An eel-like robot based on a dielectric elastomer.

Eels have attracted significant research interest because of their long-distance migration and high-endurance cruising behavior. An underwater eel-like robot design inspired by these creatures has the potential for high efficiency, strong maneuverability and high stability. The propulsive biomimetic eel-like robot has the lowest energy consumption per unit distance, and its flexible body is conducive to movement and operation in narrow spaces; this is expected to become the research and development direction for underwater biomimetic robots. Dielectric elastomers (DEs) are smart, soft materials that exhibit significant deformation under an electric field and have the characteristics of large strain, fast response, light mass, etc. Applying DEs in the effort to develop bionic robots affords a unique advantage. This study introduces an eel-inspired swimming robot. First, a cylindrical dynamic model of a DE is established. Second, considering the eel as the bionic object, a tube actuator and tube joint driving module are designed to improve manufacturability. Finally, the tube drive module is connected and the head part, tail part and tail fin are installed to make an eel-like robot based on a DE. A kinematic model of the eel-like robot is established, its forward motion speed is studied, and its propulsion speed, swimming number and swimming shape are analyzed. The results show that the robot can realize an S-type angle swinging motion.