Counter UAV

Counter UAV

Counter UAV

Sculptural Serenity
Sculptural Serenity

In the evolving landscape of modern warfare, technology continues to redefine the boundaries and tools of conflict. This past decade has seen a significant shift with the introduction of high-speed, cost-effective unmanned aerial vehicles (UAVs), presenting new challenges for military defenses worldwide. These UAVs, capable of versatile and remote operations, offer a stark economic advantage in warfare: a single F-35 jet, for instance, costs more than fifty thousand of these kamikaze UAVs. This disparity allows aggressors to engage in combat economically and from a distance, posing a substantial threat to both mobile military assets like tanks and critical stationary installations such as sensitive military bases. Furthermore countermeasures such as missiles traditionally used to neutralize these UAVs, often come at a cost up to a hundred times that of a single UAV, compounding the challenge of defending against these cost-efficient aerial weapons.

Our defense architecture comprises two interconnected components powered by artificial intelligence: the detection system and the targeting system. These units collaboratively engage to first identify and then neutralize incoming threats with high efficiency. The detection system utilizes acoustic triangulation to locate approaching threats within a few meters and to measure their direction and speed. Subsequently, the targeting system employs high-precision LiDAR to accurately aim at and autonomously initiate countermeasures against these high-speed identified targets up to 700 meters away.

This system mirrors the way a human might shoot down an incoming UAV—using the drone's sound to determine its general location and a rifle's scope for precise targeting and firing.

In the evolving landscape of modern warfare, technology continues to redefine the boundaries and tools of conflict. This past decade has seen a significant shift with the introduction of high-speed, cost-effective unmanned aerial vehicles (UAVs), presenting new challenges for military defenses worldwide. These UAVs, capable of versatile and remote operations, offer a stark economic advantage in warfare: a single F-35 jet, for instance, costs more than fifty thousand of these kamikaze UAVs. This disparity allows aggressors to engage in combat economically and from a distance, posing a substantial threat to both mobile military assets like tanks and critical stationary installations such as sensitive military bases. Furthermore countermeasures such as missiles traditionally used to neutralize these UAVs, often come at a cost up to a hundred times that of a single UAV, compounding the challenge of defending against these cost-efficient aerial weapons.

Our defense architecture comprises two interconnected components powered by artificial intelligence: the detection system and the targeting system. These units collaboratively engage to first identify and then neutralize incoming threats with high efficiency. The detection system utilizes acoustic triangulation to locate approaching threats within a few meters and to measure their direction and speed. Subsequently, the targeting system employs high-precision LiDAR to accurately aim at and autonomously initiate countermeasures against these high-speed identified targets up to 700 meters away.

This system mirrors the way a human might shoot down an incoming UAV—using the drone's sound to determine its general location and a rifle's scope for precise targeting and firing.

In the evolving landscape of modern warfare, technology continues to redefine the boundaries and tools of conflict. This past decade has seen a significant shift with the introduction of high-speed, cost-effective unmanned aerial vehicles (UAVs), presenting new challenges for military defenses worldwide. These UAVs, capable of versatile and remote operations, offer a stark economic advantage in warfare: a single F-35 jet, for instance, costs more than fifty thousand of these kamikaze UAVs. This disparity allows aggressors to engage in combat economically and from a distance, posing a substantial threat to both mobile military assets like tanks and critical stationary installations such as sensitive military bases. Furthermore countermeasures such as missiles traditionally used to neutralize these UAVs, often come at a cost up to a hundred times that of a single UAV, compounding the challenge of defending against these cost-efficient aerial weapons.

Our defense architecture comprises two interconnected components powered by artificial intelligence: the detection system and the targeting system. These units collaboratively engage to first identify and then neutralize incoming threats with high efficiency. The detection system utilizes acoustic triangulation to locate approaching threats within a few meters and to measure their direction and speed. Subsequently, the targeting system employs high-precision LiDAR to accurately aim at and autonomously initiate countermeasures against these high-speed identified targets up to 700 meters away.

This system mirrors the way a human might shoot down an incoming UAV—using the drone's sound to determine its general location and a rifle's scope for precise targeting and firing.

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Sculptural Serenity
Sculptural Serenity