By
Technology Editor Last updated: October 20th, 2023
Automated Controls for Unmanned Systems
Lorenz Technology’s all-in-one autonomous control solution
Autonomous control systems provide unmanned vehicles with the ability to operate without human intervention, enabling them to carry out their objectives in highly dynamic and uncertain environments and to compensate for system failures. Such autonomy reduces operator error and fatigue, and can improve the cost-effectiveness of operations with unmanned vehicles.
Levels of Autonomy
The industry denotes levels of autonomy with six different grades, from no autonomy at level 0 to full autonomy at level 5. At levels 1 and 2 the vehicle is still primarily operated by a human operator, with the system providing assistance. At levels 3 to 5, decreasing levels of monitoring are provided by the operator.
Autonomous control systems require the vehicle to be equipped with a variety of sensors that can capture data on the surrounding environments. These sensors may include cameras, LiDAR scanners, GNSS receivers and inertial navigation systems (INS). Data from external sources may also be utilised, such as weather data and information on other aircraft or marine vessels in the vicinity. All relevant data needs to be processed in order for the vehicle to make decisions, and this processing will be done either by an onboard embedded computing platform or by an offboard cloud processing service.
SeeTrack v4 Multi-domain Command & Control System by SeeByte
Applications
UAVs (unmanned aerial vehicles) – autonomous control allows drones to operate BVLOS (beyond visual line of sight), opening up a variety of extended operations such as cargo delivery, mapping, inspection and surveillance
UGVs (unmanned ground vehicles) – the primary application of autonomy for land vehicles is autonomous driving, but UGVs may also perform tasks such as delivery for civilian and battlefield applications
USVs (unmanned surface vessels) and AUVs (autonomous underwater vehicles) – long-range USVs and AUVs operating autonomously can be used for environmental research and monitoring, as well as security and defense missions such as surveillance, patrolling, anti-submarine warfare (ASW) and mine counter-measures (MCM)
Embention joins the ACTUS project to advance certification and capabilities for European tactical UAVs, contributing critical avionics and compliance expertise to the LOTUS platform
In support of the maritime autonomy software development company’s global expansion, Robosys Automation has opened its United Kingdom headquarters in Southampton
Embention spearheads the COLIBRÍ initiative, a project merging artificial intelligence, autonomous drones, and advanced tracking to transform industrial technological capabilities
Embention delves into the advantages of UAVs in the audiovisual industry, in particular how its Veronte Autopilots reduce risk on demanding shoots and enhance operational efficiency
Embention delves into the production and manufacturing process of the Veronte Autopilot, the company’s customizable control system for autonomous vehicles and fly-by-wire aircraft
Dynautics will be showcasing its innovative command and control technologies for a range of unmanned surface and subsurface vessels at MATS 2024, November 5-7, on Stand 39
MASS @ Moorgate will receive Robosys Automation, among other maritime automation innovators, in London on Thursday 31 October 2024, discussing the opportunities of the sector
Greenroom Robotics has completed the autonomous navigation of Endurance Trials, covering 705 nautical miles using a decommissioned Patrol Boat equipped with their GAMA software
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