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This paper proposes a force-sensing mechanism for a robot. The mechanism is composed of a force sensor device and an end-effector of shell-shape. Since the end-effector plays a role of an outer shell, force can be sensed at any positions on whole body. In other word, whole-body force sensation is realized. It is possible to calculate the position of a contact point without any sensor array. Hence costs and wirings are reduced. Another merit is that 6-axis resultant force is measurable in contrast with conventional tactile sensors. Experimental results of a mobile robot are shown to verify the validity of the proposed mechanism.
Tsuji et al. (Sat,) studied this question.