Project 6

AI – Controlled Medical Surgery Robots

Our AI – controlled medical surgery robots project aims to revolutionize surgical procedures by introducing advanced robotics integrated with artificial intelligence to perform precise, minimally invasive surgeries. This project leverages our expertise in developing high – performance surgical robots designed to enhance the accuracy and safety of medical operations while reducing patient trauma and recovery time.

Overview and Objectives:

• Precision and Safety: Improve the precision and safety of medical procedures. These robots can accurately navigate to the surgical site, perform minimally invasive surgeries, and avoid damage to surrounding organs, reducing postoperative pain and the risk of complications.
• AI Integration: Equipped with AI technology for automated surgical planning and intelligent guidance during operations. This includes real-time image processing and 3D reconstruction, enabling surgeons to visualize the surgical field with unprecedented clarity.
• Robust Design: Six-axis robotic arms with an absolute error margin of ≤ 0.5mm, ensuring high precision during operations. Equipped with force control and feedback technology to support autonomous puncture and human-machine collaboration.

Key Features:

• Real – Time Monitoring: The robots monitor patients’ vital signs in real-time, enhancing the safety and efficiency of surgeries.
• Minimally Invasive Procedures: Magnify the surgical field of view and utilize VR/AR technologies to perform delicate operations with minimal trauma, resulting in shorter hospital stays and reduced healthcare costs.
• Automation and Intelligence: Designed to move towards higher levels of automation, combining various levels of machine guidance and assistance to ultimately perform surgeries with minimal human intervention.

Technological Innovations:

• 3D Reconstruction and Planning: Using advanced AI algorithms, our robots can perform accurate and rapid 3D reconstructions of anatomical structures from CT scans, aiding in precise preoperative planning and tumor localization.
• Mixed Reality Systems: Equipped with real-time interactive mixed reality systems providing comprehensive visual, auditory, and tactile feedback to surgeons.
• Autonomous Functionality: Future developments aim to enhance the robots’ ability to autonomously perform specific surgical tasks, improving both speed and precision.

Market Impact:

• Balancing Medical Resources: By enabling safer and more efficient surgeries, our robots help balance medical resources, especially in regions with limited access to experienced surgeons.
• Economic Benefits: The use of surgical robots can significantly reduce patients’ hospitalization time and postoperative treatment costs, making advanced surgical care more accessible and affordable.

Future Directions:

• Expanded Applications: Plan to expand the application of our surgical robots to various medical fields, including tumor ablation, cardiovascular surgeries, and more.
• Global Deployment: Goal to deploy over 10,000 surgical robots worldwide, serving hospitals, clinics, and research institutions, directly impacting patient care and surgical outcomes globally.

Our AI – controlled medical surgery robots project is at the forefront of medical technology, combining cutting-edge robotics with artificial intelligence to transform surgical procedures and improve patient care across the globe.