P.D. Lawrence scite author profile

In presenting this thesis in partial fulfilment of the requirements for an advanced degree at the University of British Columbia, I agree that the Library shall make it freely available for reference and study. I further agree that permission for extensive copying of this thesis for scholarly purposes may be granted by the head of my department or by his or her representatives. It is understood that copying or publication of this thesis for financial gain shall not be allowed without my written permission.

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A single camera eye-gaze tracking system with free head motion

Hennessey

Noureddin

Lawrence

2006

174

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A transformation method for the reconstruction of functions from nonuniformly spaced samples

Clark

Palmer

Lawrence

1985

IEEE Trans. Acoust., Speech, Signal Process.

204

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Impedance control of a teleoperated excavator

Tafazoli

Salcudean

Hashtrudi-Zaad

et al. 2002

IEEE Trans. Contr. Syst. Technol.

120

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Earth-moving machines such as hydraulic excavators are usually used for carrying out contact tasks. Impedance control can be employed as an approach for achieving compliant motion in such tasks. This paper describes a position-based impedance controller that has been developed in our laboratory for excavator-type manipulators, and presents supporting experimental results. First, the problem of impedance control for a single hydraulic cylinder is addressed and a method is presented to analyze the system stability. The steady-state position and force tracking accuracy of the closed-loop system is also studied. Next, the problem of impedance control for a multilink hydraulic excavator is addressed and the arm Jacobian and accurate estimates of the arm inertial terms are employed to map the desired impedance of the end-effector (bucket of the excavator) onto the hydraulic cylinders. Various contact experiments carried out using an instrumented mini-excavator demonstrate that the proposed impedance controller has very good performance for both single-link and multilink cases.

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Robot-Assisted Diagnostic Ultrasound – Design and Feasibility Experiments

Salcudean

Bell

Bachmann

et al. 1999

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Motivated by the need for providing a better user interface for ultrasound technicians, a teleoperation approach to diagnostic ultrasound examinations is proposed in this paper. In this approach, the ultrasound probe is positioned by a robot, with the operator, the robot controller, and an ultrasound image processor having shared control over its motion. An inherently safe, light, backdrivable, counterbalanced robot has been designed for carotid artery examinations. Its design, as well as experiments demonstrating effective free-motion and force control, are presented. The feasibility of using visual servoing for motion in the plane of the ultrasound probe has also been addressed. Using a modified image correlation algorithm, tracking of the carotid artery for periods of time in excess of ten seconds has been demonstrated.

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P.D. Lawrence

An investigation of methods for determining depth from focus

A single camera eye-gaze tracking system with free head motion

A transformation method for the reconstruction of functions from nonuniformly spaced samples

Impedance control of a teleoperated excavator

Robot-Assisted Diagnostic Ultrasound – Design and Feasibility Experiments

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