RU2692962C1 - Open areas protection system - Google Patents

Abstract

FIELD: security systems.

SUBSTANCE: invention relates to means of protecting open areas. System consists of a stationary post including a video server connected to a communication unit and an automated workstation. Linear post consists of at least one group of devices, comprising a stationary video camera, connected to a controller of a linear post and with a security alarm, a high-speed rotary video camera, equipped with infrared illumination, transmitting data through a data transmission device installed on the mast of fastening equipment.

EFFECT: control of perimeter, approaches and paths of movement to objects on extended sections of terrain.

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Description

The invention relates to the field of protection of open areas, perimeters, approaches and paths of movement to important objects, remote from stationary parts for a considerable distance and is used to organize the protection and intellectual video surveillance of large open spaces and borders of the state border.

Small-frame surveillance system is known from the prior art for monitoring extended guard lines (RF Patent No. 2517042, priority from 04.24.2012, IPC G08B 25/08, G08B 13/196, H04N 7/18), consisting of a central unit (point) control and multiple groups of geographically distant addressable video cameras connected to the central control unit using a switching channel. The switching channel is designed as a network for transmitting digital information through a two-way serial communication interface. Twenty-four-hour video surveillance is carried out by using video cameras in day / night mode with illuminated viewing area of video cameras at night using infrared illuminators.

Also, the intelligent network monitoring system of the protected area (RF patent №2629521, priority from 05.17.2016, IPC G08B 13/00), consisting of the central control point, the TSS group and the group of technical means of video surveillance, is known from the prior art. TSOs contain alarm sensors that operate on different physical principles: seismic, radio wave, infrared, magnetometric, radio beam and breakaway. Technical means of video surveillance contain small-frame video surveillance systems, made with the possibility of selection of pre-alarm, alarm and post-alarm video information. Technical means of detection are interconnected and with the central control center, forming the first peer-to-peer radio network at the frequency of the first radio channel of communication. Technical surveillance equipment is interconnected and with the central control center, forming a second peer-to-peer radio network at the frequency of the second radio communication channel. Both radio networks are self-organizing and made with the possibility of automatic restructuring of information transmission routes according to the criterion of the best quality of radio communication. Information processing in the system is carried out with the possibility of using intelligent algorithms to achieve the maximum detection probability and the minimum number of false alarms.

The disadvantages of these inventions are the use of separate IR illuminators, leading to the use of an excessive number of devices, the complexity of the design, the complexity of installation and the increase in electricity consumption; the use of low-frame pre-alarm, alarming and post-alarm video information increases the probability of not recording and, accordingly, not saving important information; and the lack of sensors of its own security system as part of the system.

A video surveillance system is known from the state of the art (RF Patent No. 1,27500, priority from 12/21/2011, IPC G08B 13/00), containing a computer, a controller connected to it by communication channels, to which, in turn, communication channels are connected, at least , one video camera and security sensors connected to the controller, as well as a microphone, a webcam and a modem connected to the Internet connected to it. The computer is designed to overlay on the monitor screen a real image of the monitored object from the video camera on the image of this object stored in 3D in the computer’s memory upon request of the operator.

The disadvantage of this system is the lack of the possibility of its use in the dark due to the lack of a light source or IR illumination for cameras.

The prototype protection system of the protected area (RF patent No. 2642336, priority from 11.23.2015, IPC G08B 13/00), containing the subsystem for collecting and processing information and the associated video surveillance subsystem using video cameras equipped with backlight lasers, thermal imaging surveillance system with the help of thermal imagers, as well as the vibration detection subsystem. Subsystems for collecting and processing information are performed on the basis of a programmable microcontroller and are connected by an output to a control unit of a bidirectional interface. Thermal cameras and video cameras are equipped with optical filters with a passband that coincides with the frequency of the radiation from the backlight lasers and are installed along a linear portion of the border with alternation.

The disadvantages of this system are the use of thermal imagers and laser lights for conducting surveillance in the dark, as well as the use of special laser filters for video cameras, leading to a significant increase in the cost of the system, as well as to the complexity of installation, the use of additional equipment.

The technical objectives of the claimed invention are the automatic detection of penetration of the protected object; automatic intellectual detection of the intruder on the approaches to the protected object; and also visual confirmation of the fact of penetration.

The technical result in the field of automatic intelligent detection of the intruder and visual confirmation of the fact of penetration is achieved by the fact that the telemetry data of the line post via the Ethernet network through the video server of the stationary post of the open area protection system are displayed on the automated desktop screen, where special software processes and analyzes the incoming data on the subject of detection of the offender.

The technical result in the field of instrumental detection of penetration of a protected object is achieved by installing a linear security post in an open area of the protected area, equipped with fixed video cameras, security detectors and a PTZ camera equipped with a visually invisible IR LED that automatically turns on at night, as well as notification by sound and light signals of the operator when the system detectors or intelligent alarms are triggered Nia.

The use of the invention allows to control open extended areas of the terrain, perimeters, approaches and paths of movement to important objects, remote from stationary parts at a considerable distance.

The composition of the security system in open areas is illustrated in FIG. one.

The composition of the workstation is illustrated in FIG. 2.

The arrangement of the component parts of the linear post is further illustrated in FIG. 3

Structurally, the video surveillance system consists of a stationary 1 and a linear 2 post.

Structurally, the stationary post 1 consists of a video server 3 connected by one input / output with a stationary communication unit 4, one input / output with an uninterruptible power supply 5, and one input / output with an automated workstation 6, with the realized possibility of connecting a keyboard and a manipulator of the “ mouse".

Stationary post 1 provides audible and visual alarms, manual control of video cameras and detectors, information display in the “real” time scale, with a choice of the number of simultaneously displayed video channels, the number of windows of archive video channels and / or other information, reception, as well as its storage and archiving , the ability to view the electronic event log and the current state of the equipment.

Video server 3 is a hardware video recorder designed for storing, displaying information obtained from video cameras and detectors through an independent workplace.

Stationary communication unit 4 is designed to organize data transfer between the stationary 1 and line 2 posts over an Ethernet network.

Uninterruptible power supply 5 is designed to protect the video server 3 and workstation 6 from the main problems with power supply: high-voltage emissions, electromagnetic and radio frequency interference, depressions, increases and the complete disappearance of the voltage in the mains.

Workstation 6 (Fig. 2) is intended for remote viewing of video images of cameras 7 and 10 in real-time mode, viewing video archives located on a video server 3 storage device, displaying faults in the line post 2 components, and graphical representations of the security perimeter with security detector icons 9 and / or video cameras 7, 10 and their states, control on and / or deactivation of security detectors 9 and video cameras 7, 10.

Line post 2 provides continuous monitoring of open extended terrain, perimeters, approaches, and / or paths of movement to important objects that are remote from stationary post 1 at a considerable distance.

Linear post 2 constructively consists of at least one group of devices containing at least one stationary video camera 7, equipped with IR illumination and connected to the first input / output of the controller 8 linear post connected to the second input / output with at least one security detector 9, a third input / output with at least one high-speed PTZ video camera 10, equipped with IR illumination, a fourth input / output connected to at least one data transmission device 11, a fifth input / output a house connected to at least one power supply 12; as well as at least one mast attachment equipment.

The equipment mounting mast is designed to accommodate optoelectronic equipment and electronic equipment necessary for the organization of the perimeter security system.

Structurally, the mast is a vertical metal structure. The masts designed to install a speed dome camera 10 and a linear post controller 8 are supplied with a lightning conductor.

Stationary video camera 7 is designed to convert the image coming through the lens of a video camera to a sensitive element into an electrical signal, equipped with IR illumination and can be used in a wide range of temperatures and high humidity conditions at any time of the day.

Linear controller 8 is designed to organize an integrated object security system and provides for connection of stationary 7 and high-speed PTZ cameras 10, security detectors 9 and their power supply, as well as data transmission from connected devices and their power supply, as well as protection from impulse overvoltages.

High-speed PTZ video camera 10 is designed for use in the complete set of its own security line 2 and is equipped with IR illumination for working in the dark.

The security alarm detector 9 is designed to be used as a means of security alarm. Provides detection of a person crossing the detection area. Structurally, it consists of two units - a receiver and a transmitter, located at opposite ends of the protected area.

The data transmission device 11 is intended for organizing an Ethernet information network, as well as connecting loops of security detectors 9, stationary video cameras 7, converting the RS-485 interface into Ethernet, power supply voltage relaying and Ethernet information network. Structurally, it is a metal hermetic block mounted on a mast.

The power supply unit 12 provides for the connection of power consumers with an alternating current voltage converted from a single-phase AC network voltage. Structurally, it is a metal sealed unit equipped with a microswitch for opening, automatic voltage switches, power supply, a device for protection against deep discharge and a lightning protection device.

The video surveillance system works as follows.

Stationary video camera 7 is connected to the first input / output of the controller 8 of a linear post connected by a second input / output with at least one security detector 9, a third input / output with at least one high-speed PTZ video camera , a fourth input / output connected to at least one data transmission device 11, a fifth input / output connected to at least one power supply unit 12.

The image from the stationary video camera 7 via Ethernet enters the device 11 of the data transmission of the linear post 2 and further, via the Ethernet, through the stationary communication unit 4 of the fixed station 1 and the video server 3, is displayed on the monitor of the automated workplace 6 of the operator. In case a stationary camera 7 and / or detector 9 of a security moving object enters the control zone, a visual and / or sound indication is displayed on the graphical plan of the area displayed on the automated workplace 6 of the operator. At the same time, via the Ethernet channel, a signal is transmitted via the data transfer device 11 to the line post controller 8 for tracking the target with a stationary 7 and / or high-speed rotary 10 video camera.

The use of a video surveillance system allows you to control open extended areas of the terrain, perimeters, approaches and paths of movement to important objects, remote from stationary parts at a considerable distance.

Claims (1)

The security system of open areas of land, consisting of a stationary post, including a video server, a stationary communication unit, an uninterruptible power supply and an automated workplace, and a line post, consisting of at least one device group containing at least one fixed video camera, at least one linear post controller, at least one security detector, at least one high-speed PTZ video camera equipped with IR illumination, at least one transmission device data, at least one power supply unit and at least one equipment mounting mast, characterized in that at least one fixed video camera is connected to the first input / output of a linear post controller connected by a second input / output to at least one security detector, the third input / output with at least one high-speed PTZ video camera equipped with IR illuminator, the fourth input / output with at least one data transmission device, the fifth input / output with at least one block power eye; In this case, the line post data transmission device is connected by an Ethernet network with a stationary communication unit of a fixed station connected by one input / output with a video server, one input / output with an uninterruptible power supply, and one input / output with an automated workstation.

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