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Uncalibrated target tracking with obstacle avoidance

Jenelle Armstrong Piepmeier, Gary McMurray, Alexander Pfeiffer, Harvey Lipkin

Year
2002
Citations
8

Abstract

Target tracking and obstacle avoidance are demonstrated for uncalibrated visual servoing. An objective function is designed that encourages target following by a robotic end-effector while discouraging movements near an obstacle. The objective function incorporates the error between the target and the end-effector and a potential function related to the obstacle. This objective function is minimized using a dynamic nonlinear least squares optimization method in conjunction with a recursive least squares Jacobian estimation algorithm. The approach is generic and can be applied to a variety of systems. Calibration is unnecessary after a reconfiguration or disturbance to the robotic workcell. This type of control has the potential to provide a low-cost, low-maintenance automation solution for unstructured industries and environments. Experimental results demonstrate both target tracking and obstacle avoidance for an uncalibrated robotic system.

Keywords

Obstacle avoidanceVisual servoingWorkcellComputer scienceArtificial intelligenceControl theory (sociology)Jacobian matrix and determinantComputer visionObstacleControl reconfiguration

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