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structural characteristics

• Radiation detection moduleUsually equipped with various types of radiation detectors, such as Geiger counters, scintillation detectors, etc., for detecting different types of radiation, including alpha; 、 β 、 γ Radiation such as X-rays and neutron radiation. These detectors have high sensitivity and can sense the radiation intensity and changes in the environment.
• Radar monitoring moduleIncludes key components such as transmitter, receiver, antenna, etc. The transmitter generates and emits electromagnetic waves, and the antenna directionally radiates the electromagnetic waves into space. When the electromagnetic waves encounter a target (such as an aircraft, vehicle, etc. that may have a radiation source), they will be reflected. The receiver receives the reflected electromagnetic waves and analyzes the distance, velocity, direction, and other information of the target through signal processing technology.
• Data Processing and Control SystemReal time processing and analysis of data obtained from radiation detection modules and radar monitoring modules. By using high-performance computers and data processing algorithms, it is possible to quickly identify the type, location, intensity, and characteristics of the radiation source and target, while controlling the operating status of the equipment, such as adjusting the detection parameters of the radar and the working mode of the radiation detector.
• Protection and carrier structureConsidering the special nature of the military environment and the potential harsh conditions it may face, the equipment casing has good protective properties such as radiation resistance, anti-interference, waterproofing, and dust-proof. The equipment is usually installed on trailers or vehicles to facilitate mobile monitoring in different areas. The device in the picture is installed on a trailer and has good maneuverability.

working principle

• Principles of Radiation DetectionTaking the Geiger counter as an example, when radiation particles enter the gas chamber inside the detector, they ionize the gas to produce electron ion pairs. Under the action of an electric field, electrons and ions move towards electricity to form current pulses. By counting and analyzing the current pulses, the intensity of radiation can be determined. A scintillation detector uses radiation to make a scintillator emit light, and converts the light signal into an electrical signal through a photomultiplier tube for measurement.
• Principles of Radar MonitoringThe transmitter generates high-frequency electromagnetic waves, which are radiated out through the antenna. When the electromagnetic waves encounter the target, some of the energy is reflected back, and the receiver receives the reflected signal. By measuring the time difference between the transmitted signal and the received signal, the distance between the target and the device can be calculated; By utilizing the Doppler effect to analyze the frequency changes of reflected signals, the velocity of the target's motion can be obtained; Based on the direction of the antenna, the orientation of the target can be determined.
• Data Fusion and AnalysisThe data processing and control system integrates radiation detection data and radar monitoring data, and uses algorithm analysis to determine whether the target carries a radiation source, as well as the relevant parameters of the radiation source and the attributes of the target, in order to provide accurate information for military decision-making.

Application scenarios

• Military base securityReal time monitoring of the surrounding areas of military bases, timely detection of suspicious targets that may carry radiation sources, prevention of enemy use of radioactive materials for destruction or reconnaissance activities, and ensuring the safety of military bases.
• Battlefield environment monitoringOn the battlefield, it is used to detect possible radioactive weapons or nuclear facility leaks that the enemy may use, provide environmental safety information for military operations, and help develop combat plans and protective measures.
• Border Patrol MonitoringMonitor passing personnel, vehicles, aircraft, etc. in border areas to prevent illegal entry of radiation sources and maintain safety.

advantage

• Multi functional monitoringIntegrating radiation detection and radar monitoring functions, it can obtain information from multiple dimensions, improve the ability to monitor and identify targets, and effectively respond to complex military scenarios.
• High sensitivity and sensitivityThe radiation detection module and radar monitoring module both have high sensitivity and accuracy, which can quickly and accurately detect and locate radiation sources and targets, providing reliable data support for military operations.
• Strong maneuverabilityInstalled on trailers or vehicles, it facilitates rapid deployment and mobile monitoring in different areas, adapting to various complex terrains and task requirements.

limitation

• High technical complexityThe equipment integrates multiple technologies such as radiation detection, radar technology, and data processing, making it difficult to develop, manufacture, and maintain. It requires technical personnel and a large amount of capital investment.
• Environmental adaptability challengesAlthough the equipment has certain protective performance, it may be affected by harsh environmental conditions such as strong electromagnetic interference and weather conditions, which may affect the performance and reliability of the equipment. Therefore, continuous technical optimization and improvement are needed.