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A flexible tactile imaging skin for robots based on magnetoinductive technology is proposed. This skin would be inexpensive and suitable for use either as a sophisticated imaging device or as a simple on/off tactile sensor. In the proposed design the skin would consist of a thin flexible magnetoinductive array with the sensor elements .5 mm apart covered on each of its two sides by a sheet of rubber and a row of flat wires etched on a Kapton film. I/O's should be easily accessible and the system's electronics should be simple. It would be able to be trimmed to size. The skin is expected to bend around a 25.4 mm radius. Linear pressure and compression relationships are expected over a 8 bit dynamic range. Cross talk between sensor elements should be nonexistant; and the system should be low power (.25 W/cm 2 ) and high speed. The array would be electronically tunable over a 10/1 range in pressure and spatial sensitivity.
John M. Vranish (Wed,) studied this question.
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