Neural control system for a swarm of autonomous underwater vehicles

“…To support concurrent transmission, it uses orthogonal audio chirps and has an audio message frame design that balances localization accuracy and communication speed. AI's ability to maintain formation and coordinate autonomously in challenging environments and the potential of neuro-evolutionary algorithms called Hill Climb Assembler Encoding for underwater vehicle swarms are highlighted by [25]. A neural control system is introduced where the leader vehicle guides followers using information from sonar and cameras to avoid obstacles, while followers follow the leader in a specific formation and avoid each other, the leader, and obstacles detected by the leader.…”

AI Driven Approaches in Swarm Robotics - A review

“…To support concurrent transmission, it uses orthogonal audio chirps and has an audio message frame design that balances localization accuracy and communication speed. AI's ability to maintain formation and coordinate autonomously in challenging environments and the potential of neuro-evolutionary algorithms called Hill Climb Assembler Encoding for underwater vehicle swarms are highlighted by [25]. A neural control system is introduced where the leader vehicle guides followers using information from sonar and cameras to avoid obstacles, while followers follow the leader in a specific formation and avoid each other, the leader, and obstacles detected by the leader.…”

AI Driven Approaches in Swarm Robotics - A review

Using Hill Climb Assembler Encoding neural networks to control follower vehicles in an underwater swarm

Formation control of multi-agent systems with actuator saturation via neural-based sliding mode estimators