SURGICAL
Robotic Compensation of Biological Motion to Enhance Surgical Accuracy
Cameron N. Riviere, Jacques Gangloff, Michel de Mathelin
- Year
- 2006
- Citations
- 120
Abstract
Robotic technologies provide new ways to compensate quasi-periodic biological motion, enabling higher surgical accuracy without invasive measures such as cardiopulmonary bypass. This paper describes current research in robotic compensation of hand tremor, respiratory motion, and heartbeat during surgical procedures. An analysis of each physiological motion pattern is provided, as well as a description of novel compensation techniques
Keywords
HeartbeatCompensation (psychology)Motion (physics)Computer scienceMotion compensationMotion sensorsBiological motionArtificial intelligenceComputer visionPsychology
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