The construction plan of the land perimeter prevention system is designed to meet the perimeter protection needs of important places such as the current base training ground. A comprehensive prevention system integrating radar detection, photoelectric monitoring, and intelligent analysis is designed. The system fully utilizes the long-distance detection ability of radar and the high-precision recognition ability of photoelectric equipment. Through radar-photoelectric linkage, it realizes all-weather, OurHours, and all-round monitoring of the perimeter area. At the same time, combined with advanced technologies such as GIS map positioning and intelligent analysis algorithms, the system can automatically detect, track, identify, and alert illegal intrusion targets, effectively improving the intelligent level and response speed of perimeter protection. In addition, the system also has functions such as self-inspection and online monitoring of equipment status to ensure long-term stable operation. This scheme is not only suitable for complex environments such as military bases and training grounds, but also can be widely used in various places that require high security protection.
The construction plan of the land perimeter defense system aims to build an efficient and reliable perimeter security defense system by introducing advanced radar detection and optoelectronic monitoring technology to solve the problems of high labor intensity, low efficiency, and high risk in current manual patrol protection. The specific goals include:
achieving full coverage and high-precision real-time monitoring of the perimeter area; improving the intelligence level of perimeter intrusion prevention, reducing false alarm and false alarm rates; enhancing the unmanned duty capability of the system, reducing labor costs; improving the environmental adaptability and reliability of the system, ensuring stable operation under adverse weather and complex terrain conditions; at the same time, through intelligent analysis algorithms and GIS map positioning technology, achieving rapid detection, tracking, identification, and alarming of illegal intrusion targets, providing timely and accurate decision-making support for the command center. The ultimate goal is to create an all-weather, all-dimensional, and intelligent perimeter security prevention system to ensure the safety and stability of important places.
The system has the ability to continuously monitor the perimeter area in all-weather and OurHours periods. Regardless of any weather conditions such as day and night, rain and haze, the system can maintain efficient and stable operation. By using high-performance optoelectronic equipment and advanced image processing technology, even in low light or harsh weather conditions, target images can be clearly captured to ensure comprehensive coverage and real-time monitoring of the perimeter area.
The system integrates two technical means, radar detection and optoelectronic monitoring, to achieve radar-optoelectronic linkage detection. The radar equipment is responsible for long-distance scanning and discovering targets. Once a suspicious target is found, the target information is immediately transmitted to the optoelectronic equipment. The optoelectronic equipment quickly locks, tracks, and images the target based on the information provided by the radar, ensuring accurate recognition and tracking of the target. This linkage mechanism greatly improves the response speed and accuracy of the system, and reduces the false alarm rate and missed alarm rate.
The system is equipped with advanced intelligent analysis algorithms, which can perform real-time analysis on surveillance videos. Through technical means such as Object Detection, tracking, and behavior analysis, it automatically identifies illegal intrusion behaviors such as boundary crossing, wandering, and detention, and immediately triggers an alarm mechanism. The alarm information will be notified to relevant personnel through various methods such as sound, light signals, and text messages to ensure timely processing. At the same time, the system also supports recording and playback of alarm events to provide evidence support for subsequent investigations.
The system can integrate multiple sources of information such as radar, visible light, and infrared for comprehensive analysis and processing. By complementing multiple sources of information, the accuracy and reliability of target recognition can be improved. For example, radar provides distance, speed, and azimuth information of the target, visible light cameras provide intuitive images of the target, and infrared cameras provide thermal imaging images at night or in harsh weather conditions. After fusion processing, this information can form a comprehensive and multi-angle description of the target, providing more comprehensive decision support for the command center.
The system combines GIS map technology to display the real-time location information of the monitored target on the electronic map. Users can visually view the distribution, movement trajectory, and surrounding environmental information of the target through the map. At the same time, the system also supports setting up electronic fences and sensitive areas on the map, and automatically triggers alarms when the target enters these areas. This GIS-based map positioning and display function greatly improves the intuitiveness and efficiency of command and dispatch.
The system is equipped with a highly accurate laser warning module to remotely warn and drive away illegal intrusion targets. Once a suspicious target is found approaching the perimeter area, the system immediately activates the laser warning device and warns the target by emitting a high-intensity green laser beam of light. At the same time, the system can also link with other security equipment (such as sound and light alarms, cameras, etc.) for joint disposal to ensure effective containment of illegal intrusion behavior.
The system has powerful self-checking functions and online monitoring capabilities for equipment status. By regularly inspecting and testing various components of the system, equipment faults can be discovered and reported in a timely manner. At the same time, the system can also monitor the operating status and performance parameters of the equipment in real-time (such as voltage, current, temperature, etc.) to ensure that the equipment operates in the best condition. Once an abnormal situation is found, the system immediately triggers an alarm mechanism and notifies relevant personnel to handle it, ensuring the long-term stable operation of the system.
The system supports remote control and automated management functions. Users can remotely configure, control, and monitor the system through the upper computer software platform. No matter where they are, users can view the monitoring screen, adjust monitoring parameters, and receive alarm information in real time. At the same time, the system also supports automated management functions, such as automatic inspection, automatic recording, and automatic playback, greatly reducing the burden of manual monitoring and improving the efficiency and quality of security work.
