TY - JOUR AU - Deng, Hao AU - Xia, Zeyang AU - Weng, Shaokui AU - Gan, Yangzhou AU - Fang, Peng AU - Xiong, Jing PY - 2016 DA - 2016/12/09 TI - A motion sensing-based framework for robotic manipulation JO - Robotics and Biomimetics SP - 23 VL - 3 IS - 1 AB - To data, outside of the controlled environments, robots normally perform manipulation tasks operating with human. This pattern requires the robot operators with high technical skills training for varied teach-pendant operating system. Motion sensing technology, which enables human–machine interaction in a novel and natural interface using gestures, has crucially inspired us to adopt this user-friendly and straightforward operation mode on robotic manipulation. Thus, in this paper, we presented a motion sensing-based framework for robotic manipulation, which recognizes gesture commands captured from motion sensing input device and drives the action of robots. For compatibility, a general hardware interface layer was also developed in the framework. Simulation and physical experiments have been conducted for preliminary validation. The results have shown that the proposed framework is an effective approach for general robotic manipulation with motion sensing control. SN - 2197-3768 UR - https://doi.org/10.1186/s40638-016-0056-9 DO - 10.1186/s40638-016-0056-9 ID - Deng2016 ER -