Surgical Robot Design Development

Edris Farah; Shao Gang Liu

doi:10.4028/www.scientific.net/AMM.415.14

Paper Titles

Preface and Committees

Trajectory Optimization Method for Follow-Up Control of Concrete Pump Truck
p.3

Design and Implementation of Voice Control System in Flexible Manufacturing Cell
p.9

Surgical Robot Design Development
p.14

D-H Parameters and Forward Kinematics Solution for 6D of Surgical Robot
p.18

Passive Movement Modeling of a Woodpecker Robot
p.23

Experimental Study on Energy Gain of the Solar Collector with Automatic Inclining System in Conditions of Central Europe during Low Solar Potential Periods
p.26

Research of Optimal End Guidance Law about Homing UAV
p.30

Analysis of Rural Power Distribution Automation Construction
p.34

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 415Surgical Robot Design Development

Surgical Robot Design Development

Abstract:

Since 1985 when the first use of robot in surgery fields, the interest and the amount of research in surgical robots have been increase significantly. Various surgical robot systems have been developed, and many design models have been proposed. This paper discusses the development of surgical robot design and touches some design and control characteristics which are useful for the research in the field. The paper also provides the recent trends in the field and discusses some commercial surgical robots.

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Periodical:

Applied Mechanics and Materials (Volume 415)

Pages:

14-17

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.415.14

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Online since:

September 2013

Authors:

Edris Farah, Shao Gang Liu

Keywords:

Minimally Invasive Surgery (MIS), Robot, Robot Design, Surgical Robot

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References

[1] D. Camarillo, T. Drummel. and J. Salisbury: Robotic Technology in Surgery: Past, Present and Future (The American Journal of Surgery publication 2004).

Google Scholar

[2] S. Schostek, C. N. Ho, D. Kalanovic. and M. O. Schurr: Artificial Tactile Sensing in Minimally Invasive Surgery - A New Technical Approach (Minimally Invasive Therapy and Allied Technology publication 2006).

DOI: 10.1080/13645700600836299

Google Scholar

[3] Kwoh YS, Hou J, et al: A Robot with Improved Absolute Positioning Accuracy for CT Guided Stereotactic Brain Surgery (IEEE Transactions on Biomedical Engineering publication 1988).

DOI: 10.1109/10.1354

Google Scholar

[4] Davies, B. L, et al: A Surgeon robot for prostatectomies (IEEE International Conference on Robotics and Automation Publication France1991).

Google Scholar

[5] Howard A. Paul, Brent Mittlestadt, et al: A Surgical Robot for Total Hip Replacement Surgery (IEEE International Conference on Advanced Robotics Publication (ICAR) 1992).

Google Scholar

[6] Sackier J. M and Wang Y: Robotically Assisted Laparoscopic Surgery: From Concept to Development Technology and Clinical Applications (MIT Press Cambridge, Massachusetts 1996).

Google Scholar

[7] Ghodoussi M, Butner SE, and Wang Y: Robotic Surgery - The Transatlantic Case (IEEE International Conference on Robotics and Automation Publication Washington 2002).

DOI: 10.1109/robot.2002.1014815

Google Scholar

[8] Guthart GS and Salisbury JK, Jr: The Intuitive™ Telesurgery System: Overview and Application (IEEE International Conference on Robotics and Automation Publication San Francisco 2000).

DOI: 10.1109/robot.2000.844121

Google Scholar

[9] L. Trejos et al: Optimizing port placement for robot-assisted minimally invasive cardiac surgery (Wiley InterScience Publications 2007).

Google Scholar

[10] Aleš Hace, Karel Jezernik: Bilateral Teleoperation by Sliding Mode Control and Reaction Force Observer (IEEE InternationalSymposium on Industrial Electronics 2010).

DOI: 10.1109/isie.2010.5637717

Google Scholar