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Auteur
Tawanda Mushiri is an Executive DirectorTechnical (ED-Tech) at the Scienti? c and Industrial Research and Development Centre (SIRDC) in, Harare, Zimbabwe and a Senior Research Associate in the Department of Sport and Movement Studies, Biomedical Engineering and Healthcare Technology (BEAHT) Research Centre, Faculty of Health Sciences, University of Johannesburg, South Africa. His research interests are in AI, robotics, biomedical engineering, medical physics, and healthcare systems design. He is a member of both the Zimbabwe Institute of Engineers and the Engineering Council of Zimbabwe.
Marvellous Moyo is a PhD candidate in the Department of Biomedical Engineering at the University of Twente, Enscede, the Netherlands. He possesses advanced skills in engineering design, 3D modeling, and simulation and specializes in the ? elds of robotics, AI, Health 4.0, biomedical engineering, and renewable energy.Prof. Habib Noorbhai, Ph.D. (UCT), is a Professor of Health & Sports Science and serves as the Director of the Biomedical Engineering and Healthcare Technology (BEAHT) Research Centre at the Faculty of Health Sciences, University of Johannesburg (UJ).
In line with the 4IR mandate (Fourth Industrial Revolution mandate), he is involved in interdisciplinary work in healthcare technology and innovation spaces. He has a particular interest in how health sciences students can advance their clinical skills using gamification and innovative virtual-based tools.
Prof. Noorbhai holds an NRF Y-rating and continues to conduct research within cricket sciences. He has an H-index of 9 with over 50 publications in local and international journals (research articles, conference proceedings, and book chapters). He also serves as a reviewer for local and international health and sports science journals and as an Associate Editor for the BMJ Sport and Exercise Medicine journal.
In 2015, he was nominated among Mail and Guardian's top 200 young South Africans. He also won the Mr. South Africa title in 2017, using the platform to spearhead change within health, sport, and education. In 2018, he was later inducted as a Golden Key International Honorary Member at UCT for his contributions to academia, leadership, and service. In 2021, he was awarded the Distinguished Vice-Chancellor's Award for Teacher Excellence at UJ.
Dr. Qammer H. Abbasi is an esteemed researcher and academic known for his significant contributions across various fields. He holds a distinguished educational background, having obtained his BSc and MSc degrees in electronics and telecommunication engineering from the University of Engineering and Technology (UET) in Lahore, Pakistan, graduating with distinction. Dr. Abbasi further pursued his academic journey and earned a Ph.D. degree in Electronic and Electrical Engineering from Queen Mary University of London (QMUL), UK, in January 2012.
Currently, Dr. Abbasi holds the position of Reader at the James Watt School of Engineering, University of Glasgow, UK. Within the university, he holds several prominent roles, including Deputy Head for the Communication Sensing and Imaging group, Program Director for Dual PhD Degree, Deputy Theme Lead for Quantum & Nanotechnology, Co-Manager for RF and Terahertz laboratory, and Project Manager for EON XR Centre.
His research interests encompass several cutting-edge areas, including antennas for 5G and 6G, Bio-Electromagnetics, nano communication, Reconfigurable Intelligent Surfaces, Terahertz sensing, Internet of Things, biomedical applications of millimeter and terahertz communication, wearable and flexible sensors, antenna interaction with the human body, implants, body-centric wireless communication, non-invasive healthcare solutions, and physical layer security for wearable/implant communication.
Dr. Abbasi's exceptional contributions, extensive publication record, leadership roles, and dedication to advancing the scientific community have solidified his status as a highly regarded and influential figure in his field.
Texte du rabat
Moving Towards Fully Autonomous and Cost-Effective Surgical Robotic Systems with AI offers advanced insights into how AI can be used to optimize the design, manufacturing, and clinical application of these systems. It covers a wide range of topics, including the introduction of surgical robotic systems design and the presentation of a fully autonomous surgical robotic system for minimally invasive surgery. Advanced medical imaging techniques integrated with surgical robots are discussed to enhance surgical precision and safety. The book also highlights the application of machine learning and deep learning models in robotic-assisted surgery, with the development of novel algorithms for autonomous surgical robots. Various AI approaches for optimizing surgical robotic systems and the design considerations for manufacturing and assembly are examined. Additionally, the book includes a thorough analysis of the life cycle and economic aspects of surgical robotic systems, as well as risk assessment and evaluation methods. The final chapters address ethics considerations and explore future enhancements in the realm of fully autonomous surgical robotic systems. Overall, this book aims to contribute to the technical understanding, design aspects, and ethical dimensions of surgical robotics, promoting safer and more efficient surgical procedures.
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