Landing Attitude Control in 1-DOF Repeated Jumping Robot Using Series Elastic Component

Abstract

By utilizing series elastic element for the jumping motion, it becomes possible to increase the energy input time and store the kinetic energy as elastic energy. Therefore, a higher jump height can be expected. In the aerial attitude control by exerting the joint torque, repeated jumping with a small number of degree of freedom is possible. In this study, we describe the landing attitude control in a 1-DOF robot using a series elastic component by exerting the joint torque aiming at repeated jumping. we optimize the torque time series, starting from the air and performing a series of movements from landing to jumping.