Moving Towards Everlasting Artificial Intelligent Battery-Powered Implants
- 1st Edition - October 1, 2024
- Authors: Tawanda Mushiri, Marvellous Moyo
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 4 8 3 0 - 6
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 4 8 3 1 - 3
Moving Towards Everlasting Artificial Intelligent Battery-Powered Implants presents the development process of new artificial intelligent charging systems for battery powere… Read more
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Request a sales quoteMoving Towards Everlasting Artificial Intelligent Battery-Powered Implants presents the development process of new artificial intelligent charging systems for battery powered implants that can last for a lifetime after implantation. This book introduces new strategies to address the limitations of technologies that have been employed to improve the lifespan of medical implants. This book also provides guidelines that medical implant manufacturers can adopt during their product development stages - this adds a new dimension of research on medical device implants that can be a game changer for the artificial intelligent (AI) medical implants industry.
Researchers, engineers, and graduate students in the fields of biomedical engineering, electrical engineering, and computer science will find this text helpful as they seek to understand the potential of AI systems to help achieve sustainability in healthcare and make current medical implants relevant in the future.
Researchers, engineers, and graduate students in the fields of biomedical engineering, electrical engineering, and computer science will find this text helpful as they seek to understand the potential of AI systems to help achieve sustainability in healthcare and make current medical implants relevant in the future.
1. Artificial Intelligence and Medical Devices Implants
2. Trends in Pacemaker Technology: A Literature Survey
3. Power Technologies of Cardiac Pacemakers
4. Materials And Modelling of an Artificial Intelligent Charging System for a Cardiac Pacemaker
5. Modelling of an In Vivo Electrochemical Sensors
6. Cardiovascular Disease Prediction Using Machine Learning Models and Ensemble Technique
7. Improve Disease Prediction Using Deep Learning Approach
8. Boosting P6 Medicine aAnd Its Ethical Considerations
9. Development and Validation of a Biomodified Fuel Cell Using Matlab
10. Thermoelectric And Biomodified Fuel Cell Hybrid Power Generation
11. Alternative Road to Commercialisation of Medical Implants Designs: A Case for a New AI Pacemaker
12. Risk Assesment of an AI Charging System for Medical Implants
13. Lifetime Cost and Economic Analysis of an AI Charging System for Medical Implants
14. Future and Way Forward of an AI Charging System for Medical Battery Powered Implants
2. Trends in Pacemaker Technology: A Literature Survey
3. Power Technologies of Cardiac Pacemakers
4. Materials And Modelling of an Artificial Intelligent Charging System for a Cardiac Pacemaker
5. Modelling of an In Vivo Electrochemical Sensors
6. Cardiovascular Disease Prediction Using Machine Learning Models and Ensemble Technique
7. Improve Disease Prediction Using Deep Learning Approach
8. Boosting P6 Medicine aAnd Its Ethical Considerations
9. Development and Validation of a Biomodified Fuel Cell Using Matlab
10. Thermoelectric And Biomodified Fuel Cell Hybrid Power Generation
11. Alternative Road to Commercialisation of Medical Implants Designs: A Case for a New AI Pacemaker
12. Risk Assesment of an AI Charging System for Medical Implants
13. Lifetime Cost and Economic Analysis of an AI Charging System for Medical Implants
14. Future and Way Forward of an AI Charging System for Medical Battery Powered Implants
- No. of pages: 400
- Language: English
- Edition: 1
- Published: October 1, 2024
- Imprint: Academic Press
- Paperback ISBN: 9780443248306
TM
Tawanda Mushiri
Tawanda Mushiri is a senior lecturer in the Department of Biomedical Informatics and Biomedical Engineering under the Faculty of Engineering and the Built Environment at the University of Zimbabwe. His research interests are in artificial intelligence, robotics, biomedical engineering, medical physics, and healthcare systems design. He has published 2 books, 11 chapters, 23 journals in highly accredited publishers, and 87 conferences in peer reviewed publishers. He has also supervised more than 200 student undergraduate projects, 20 masters students to completion, and 2 PhD students in progress. Tawanda is a member of the Zimbabwe Institute of Engineers and the Engineering Council of Zimbabwe, and is in the process of finalizing his patent for robotic first aid in passenger vehicles, which aims to reduce deaths in global society where accidents occur.
Before becoming an academic, Tawanda Mushiri worked as a Professional Engineer for the National Oil Company of Zimbabwe (NOCZIM) (Pvt.) Ltd (Supervising and delegating preventive maintenance report forms of machines, working both as an engineer and an operator with RSVIEW 32 runtime (to maintain and control fuel plant processes) and Entis 5.17x and Entis Pro (to monitor and control fuel tank inventory).
After NOCZIM, Tawanda did a lot of consultancy in the following companies:
• Coal Beneficiation for the Metallurgical Industry US$30,000 and Bots P550,000.
• Improving access to healthcare services and pregnancy outcomes using Mobile health technology in the COVID-19 pandemic in Zimbabwe (Under review by NIH)
• RISK ASSESSMENT OF THE FERUKA PETROLEUM HANDLING DEPOT IN RELATION TO THE ADJOINING FERUKA REFINERY STRUCTURE AND THE
OXYGEN AND ACETYLENE PRODUCTION PLANT – (December 2019).
• US$10,000, Preliminary hazard analysis for the NOIC Ruwa Plant
• Design of an automated Steel Ball Making Machine SHENZHU STEEL BALL MANUFACTURERS PVT LTD
• 2016; Design of a small-scale weeding machine for a developing nation, sponsored by the University of Zimbabwe, US$3 430,00 (1 August 2015 – 31 July 2016). Gadget manufactured and completed, nice piece of knowledge. 3D printing was done to the prototype machine
• 2016; Design of an economic solar panel cleaner for multipurpose use, sponsored by the University of Zimbabwe, US$2 940,00 (1 August 2015 – 31 July 2016).
• 2015; INDUSTRIAL DEVELOPMENT ZONES ANALYSIS IN INDUSTRIAL PARKS IDENTIFIED FOR GREEN INDUSTRIES AND WASTE MANAGEMENT SECTOR ON BEHALF OF THE CLEANER PRODUCTION CENTRE OF SOUTH AFRICA: Wadeville and Alrode Industrial Parks – Gauteng Province; sponsored
Affiliations and expertise
University of Zimbabwe, Harare, ZimbabweMM
Marvellous Moyo
Marvellous Moyo is a master’s student in the Department of Bioinformatics and Biomedical Engineering, Class of 2023, within the Faculty of Medicine and Health Sciences at the University of Zimbabwe (UZ). He is guided by principles of creativity, professionalism, and a commitment to excellence. Marvellous possesses advanced skills in engineering design, 3D modeling and simulation, and intends to specialize in the fields of robotics, artificial intelligence, health 4.0, aerodynamics, and renewable energy. Currently, Marvellous has his first journal article under review with Springer, and his first book will be published by Elsevier in 2023. He is a passionate technology enthusiast, dedicating most of his time to research in Artificial Intelligence, Robotics, Biomedical Engineering, Aerodynamics, and Healthcare Systems Design.
Affiliations and expertise
University of Zimbabwe, Harare, Zimbabwe