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Use of tactile sensors in enhancing the efficiency of vision-based object localization

Michael Boshra, Hong Zhang

Year
2002
Citations
5

Abstract

We present a technique to localize polyhedral objects by integrating visual and tactile data. This technique is useful in tasks such as localizing an object in a robot hand. It is assumed that visual data are provided by a monocular visual sensor, while tactile data by a planar-array tactile sensor in contact with the object. Visual data are used to generate a set of hypotheses about the 3D object's pose, while tactile data to assist in verifying the visually-generated pose hypotheses. We specifically focus on using tactile data in hypothesis verification. A set of indexed bounds on the object's six transformation parameters are constructed from the tactile data. These indexed bounds are constructed off-line by expressing them with respect to a tactile-array frame. At run-time, each visually-generated hypothesis is efficiently compared with the touch-based bounds to determine whether to eliminate the hypothesis, or to consider it for further verification. The proposed technique is tested using simulated and real data.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Keywords

Computer visionTactile sensorArtificial intelligenceObject (grammar)Computer scienceSet (abstract data type)Focus (optics)Data setRobotFrame (networking)

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