counter unmanned aircraft systems (CUAS) refer to a set of technologies and strategies designed to detect, track, and neutralize or mitigate the threat posed by unmanned aircraft systems (UAS), commonly known as drones. CUAS solutions are employed to protect critical infrastructure, secure public events, and enhance military and defense capabilities. the primary objective of CUAS is to prevent unauthorized or hostile drones from entering restricted airspace or engaging in malicious activities.
CUAS systems use a variety of sensors, such as radar, electro optical and infrared cameras, radio frequency detectors, acoustic sensors, and more to identify and locate drones within their operational range. once a drone is detected, the system can track its movement and monitor its flight path to determine its intentions and potential threats it may pose.
the CUAS systems can classify the detected drones, distinguishing between commercial, recreational, or authorized drones and potential hostile or unauthorized drones. if a hostile or unauthorized drone is identified and deemed a threat, a CUAS system may employ various countermeasures to neutralize the drone. These countermeasures can include jamming the drone's communication links, disrupting its navigation systems, using directed energy weapons to physically disable or capture the drone, or even launching other drones to intercept and capture the intruding UAV.
CUAS systems provide real-time alerts and warnings to security personnel, enabling them to respond appropriately to the drone threat. This can involve evacuating an area, intercepting the drone, or initiating other security protocols.
CUAS technology is evolving rapidly as the use of drones becomes more widespread and diverse. It is essential for protecting sensitive areas, such as military bases, airports, critical infrastructure, and public events, against the potential security risks associated with drones. CUAS systems are used in both civilian and military contexts and are designed to offer a multifaceted defense against drone threats.
the choice of counter-drone measures depends on the environment, and the regulatory framework in place. effective counter-drone strategies often involve a combination of technologies and protocols. countering drones, as counter-drones or anti-uav defense system (AUDS), is essential in scenarios where unauthorized or potentially malicious drone activity poses risks or disrupts operations. countering drones can involve various technologies and strategies to mitigate the threat.
types | CUAS1030 anti-UAV luggages | ||||||||
identification model: | brand drone, consumer drone, non-standard drone, WIFI drone, traversal drone | ||||||||
detection range: | 20MHz~6GHz | ||||||||
scanning frequency band: | 800MHz, 900MHz, 1.4GHz, 2.4GHz,,5.8GHz, | ||||||||
omnidirectional detection distance: | greater than 4km | ||||||||
analytical positioning distance: | 2km | ||||||||
analytical positioning accuracy: | less than 10m | ||||||||
network positioning accuracy: | less than 20m | ||||||||
analysis information: | UAV SN code, speed, altitude, position, pilot position | ||||||||
counterattack distance: | greater than 1km | ||||||||
dry to ton ratio: | 10:1 | ||||||||
eorking temperature: | 10 degrees ~ 55 degrees | ||||||||
power supply mode: | lithium battery, AC220V | ||||||||
battery capacity: | 130Wh | ||||||||
working time: | 60min | ||||||||
protection level: | IP66 | ||||||||
size: | 360mm*293mm*92mm | ||||||||
weight: | 6.5kg | ||||||||
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