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Robotic interception of moving objects using an augmented ideal proportional navigation guidance technique

Mehran Mehrandezh, N.M. Sela, R. G. Fenton, B. Benhabib

Year
2000
Citations
111

Abstract

Presents an approach to online, robot-motion planning for moving-object interception. The proposed approach utilizes a navigation-guidance-based technique, that is robust and computationally efficient for the interception of fast-maneuvering objects. Navigation-based techniques were originally developed for the control of missiles tracking free-flying targets. Unlike a missile, however, the end-effector of a robotic arm is connected to the ground, via a number of links and joints, subject to kinematic and dynamic constraints. Also, unlike a missile, the velocity of the robot and the moving object must be matched for a smooth grasp, thus, a hybrid interception scheme, which combines a navigation-based interception technique with a conventional trajectory tracking method is proposed herein for intercepting fast-maneuvering objects. The implementation of the proposed technique is illustrated via numerous simulation examples.

Keywords

InterceptionComputer visionGRASPComputer scienceArtificial intelligenceKinematicsRobotMissileProportional navigationTrajectory

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