The SMARTsurg aims to develop an advanced system for performing MIS, in order to reduce the surgeon’s cognitive load related to the system’s operation that will ultimately allow shorter training time, while delivering increased accuracy, safety, reduced MIS procedure time, and expanded applicability. To this end, this project aims to design and develop a wearable interface for a surgical system using a) highly dexterous anthropomorphic surgical instruments b) wearable hand exoskeleton with haptic feedback for controlling the surgical instruments, and c) wearable smart glasses for augmented reality guidance of the surgeon based on realtime 3D reconstruction of the surgical field.
The possible socio-economic impact of this technology is the improved patient outcome, which is currently low compared to open and laparoscopic surgery.
Objective 1: To develop a dexterous, adaptable anthropomorphic surgical instrument
Objective 2: To develop a framework for providing haptic feedback from the surgical instrument to the surgeon
Objective 3: To develop strategies for dynamic active constraints construction and their guaranteed satisfaction
Objective 4: To develop advanced cognition and perception abilities to achieve the real-time and on-the-fly reconstruction of the operation area
Objective 5: To validate SMARTsurg project results in realistic scenarios involving procedures on different surgical domain