Mechanical design and rolling locomotion analyses of a novel reconfigurable mobile robot constructed by a parallel mechanism

Abstract

Recently, morphology methods were used to improve locomotion capability of a mobile robot by deforming the body into multiple topological structures for various locomotion modes. Rolling mode will provide a fast moving process for flat ground, while the legged mode is more suitable for rough terrain. In this work, a new reconfigurable robot with rolling and legged locomotion modes is proposed based on parallel mechanism method. Four reconfigurable limbs and two platforms are assembled into a parallel manipulator. Based on the reconfigurable properties of such parallel mechanism, the motion branches were planned to switch the robot into different topologies to generate rolling and legged locomotion. In addition, a motion planning method is presented to perform fast and stable rolling locomotion for this reconfigurable robot. A simulation is carried out and verified the design concept.