TY - JOUR AU - Feng, Yunhao AU - Ide, Tohru AU - Nabae, Hiroyuki AU - Endo, Gen AU - Sakurai, Ryo AU - Ohno, Shingo AU - Suzumori, Koichi PY - 2021 DA - 2021/03/08 TI - Safety-enhanced control strategy of a power soft robot driven by hydraulic artificial muscles JO - ROBOMECH Journal SP - 10 VL - 8 IS - 1 AB - Power soft robots—defined as novel robots driven by powerful soft actuators, achieving both powerfulness and softness—are potentially suitable for complex collaborative tasks, and an approach to actuating a power soft robot is the McKibben artificial muscle. This study aims to show the potential of hydraulic artificial muscles to be implemented in a power soft robot with high safety, including higher stability against sudden load separation or impact disturbance, and appropriate dynamic compliance. The stability of a manipulator arm driven by hydraulic muscle actuators is experimentally proven to be higher than that of pneumatic muscle actuators when the stored elastic energy is instantaneously released. Therefore, the hydraulic muscle actuator is a better candidate for actuating a power soft robot. By taking advantage of the incompressible liquid medium and the compliant structure of a hydraulic muscle, a second-order impedance control strategy with a braking method is proposed to improve dynamic compliance without sacrificing the safety features of hydraulic muscles. The results show that the manipulator can be easily shifted by a several-kilogram-level external force and react safely against sudden load change with low angular velocity by the proposed impedance control. SN - 2197-4225 UR - https://doi.org/10.1186/s40648-021-00194-5 DO - 10.1186/s40648-021-00194-5 ID - Feng2021 ER -