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Research in bipedal humanoid robots focuses on improving the walking performance of robots rather than designing them according to the presence or absence of human boarding. However, a bipedal robot can be operated by a human pilot. The pilot can control the robot’s arms, fingers, and bipedal locomotion using a wearable robot. As the wearable robot can allow physical interaction between the human and the robot, the control interface for the robot can be accurately described as a human–machine interface (HMI). In this regard, this study develops and assesses a new design of a humanoid robot that enhances load capacity and mobility through improved HMI. In particular, this study presents the design research of METHOD II, which is 4.2Formula: see textm tall, weighs 1.6 tons, and has 46 degrees-of-freedom (DoF). The robot can carry an adult weighing up to 100Formula: see textkg and is designed to execute both bipedal walking and arm movements. This giant humanoid mobility robot is inspired by AMP, a combat robot suit featured in the movie “Avatar.” This paper details the design philosophy, strategy, and results of METHOD II, highlighting the robot’s performance capabilities. A design method is proposed so that the giant robot can freely generate the motion of both arms of the robot through HMI while walking on its two legs.
Ill-Woo Park (Fri,) studied this question.
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