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172 Force and Torque Sensors
[68] Dargahi, J., M. Parameswaran, and S. Payandeh, “A Micromachined Piezoelectric Tactile
Sensor for an Endoscopic Grasper—Theory, Fabrication and Experiments,” J. of Microelec-
tromechanical Systems, Vol. 9, No. 3, 2000, pp. 329–335.
[69] Engel, J., J. Chen, and C. Liu, “Development of Polyamide Flexible Tactile Sensor Skin,” J.
Micromech. Microeng., Vol. 13, No. 3, 2003, pp. 359–366.
[70] Lomas, T., A. Tuantranont, and F. Cheevasuvit, “Micromachined Piezoresistive Tactile
Sensor Array Fabricated by Bulk-Etched Mumps Process,” Proc. IEEE Intl. Symp. Circuits
and Systems, Bangkok, Thailand, May 25–28, 2003, pp. 856–859.
[71] Jeglinski, S. A., S. C. Jacobsen, and J. E. Wood, “Six-Axis Field-Based Transducer for Meas-
uring Displacements and Loads,” Winter Annual Meeting of the American Society of
Mechanical Engineers, Dallas, TX, November 25–30, 1990, ASME Dyn. Syst. Control Div.
Publ. DSC, Vol. 19, 1990, pp. 83–98.
[72] Lyshevski, S. E., “Distributed Control of MEMS-Based Smart Flight Surfaces,” Proc.
American Control Conf., Arlington, VA, June 25–27, 2001, pp. 2351–2356.
[73] Lee, C., T. Itoh, and T. Suga, “Sol-Gel Derived PNNZT Thin Films for Micromachined Pie-
zoelectric Force Sensors,” Thin Solid Films, Vol. 299, No. 1–3, 1997, pp. 88–93.
[74] Svedin, N., E. Stemme, and G. Stemme, “A Static Turbine Flow Meter with a
Micromachined Silicon Torque Sensor,” Proc. 14th IEEE Conf. Micro Electro Mechanical
Systems, Interlaken, Switzerland, January 21–25, 2001, pp. 208–211.
[75] McKenzie, J. S., K. F. Hale, and B. E. Jones, “Optical Actuators,” in Advances in Actuators,
A. P. Dorey and J. H. Moore, (eds.), Bristol, England: Institute of Physics Publishing, 1995,
pp. 82–111.
