at least one moving object, determines the directions and other parameters of the movement of the object, while recognizing traffic violations and violators' data SDA, and also transmits the recognized data to the remote control center 13 through the communication device 4.

To determine the unauthorized crowding of people near the flashlight, the information processing unit 10 analyzes the data obtained from the video cameras 2-3 of at least one moving object, determines the motion parameters of the object, recognizes the accumulation / movement of a group of people, and transmits data about the recognized accumulation / movement of the group people to the remote control center 13 through the communication device 4 for the subsequent determination of the authorization of the accumulation / movement of a group of people.

To determine other emergency events near the flashlight, the information processing unit 10 analyzes data on these emergency events, namely, fires, smoke, and natural disasters in the camera’s field of view, detects fires, smoke, and natural disasters, and also generates and transfers it to the remote control center 13 an alarm signal and receives from the remote control center 13 through the communication device 4 a signal to turn on the loudspeaker 8 and transmits it to the loudspeaker 8.

In addition, the information processing unit 10 is configured to archive data recording / reading from video cameras 2-3 and other system elements to the data storage device 7.

The claimed utility model can be used to provide energy savings in the construction of roads, roads and other territories; to increase the throughput of roads by controlling traffic traffic vehicles; to improve road safety, due to automatic monitoring of compliance with traffic rules; for the suppression of crime and delinquency due to automatic recording and recognition of hooligan actions (fights, attacks, etc.) and mass crowds, as well as for sound (loudspeaker) and light warning of the population.

Although the above embodiment of the utility model has been set forth to illustrate the present utility model, it is clear to those skilled in the art that various modifications, additions and replacements are possible without departing from the scope and meaning of the present utility model disclosed in the attached utility model formula.

Claims (10)

1. A system for regulating street lighting and detecting offenses and extraordinary events, comprising at least one lamppost on which an illuminator, at least one video camera, a communication device, a data storage device and at least one warning device are mounted connected to the information processing unit and at least one power supply means, wherein the illuminator is connected to the information processing unit via the lighting control unit, and the communication device is connected to the remote center control or at least one similar communication device mounted on an adjacent lamppost, while the video camera is configured to fix the level of illumination near the lamp; fixing the approach / removal of at least one moving object near the lamp; fixing fires, smoke and natural disasters in the field of view and transmitting data to the information processing unit, which is capable of analyzing data on the current level of illumination near the lamp, determining the corresponding value of light intensity, while comparing the current value of the level of illumination with a given threshold value, and setting a certain value of the light intensity of the illuminator by means of the lighting control unit; transmitting data from the video camera to the remote control center and receiving from the remote control center via the communication device the corresponding at least one control signal selected from a set of control signals, including a signal for changing the level of illumination, a signal for switching on warning devices and a control signal for the video camera, and transmitting a control signal to at least one of the devices selected from a set of devices comprising a lighting control unit, warning equipment, and a video camera; analysis of the data of at least one moving object, determining the direction and other parameters of the movement of the object, determining the value of the light intensity in accordance with a certain direction and other parameters of the movement of the object, as well as in accordance with a predetermined threshold value of illumination and setting a certain value of the light intensity of the illuminator by means of the lighting control unit, as well as transmitting certain directions and other parameters of the object’s movement to at least one similar a communication device mounted on an adjacent lamppost located in the direction of movement of the object, in order to create a wave of illumination; analysis of the data of at least one moving object, determining the direction and other parameters of the object’s movement and transmitting certain directions and other parameters of the object’s motion to the remote control center for further traffic traffic counting, in particular for the purpose of subsequent control of traffic lights; analyzing the data of at least one moving object, determining the direction and other parameters of the object’s movement, while recognizing traffic violations (Rules of the Road) and traffic violators, as well as transmitting the recognized data to a remote control center via a communication device; analyzing the data of at least one moving object, determining the parameters of the object’s movement, while recognizing the accumulation / movement of a group of people and transmitting data about the recognized accumulation / movement of a group of people to a remote control center via a communication device for the subsequent determination of the validity of the accumulation / movement of a group of people ; analysis of data on fires, smokes and natural disasters in the camera’s field of view, detection of fires, smokes and natural disasters, as well as generation and transmission of an alarm signal to a remote control center and receiving a signal from the remote control center via a communication device and transmitting it to alert tool; archival recording / reading of data from video cameras to a data storage device; Archive recording / reading of incoming / outgoing data to a data storage device. 2. The system according to claim 1, characterized in that it contains a wireless communication device containing at least one device selected from a set of devices containing a GSM module and a radio modem. 3. The system according to claim 1, characterized in that it contains a wired communication device. 4. The system according to claim 1, characterized in that it comprises a wireless and wired communication device, including at least one device selected from a set of devices containing a GSM module and a radio modem. 5. The system according to claim 1, characterized in that the illuminator and at least one video camera are made in one housing. 6. The system according to claim 1, characterized in that the warning means is selected from a set of warning means containing a loudspeaker, a flashing light, a microphone. 7. The system according to claim 1, characterized in that the power supply is selected from a set of power supplies containing a street lighting network, a battery, a battery, a solar battery. 8. The system according to claim 1, characterized in that the data storage device is selected from a set of data storage devices containing flash memory and a hard disk. 9. The system according to claim 1, characterized in that the information processing unit is capable of recognizing traffic violations selected from a set of traffic violations containing overspeed, red traffic lights, pedestrian crossing at a pedestrian crossing, traffic lane allocated for public transport. 10. The system according to claim 1, characterized in that the information processing unit is capable of recognizing traffic violators data, namely license plates of traffic violators cars.

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