Title :
Bio-inspired design and realization of a novel multimode amphibious robot
Author :
Wang, Weibing ; Yu, Junzhi ; Ding, Rui ; Tan, Min
Author_Institution :
Machine & Electr. Eng. Coll., Shihezi Univ., Shihezi, China
Abstract :
This paper deals with an improved design scheme for an amphibious robot inspired by various amphibian principles in animal kingdom. Considering the propulsive features of existing amphibian modes synthetically, a novel hybrid propulsive mechanism that integrates fish-like swimming with wheel-paddle-fin movements is proposed. The robot is able to implement speedy and efficient fish-like or dolphin-like swimming and to perform flexible wheel-like terrestrial movements, which can switch between these two patterns by a specialized swivelling device. Critical engineering realization issues involving morphological optimization, buoyancy calculation and waterproof sealing are discussed. In particular, the design philosophy of modularity has been incorporated into the development of the robotic prototype. Preliminary testing partially validates the feasibility of multimode gaits both on land and in water.
Keywords :
biomimetics; control system synthesis; mathematical morphology; mobile robots; motion control; optimisation; underwater vehicles; bio inspired design; buoyancy calculation; fish-like swimming; locomotion control; morphological optimization; multimode amphibious robot; propulsive feature; terrestrial movement; waterproof sealing; wheel-paddle-fin movements; Design automation; Design engineering; Educational institutions; Friction; Intelligent robots; Legged locomotion; Logistics; Mobile robots; Robotics and automation; Switches; Bio-inspired robots; amphibious robot; mechanical design; modular; multimode motion;
Conference_Titel :
Automation and Logistics, 2009. ICAL '09. IEEE International Conference on
Conference_Location :
Shenyang
Print_ISBN :
978-1-4244-4794-7
Electronic_ISBN :
978-1-4244-4795-4
DOI :
10.1109/ICAL.2009.5262958
