Mixed reality based teleoperation and visualization of surgical robotics

Surgical robotics has revolutionized the field of surgery, facilitating complex procedures in operating rooms. However, the current teleoperation systems often rely on bulky consoles, which limit the mobility of surgeons. This restriction reduces surgeons' awareness of the patient during procedures and narrows the range of implementation scenarios. To address these challenges, an alternative solution is proposed: a mixed reality-based teleoperation system. This system leverages hand gestures, head motion tracking, and speech commands to enable the teleoperation of surgical robots. The implementation focuses on the da Vinci research kit (dVRK) and utilizes the capabilities of Microsoft HoloLens 2. The system's effectiveness is evaluated through camera navigation tasks and peg transfer tasks. The results indicate that, in comparison to manipulator-based teleoperation, the system demonstrates comparable viability in endoscope teleoperation. However, it falls short in instrument teleoperation, highlighting the need for further improvements in hand gesture recognition and video display quality. Surgical robotics transformed surgery, but current teleoperation relies on bulky consoles, limiting surgeon mobility and awareness. The solution, a mixed reality teleoperation system using gestures, head tracking, and speech commands, targets the da Vinci research kit with Microsoft HoloLens 2. Evaluation shows comparable viability for endoscope tasks but identifies challenges in instrument teleoperation, emphasizing the need for improved hand gesture recognition and video display quality. image