Advances in robotic and minimally invasive surgery reshape modern healthcare by improving precision and reducing procedural invasiveness. However, the lack of rich tactile perception and intelligent sensory feedback continues to limit surgeons' situational awareness, particularly in microsurgical and remote teleoperation settings. Recent developments in bio-haptics, AI, micro-robotics, and ultra-low-latency communication technologies offer promising pathways to overcome these limitations. Further exploration may enable more ...
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Advances in robotic and minimally invasive surgery reshape modern healthcare by improving precision and reducing procedural invasiveness. However, the lack of rich tactile perception and intelligent sensory feedback continues to limit surgeons' situational awareness, particularly in microsurgical and remote teleoperation settings. Recent developments in bio-haptics, AI, micro-robotics, and ultra-low-latency communication technologies offer promising pathways to overcome these limitations. Further exploration may enable more adaptive, responsive, and human-centered surgical systems. Integrating Bio-Haptic Intelligence in Surgical Robotics provides a comprehensive, practice-oriented resource that bridges innovations in bio-haptics, AI, and micro-robotic control with their real-world deployment in next-generation surgical platforms. It addresses the gap between current robotic systems and the need for tactile awareness, intelligent sensory integration, and safe remote operation. This book covers topics such as biotechnology, medical diagnostics, and neurosurgery, and is a useful resource for engineers, medical and healthcare professionals, academicians, researchers, and scientists.
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