Description
Medical Robotics and Intelligent Healthcare Technologies: AI Applications to Improve Healthcare in Developing Countries is an essential reference for professionals and researchers in fields such as biomedical engineering, health informatics, bioelectronics, medical electronics, physiology, and robotics. This book presents the latest advancements in AI and machine learning-based robotics applications, enabling readers to quickly grasp effective methods and compare various approaches. Addressing critical research areas that directly impact human life and health fills a significant market gap, providing valuable insights into AI, deep learning, machine learning, and big data analytics methods as they relate to emerging robotics research models in the biomedical and healthcare domains.It offers a comprehensive understanding of the concepts, themes, and tools in medical robotics, IoT-based applications, edge computing, and artificial intelligence. With a specific focus on developing countries, this book catalyzes healthcare progress by showcasing the potential of medical robotics and intelligent healthcare technologies. It aims to empower researchers and practitioners to harness these state-of-the-art technologies to improve healthcare systems worldwide.- Provides comprehensive coverage of the concepts, themes, and tools in the field of medical robotics, IoT-based applications, edge computing, and artificial intelligence- Emphasizes the automation of robotic tasks to achieve a low-cost and secure operational environment- Focuses on the application of robotics in medical diagnosis and various medical fields, including rehabilitation, surgery, different diagnostic stages, and medical and surgical training
Table of Contents
1. Robotics for medical applications2. Neurorobotics approach in the human infant.3. Control methods in biomedical system4. Real-time classification of electromyography signals for robotics5. Computational methods and mathematics for Medical Robotics6. Computational method in modelling and control with bio signal processing7. Image-guided Diagnosis and Therapy8. Smart instrumented tools for surgery9. Rehabilitation Robotics System Development10. Safety aspects in rehabilitation and assistive robotics11. Classification of robotic data using Machine learning techniques12. Tactile and sensor technologies in medical usage13. Haptic and Teleoperation in Biomedicine14. Usage of explainable machine learning and interpretable artificial intelligence in medical robotics
