Hydrostatic Force Sensor for Robotic Applications
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Published:1997-03-01
Issue:1
Volume:119
Page:115-119
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ISSN:0022-0434
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Container-title:Journal of Dynamic Systems, Measurement, and Control
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language:en
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Short-container-title:
Author:
Kazerooni H.1, Evans Mark S.2, Jones J.1
Affiliation:
1. Mechanical Engineering Department, University of California at Berkeley, Berkeley, CA 94720 2. Mechanical Engineering Department, Brigham Young University, Provo, Utah 84602
Abstract
This article presents a theoretical and experimental investigation of a new kind of force sensor which detects forces by measuring an induced pressure change in a material of large Poisson’s ratio. In this investigation, we develop mathematical expressions for the sensor’s sensitivity and bandwidth, and show that its sensitivity can be much larger and its bandwidth is usually smaller than those of existing strain-gage-type sensors. This force sensor is well-suited for measuring large but slowly varying forces. It can be installed in a space smaller than that required for existing sensors. This paper also discusses the effects of various parameters on the sensor’s performance and on failure modes. To verify the theoretical derivation, a prototype force sensor was designed and built. This prototype hydrostatic force sensor can measure the compressive forces up to 7200 lbf and tensile forces up to 3500 lbf.
Publisher
ASME International
Subject
Computer Science Applications,Mechanical Engineering,Instrumentation,Information Systems,Control and Systems Engineering
Reference10 articles.
1. de Silva, C. C., Control Sensors and Actuator, Printice Hall, 1989. 2. Dally, J. W., Riley, W. F., and McConnell, K. G., Instrumentation for Engineering Measurements, Wiley, New York, 1984. 3. Hogan, N. “Impedance Control: An Approach to Manipulation, Part I—Theory, Part II—Implementation, Part III, Applications,” ASME JOURNAL OF DYNAMIC SYSTEMS, MEASUREMENT, AND CONTROL, pp. 1–24, June 1985. 4. Kazerooni, H., Waibel, B., “On the Stability of the Constrained Robotic Maneuvers in the Presence of Modeling Uncertainties,” IEEE Transaction on Robotics and Automation, Vol. 7, No. 1, Feb. 1991. 5. Kazerooni, H., Tsay, T. I., and Hollerbach, K., “A Controller Design Framework for Telerobotic Systems,” IEEE Transaction on Control Systems Technology, Vol. 1, No. 1, Mar. 1993.
Cited by
2 articles.
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