Page 455 - Biomedical Engineering and Design Handbook Volume 2, Applications
P. 455
COMPUTER-INTEGRATED SURGERY AND MEDICAL ROBOTICS 433
133. Schenker, P. S., H. O. Das, and R. Timothy, “Development of a new high-dexterity manipulator for robot-
assisted microsurgery,” in Proceedings of SPIE—The International Society for Optical Engineering:
Telemanipulator and Telepresence Technologies, 1995, Boston.
134. Kazerooni, H., and G. Jenhwa, “Human extenders,” Transaction of the ASME: Journal of Dynamic
Systems, Measurement and Control, 1993, 115(2B):218–290, June.
135. Taylor, R. H., et al., “Telerobotic assistant for laparoscopic surgery,” IEEE Eng. Med. Biol., 1995,
14(3):279–288.
136. Funda, J., et al., “Constrained Cartesian motion control for teleoperated surgical robots,” IEEE Transactions
on Robotics and Automation, 1996.
137. Funda, J., et al., “Control and evaluation of a 7-axis surgical robot for laparoscopy,” in Proc. 1995 IEEE
Int. Conf. on Robotics and Automation, 1995, Nagoya, Japan, IEEE Press.
138. Funda, J., et al., “An experimental user interface for an interactive surgical robot,” in 1st International
Symposium on Medical Robotics and Computer Assisted Surgery, 1994, Pittsburgh.
139. Funda, J., et al., “Optimal Motion Control for Teleoperated Surgical Robots,” in 1993 SPIE Intl. Symp. on
Optical Tools for Manuf. & Adv. Autom., 1993, Boston.
140. Kumar, R., et al., “Performance of Robotic Augmentation in Microsurgery-Scale Motions,” in 2nd Int.
Symposium on Medical Image Computing and Computer-Assisted Surgery, 1999, Cambridge, England,
Springer.
141. Goradia, T. M., R. H. Taylor, and L. M. Auer, “Robot-assisted minimally invasive neurosurgical procedures:
First experimental experience,” in Proc. First Joint Conference of CVRMed and MRCAS, 1997, Grenoble,
France, Springer.
142. Kumar, R., et al., “Robot-assisted microneurosurgical procedures, comparative dexterity experiments,” in
Society for Minimally Invasive Therapy 9th Annual Meeting, Abstract Book, vol 6, supplement 1, 1997,
Tokyo.
143. Kumar, R., An Augmented Steady Hand System for Precise Micromanipulation, Ph.D. thesis, Computer
Science, The Johns Hopkins University, Baltimore, 2001.
144. Kumar, R., and R. Taylor, “Task-Level Augmentation for Cooperative Fine Manipulation Tasks in Surgery,”
in MICCAI 2001, 2001.
145. Kumar, R., et al., “An Augmentation System for Fine Manipulation,” in Medical Image Computing and
Computer-Assisted Interventions, 2000, Pittsburgh, Springer.
146. Kumar, R., P. Jensen, and R. H. Taylor, “Experiments with a Steady Hand Robot in Constrained Compliant
Motion and Path Following,” in 8th IEEE International Workshop on Robot and Human Interaction
(ROMAN), 1999, Pisa, Italy.
147. Faraz, A., and S. Payandeh, “A robotic case study: Optimal design for laparoscopic positioning stands,”
J. Robotics Research, 1998, 17(9):986–995.
148. Abolmaesumi, P., et al., “A User Interface for Robot-Assisted Diagnostic Ultrasound,” IEEE Robotics and
Automation Conference, 2001, Seoul.
149. Goldberg, R., A Modular Robotic System for Ultrasound Image Acquisition, M.S. thesis, Mechanical
Engineering, Johns Hopkins University, Baltimore, 2001.
150. Degoulange, E., et al., “HIPPOCRATE: an intrinsically safe robot for medical applicaions,” in IEE/RSH
International Conference on Intelligent Robots and Systems, 1998, Victoria, B.C.
151. Mitsuishi, M., et al., “Remote Ultrasound Diagnostic System,” in Proc. IEEE Conf. on Robotics and
Automation, 2001, Seoul.
152. Carrozza, M., et al., “The development of a microrobot system for colonoscopy,” in Proc. CVRMed and
MRCAS—1205, 1997, Grenoble, Springer Verlag.
153. Ikuta, K., M. Tsukamoto, and S. Hirose, “Shape Memory Alloy Servo Actuator System with Electric
Resistance Feedback and Application for Active Endoscope,” in Computer-Integrated Surgery, R. H. Taylor
et al. (eds.), 1996, MIT Press, Cambridge, Mass, pp. 277–282.
154. Sturges, R., and S. Laowattana, “A voice-actuated, tendon-controlled device for endoscopy,” in Computer-
Integrated Surgery, R. H. Taylor, et al. (eds.), 1996, MIT Press, Cambridge, Mass.
155. Asari, V. K., S. Kumar, and I. M. Kassim, “A fully autonomous microrobotic endoscopy system,” Journal
of Intelligent and Robotic Systems: Theory and Applications, 2000, 28(4):325–342.

