Title
A tactile sensor based on thin-plate deformation.
Abstract
Traditionally, tactile sensors have been designed using compliant, rubber-like materials; when such a sensitized gripper grasps or otherwise manipulates an object, the normal strain deformation in the compliant material is sampled. The resulting information can be used to deduce simple local geometry of the contact, but the transduction process does not typically permit use of the individual strains in determining large-scale properties of the object (e.g., the inertia). Measurements of inertial parameters of grasped objects require accurate, low-hysteresis transduction that few tactile sensors currently provide. An alternative is to work from the task specification, and determine the tactile information that is necessary to accomplish the task. Here, we consider how to sense the length and mass of a uniform object that is gripped in a gravitational field, and show the design and assessment of a new kind of tactile sensor that is based on the theory of the deformation of thin plates. Features of this design include its potentially rugged realization, and its high-accuracy measurement that is more typical of force sensors than of tactile sensors.
Year
DOI
Venue
1994
10.1017/S0263574700017367
ROBOTICA
Keywords
DocType
Volume
TACTILE SENSOR,THIN-PLATE DEFORMATION,HIGH ACCURACY
Journal
12
Issue
ISSN
Citations 
4
0263-5747
5
PageRank 
References 
Authors
2.02
12
3
Name
Order
Citations
PageRank
R. E. Ellis15014.48
S. R. Ganeshan252.36
S. J. Lederman38518.24