Practice firing is an important event both for individual soldiers and for military training. Innovative tactical and reality-based firing range scenarios can be created to develop IFF (Identification of Friend or Foe), hostage situation, tactical movement, and combat marksmanship skills. ARTS can act as fleeing target3s running as fast as a sprinting man with unpredictable movement patterns and speed. Thus, presenting the firer with a changing aspect ratio and requiring the application of learned engagement techniques and realistic target lead. These robots will be able to operate on existing shooting range facilities without any modification to the firing range infrastructure. They can replicate the movement of lateral and oblique rail-mounted targets as well as execute unpredictable movement patterns on open ranges or combat courses.
The ARTS platform can further be used to mount the following payloads, enabling a wide range of applications for military, rescue, and medical operations.
ARTS is equipped with a unique intelligent waypoint navigation and obstacle avoidance system. This technology can be deployed in various applications where collision avoidance is critical.
We developed Handheld GCS to control the motion of the UGVs using remote-controlled mode. Additionally, the Pan Tilt Zoom actions of cameras can also be monitored using these GCS systems.
Advanced collision avoidance systems ensure safe operation in complex environments.
Intelligent waypoint navigation enables precise movement and path execution.
Efficient path planning algorithms optimize routes for enhanced performance.
Define GO/No areas to restrict or allow movement in specific zones.
Can be used to operate unmanned ground vehicles (UGVs) for various applications.
Provides precise control over motion and speed for optimal performance.
Enables accurate directional control for seamless navigation.
Allows monitoring and control of camera feed views for enhanced situational awareness.