Conceptual design of force reflection control for teleoperated bone surgery

Abstract: Bilateral control of teleoperated robots still poses a challenge, especially if environment properties vary over a large degree. Most currently available systems do not provide force feedback and consequently surgeons still have to estimate contact forces predominantly visually. During drilling or milling in bone surgery, visual estimation is virtually impossible due to hardly any deformations. However, the force progression contains important complimentary information for the surgeon. Therefore, a concept for… Show more

“…This contributes to improved task performance and overall efficiency in various teleoperation applications. The applications of teleoperation systems are versatile, such as in unmanned aerial vehicles [3][4][5], virtual reality [6,7], medical training [8][9][10], and telesurgery [11][12][13][14][15][16].…”

Robust Adaptive-Sliding-Mode Control for Teleoperation Systems with Time-Varying Delays and Uncertainties

“…This contributes to improved task performance and overall efficiency in various teleoperation applications. The applications of teleoperation systems are versatile, such as in unmanned aerial vehicles [3][4][5], virtual reality [6,7], medical training [8][9][10], and telesurgery [11][12][13][14][15][16].…”

Robust Adaptive-Sliding-Mode Control for Teleoperation Systems with Time-Varying Delays and Uncertainties