Surgical Robotic Arm with Pneumatic Semi-active Joints for Load Reduction on Tool-insertion Port

Abstract: In minimally invasive robotic surgeries, insertion ports become the fulcrum of surgical instruments such as forceps. Misalignment between the insertion port and the remote center of motion (RCM) of the robotic arm or external forces on the tip of its forceps generate undesirable forces and friction between the port and the forceps. It not only damages the port but also worsens position control performance. In this study, we developed a pneumatic surgical robotic arm that does not require the positioning of its… Show more

“…Regarding the mechanisms, the robotic arms are composed of active joints (6 DOF) [51], meanwhile, laparoscopic support has passive joints (3 DOF) [52], therefore, the combination of sensors and actuators is shown in Table 2. Additionally, the platform has 3 DOF, 1 for lineal displacement of the arc along the base, and 2 for rotational motion of the robotic arms around the arc, besides there is an integrated micro-camera for real-time visualization of the procedure.…”

SY-MIS Project: Biomedical Design of Endo-Robotic and Laparoscopic Training System for Surgery on the Earth and Space

“…Regarding the mechanisms, the robotic arms are composed of active joints (6 DOF) [51], meanwhile, laparoscopic support has passive joints (3 DOF) [52], therefore, the combination of sensors and actuators is shown in Table 2. Additionally, the platform has 3 DOF, 1 for lineal displacement of the arc along the base, and 2 for rotational motion of the robotic arms around the arc, besides there is an integrated micro-camera for real-time visualization of the procedure.…”

SY-MIS Project: Biomedical Design of Endo-Robotic and Laparoscopic Training System for Surgery on the Earth and Space