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Pubmed for Handhelds
PUBMED FOR HANDHELDS
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Title: Mechatronic design of haptic forceps for robotic surgery. Author: Rizun P, Gunn D, Cox B, Sutherland G. Journal: Int J Med Robot; 2006 Dec; 2(4):341-9. PubMed ID: 17520653. Abstract: BACKGROUND: Haptic feedback increases operator performance and comfort during telerobotic manipulation. Feedback of grasping pressure is critical in many microsurgical tasks, yet no haptic interface for surgical tools is commercially available. METHODS: Literature on the psychophysics of touch was reviewed to define the spectrum of human touch perception and the fidelity requirements of an ideal haptic interface. Mechanical design and control literature was reviewed to translate the psychophysical requirements to engineering specification. High-fidelity haptic forceps were then developed through an iterative process between engineering and surgery. RESULTS: The forceps are a modular device that integrate with a haptic hand controller to add force feedback for tool actuation in telerobotic or virtual surgery. Their overall length is 153 mm and their mass is 125 g. A contact-free voice coil actuator generates force feedback at frequencies up to 800 Hz. Maximum force output is 6 N (2N continuous) and the force resolution is 4 mN. The forceps employ a contact-free magnetic position sensor as well as micro-machined accelerometers to measure opening/closing acceleration. Position resolution is 0.6 microm with 1.3 microm RMS noise. The forceps can simulate stiffness greater than 20N/mm or impedances smaller than 15 g with no noticeable haptic artifacts or friction. CONCLUSION: As telerobotic surgery evolves, haptics will play an increasingly important role.[Abstract] [Full Text] [Related] [New Search]