Abstract:

The purpose of this thesis is to develop an artificial skin system that is suitable for NTU-Hand IV, which was developed in our laboratory. The artificial skin is combined with two kinds of sensors. One is a normal force sensor. A flexible printed circuit board is combined with a pressure conductive rubber (CSA) to detect the distribution and magnitude of normal force. The other one is a slippage sensor, whose sensing material is PVDF (PolyVinyliDene Fluoride) piezoelectric polymer strip. Slippage sensor is used to detect the slip of grasped object. Moreover, the hardware-firmware system and the graphical user interface are developed and integrated with a stand-alone control system. The hybrid force/position control is the architecture of the grasping control. A Fuzzy-Based force control methodology and multi-sensor fusion are applied and integrated with the artificial skin. Friction cone and force closure are also considered while grasping. NTU-Hand IV with the artificial skin will then be simulated to grasp well as that of mankind performance.

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