Bajaj V., Ansari I.A. (eds.) Internet of Things in Biomedical Sciences Challenges and applications

IOP Publishing Ltd, 2023. — 322 p. — (IPEM – IOP Series in Physics and Engineering in Medicine and Biology). — ISBN: 978-0-7503-5309-0.Nowadays, the biomedical domain is heavily dependent on technology. Connectivity is a much sought-after trait in biomedical devices. Telemedicine is an age-old idea but it has gained momentum due to the introduction of the Internet of Things (IoT). The effect of IoT is ubiquitous. The combination of IoT with the biomedical domain has created an entirely new area of research called IoMT (Internet of Medical Things). It is a niche area of research. Therefore, the idea behind this book is to bring forward the latest research happening in this multi-disciplinary field of biomedical science and IoT. The intervention of IoT in the biomedical field has led to the development of numerous medical devices. Therefore, this book aims to assess the impact and effect of IoT in the biomedical and telemedicine domain. This book features diverse research in the field of IoMT. It can act as a knowledge-sharing resource for academicians, professionals, and even beginners to get an idea about this area. The primary subject of this edited book is healthcare and medicine. It is a crucial area of research and it has a very positive effect on the quality of human life. It can certainly be called one of the most important areas of research given the present scenario.Telemedicine is the most prominent area where a combination of IoT and biomedicine is significant. Telemedicine, as the name suggests, deals with treatment even when doctors and patients are far away from each other. It is helpful for remote areas where healthcare facilities are scarce. In telemedicine, patient consultation, data sharing, diagnosis, management, etc., are done through various electronic devices over a communication network. The opportunities in telemedicine are endless and it is a boon for patients. The introduction of remote surgeries based on robotics has phenomenal potential. There will be no need for the physical presence of a surgeon. Surgeons with a certain set of skills can operate on their patients from any part of the world. What felt impossible previously has become a reality with the introduction of technologies like IoT.IoT-based continuous cardiac monitoring system.
IoT architectures for biomedical devices.
AI's role in making IoT-based medical devices a success.
IoT-enabled biosensors for cancer and disease detection.
A comprehensive study on IoT applications in wearable healthcare devices.
Integration of IoT and chatbot for spreading awareness on cancer using Engati.
IoT solutions for fighting antimicrobial resistance 7.
IoT-based heart valve disorder detection using an amplitude and frequency modulated signal model.
Role of Internet of Things, artificial intelligence, and machine learning in biomedical devices: a comprehensive review.
Internet of Medical Things-based wearable medical devices.
Low-cost solutions for cardiac care services based on IoT capabilities.
Patient empowerment with direct insights from healthcare professionals' questionnaires.
Internet of Things in the biomedical system: significance, applications, and challenges.
Automated IoT-based detection of periodic leg movement using optimal wavelet-based entropy features.