Navigation Control and Walking Control on Uneven Terrain for Centipede-Like Multi-Legged Robot Based on FCP Gait Control

“…Studies have illustrated that creatures, such as insects, fish, and birds, can solve tasks that are challenging for individuals through self-organization and environmental interaction. These insights have propelled the development of aerial, aquatic, and terrestrial robotic swarm systems, capable of proficient real-world navigation and task execution, including mapping, tracking, inspection, and transportation [7][8][9][10]. While these studies provide valuable theoretical foundations for robotic technology, they frequently focus on a single type of robot and lack comprehensive adaptability to complex environments.…”

Self-Configurable Centipede-Inspired Rescue Robot

“…Studies have illustrated that creatures, such as insects, fish, and birds, can solve tasks that are challenging for individuals through self-organization and environmental interaction. These insights have propelled the development of aerial, aquatic, and terrestrial robotic swarm systems, capable of proficient real-world navigation and task execution, including mapping, tracking, inspection, and transportation [7][8][9][10]. While these studies provide valuable theoretical foundations for robotic technology, they frequently focus on a single type of robot and lack comprehensive adaptability to complex environments.…”

Self-Configurable Centipede-Inspired Rescue Robot