Spiral knights missions6/14/2023 ![]() It can also be driven off-board via its safety controller. The vehicle also stops when it detects lethal obstacles in its path.īlack Knight is driven from the Robotic Operator Control Station (ROCS), located within another vehicle. ![]() In “guarded teleoperation” mode, objects that are detected by the perception system are overlaid on the driving map, enabling drivers to maneuver around them. Black Knight can plan paths to be manually driven by its operator. These autonomy capabilities can also assist Black Knight's driver during teleoperation. Black Knight's perception system fuses LADAR range data and camera images to detect both positive and negative obstacles in its surroundings, enabling its autonomous navigation system to avoid them. It can plan routes between waypoints – either direct, straight-line paths or paths with the lowest terrain cost (that is, the lowest risk to the vehicle). With its wireless data link, the sensor suite supports both fully-autonomous and assisted (or semi-autonomous) driving.īlack Knight's autonomous navigation features include fully-automated route planning and mission planning capabilities. NREC developed Black Knight's vehicle controller, teleoperation, perception and safety systems.īlack Knight's perception and control module includes Laser Radar (LADAR), high-sensitivity stereo video cameras, FLIR thermal imaging camera, and GPS. The vehicle did not miss a single day of operation in over 200 hours of constant usage. Black Knight gave Soldiers a major advantage during both day and night operations. Assisted teleoperation combines human driving with autonomous safeguarding.īlack Knight was extensively tested both off-road and on-road in the Air Assault Expeditionary Force (AAEF) Spiral D field exercises in 2007, where it successfully performed forward observation missions and other tasks. Black Knight's autonomous and semi-autonomous capabilities help its operators to plan efficient paths, avoid obstacles and terrain hazards, and navigate from waypoint to waypoint. Its Robotic Operator Control Station (ROCS) provides an easy-to-use interface for teleoperating the vehicle. The 12-ton Black Knight can be transported within a C-130 cargo plane and makes extensive use of components from the Bradley Combat Systems program to reduce costs and simplify maintenance.īlack Knight can be teleoperated from within another vehicle (for example, from the commander's station of a Bradley Fighting Vehicle) or by dismounted Soldiers. Its band-tracked drive makes it highly mobile in extreme off-road terrain while reducing its acoustic and thermal signatures. Its 300 hp diesel engine gives it the power to reach speeds of up to 48 mph, with off-road autonomous and teleoperation speeds up to 15 mph. It enables operators to acquire situational data from unmanned forward positions and verify mission plans by using map data to confirm terrain assumptions.īlack Knight demonstrates the advanced capabilities that are available to unmanned ground combat vehicles (UGCVs) using current technology. NREC applied its expertise in sensor fusion, unmanned systems, obstacle detection, path planning, autonomy and teleoperation to improve Black Knight's mission performance and support Soldier operation.īlack Knight can be used day or night for missions that are too risky for a manned ground vehicle (including forward scouting, reconnaissance surveillance and target acquisition, (RSTA), intelligence gathering, and investigating hazardous areas) and can be integrated with existing manned and unmanned systems. Black Knight demonstrates how UGCVs can be used in the field and showcases current robotics technologies.
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