Affiliation:
1. Department of Mechanical Engineering Ajou University Gyeonggi‐do Republic of Korea
2. Soft Robotics Research Center Seoul National University Seoul Republic of Korea
3. Department of Mechanical Engineering, Institute of Advanced Machines and Design, Institute of Engineering Research Seoul National University Seoul Republic of Korea
Abstract
AbstractJumping requires high actuation power for achieving high speed in a short time. Especially, organisms and robots at the insect scale jump in order to overcome size limits on the speed of locomotion. As small jumpers suffer from intrinsically small power output, efficient jumpers have devised various ingenuous schemes to amplify their power release. Furthermore, semi‐aquatic jumpers have adopted specialized techniques to fully exploit the reaction from water. We review jumping mechanisms of natural and robotic insects that jump on the ground and the surface of water, and compare the performance depending on their scale. We find a general trend that jumping creatures maximize jumping speed by unique mechanisms that manage acceleration, force, and takeoff duration under the constraints mainly associated with their size, shape, and substrate.
Funder
National Research Foundation of Korea
Defense Acquisition Program Administration