Abstract
Loss of haptic sensation in a master-slave system is one of the open problems in robotic surgery, and recognition of surgical situations through haptic sensation is a challenge. In this paper we propose an autonomous risk-detection system for a master-slave surgical robotic system in order to estimate a property of an object (i.e., contact impedance) using a force sensor mounted on a surgical robotic instrument. The system autonomously detects the risk based on the estimated contact impedance and accordingly activates the motion at the slave unit as well as the force feedback at the master unit. We implemented the proposed method in a teleoperated master-slave system to detect the perforation risk of a membranous object. The performance of the system was evaluated through experiments. The classification accuracy for perforation risk was about 98.5 % in fourfold cross-validation. The experiments verified that the risk detection system accurately detected the perforation risk and improved the safety of the master-slave system.
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