Cognitive Robotics-Driven Assistance System for Precision Medical and Dental Procedures
Abstract
This paper presents the use of cognitive robotics to assist surgeons in precision dental procedures, enhancing the accuracy and efficiency of treatments. Cognitive robotics combines artificial intelligence with robotic systems, allowing for adaptive learning, decision-making, and real-time adjustments during complex medical tasks. In dental procedures, precision is crucial for optimal outcomes, especially in tasks such as implant placements, root canal treatments, and dental surgeries. The proposed system integrates cognitive robotics with advanced imaging technologies to provide real-time guidance and support, allowing the robotic system to learn from each procedure and improve over time. The system can analyze patient-specific data, adjust movements in response to changes, and provide surgeons with precise recommendations or corrective actions. Experimental results show that this approach reduces human error, increases operational efficiency, and enhances patient outcomes. The integration of cognitive robotics into dental surgery represents a significant step forward in the field of medical robotics and precision dentistry.