Internet of Things and Machine Learning for Type I and Type II Diabetes -

Internet of Things and Machine Learning for Type I and Type II Diabetes

Use cases
Buch | Softcover
448 Seiten
2024
Elsevier - Health Sciences Division (Verlag)
978-0-323-95686-4 (ISBN)
157,10 inkl. MwSt
Internet of Things and Machine Learning for?Type I and Type II Diabetes: Use Cases provides a medium of exchange of expertise and addresses the concerns, needs, and problems associated with Type I and Type II diabetes. Expert contributions come from researchers across biomedical, data mining, and deep learning. This is an essential resource for both the AI and Biomedical research community, crossing various sectors for broad coverage of the concepts, themes, and instrumentalities of this important and evolving area. Coverage includes IoT, AI, Deep Learning, Machine Learning and Big Data Analytics for diabetes and health informatics.

Sujata Dash holds the position of Professor at the Information Technology School of Engineering and Technology, Nagaland University, Dimapur Campus, Nagaland, India, bringing more than three decades of dedicated service in teaching and mentoring students. She has been honoured with the prestigious Titular Fellowship from the Association of Commonwealth Universities, United Kingdom. As a testament to her global contributions, she served as a visiting professor in the Computer Science Department at the University of Manitoba, Canada. With a prolific academic record, she has authored over 200 technical papers published in esteemed international journals, and conference proceedings, and edited book chapters by reputed publishers Serving as a reviewer and Associate Editor for approximately 15 international journals. Dr. Subhendu Kumar Pani received his Ph.D. from Utkal University, Odisha, India in the year 2013. He is working as a professor at Krupajal Engineering College under BPUT, Odisha, India. He has more than 20 years of teaching and research experience His research interests include Data mining, Big Data Analysis, web data analytics, Fuzzy Decision Making and Computational Intelligence. He is the recipient of 5 researcher awards. In addition to research, he has guided two PhD students and 31 M. Tech students. He has published 150 International Journal papers (100 Scopus index). His professional activities include roles as Book Series Editor (CRC Press, Apple Academic Press, Wiley-Scrivener), Associate Editor, Editorial board member and/or reviewer of various International Journals. He is an Associate with no. of the conference societies. He has more than 250 international publications, 5 authored books, 25 edited and upcoming books; 40 book chapters into his account. He is a fellow in SSARSC and a life member in IE, ISTE, ISCA, and OBA.OMS, SMIACSIT, SMUACEE, CSI. Willy Susilo received his Ph.D. degree in Computer Science from the University of Wollongong, Australia. He is a Distinguished Professor the Head of the School of Computing and Information Technology and the director of the Institute of Cybersecurity and Cryptology (iC2) at the University of Wollongong. Recently, he was awarded an Australian Laureate Fellowship, which is the most prestigious award in Australia, due to his contribution in cloud computing security. He was previously awarded a prestigious ARC Future Fellow by the Australian Research Council (ARC) and the Researcher of the Year award in 2016 by the University of Wollongong. He is a Fellow of IEEE, Australian Computer Society (ACS), IET and AAAI. His main research interests include cybersecurity, cryptography and information security. His work has been cited more than 25,000 times in Google Scholar. He is the Editor-in-Chief of the Elsevier Computer Standards and Interfaces and the MDPI Information journal. He has served as a program committee member in dozens of international conferences. He is currently serving as an Associate Editor in several international journals, including IEEE Transactions in Dependable and Secure Computing. Previously, he has served in many top-tier journals, such as IEEE Transactions in Information Forensics and Security. He has published more than 500 research papers in the area of cybersecurity and cryptology. Bernard Cheung went to Sevenoaks School and studied Medicine at the University of Cambridge. He was Professor of Clinical Pharmacology and Therapeutics at the University of Birmingham before returning to Hong Kong and being appointed the Sun Chieh Yeh Heart Foundation Professor in Cardiovascular Therapeutics. He was a Consultant Physician of Queen Mary Hospital and the Director of the Phase 1 Clinical Trials Units in Queen Mary Hospital and the University of Hong Kong-Shenzhen Hospital. Currently, he is the Biotechnology Director in the Innovation and Technology Commission. He is also the President of the Federation of Medical Societies of Hong Kong and the Editor-in-Chief of Postgraduate Medical Journal. Prof Cheung’s main research interest is in cardiovascular diseases and risk factors, including hypertension and the metabolic syndrome. Gary Tse is a distinguished academic physician-scientist and Professor at the School of Nursing and Health Sciences, Hong Kong Metropolitan University. Appointed to a full professorship in 2019 at Tianjin Medical University's Department of Cardiology, he also holds a joint appointment as Clinical Reader in Public Health Medicine at Kent and Medway Medical School, University of Kent, and serves as Public Health Consultant at the Medical Council's Public Health Directorate. Since 2021, he has been a Visiting Professor at the University of Surrey and Honorary Associate Professor at University College London. An elected member of the European Academy of Sciences and Arts since 2024, Tse has over 200 publications and an H-index of 58. He has secured more than HK$88 million in research funding and supervised 19 doctoral and 13 master students. His research focuses on using big data for cardiovascular risk prediction and developing AI-driven models for chronic diseases.

Section 1: Diagnosis 1. An Intelligent Diagnostic approach for diabetes Using rule-based Machine Learning techniques 2. Ensemble Sparse Intelligent Mining Techniques for Diabetes Diagnosis 3. Detection of Diabetic Retinopathy Using Neural Networks 4. An Intelligent Remote Diagnostic Approach for Diabetes Using Machine Learning Techniques 5. Diagnosis of Diabetic Retinopathy in Retinal Fundus Images Using Machine Learning and Deep Learning Models 6. Diagnosis of Diabetes Mellitus using Deep Learning Techniques and Big Data Section 2: Glucose monitoring 7. IoT and Machine Learning for Management of Diabetes Mellitus 8. Prediction of glucose concentration in type 1 diabetes patients based on Machine learning techniques 9. ML-Based PCA Methods to Diagnose Statistical Distribution of Blood Glucose Levels of Diabetic Patients Section 3: Prediction of complications and risk stratification 10. Overview of New trends on deep learning models for diabetes risk prediction 11. Clinical applications of deep learning in diabetes and its enhancements with future predictions 12. Feature Classification and Extraction of Medical Data Related to Diabetes Using Machine Learning Techniques: A Review 13. ML-based predictive model for type 2 diabetes mellitus using genetic and clinical data 14. Applications of IoT and data mining techniques for diabetes monitoring 15. Decision-making System for the Prediction of Type II Diabetes Using Data Balancing and Machine Learning Techniques 16. Comparative Analysis of Machine Learning Tools in Diabetes Prediction 17. Data Analytic models of patients dependent on insulin treatment 18. Prediction of Diabetes using Hybridization of Radial Basis Function Network and Differential Evaluation based Optimization Technique 19. An Overview of New Trends On Deep Learning Models For Diabetes Risk Prediction Section 4: Dialysis 20. Progression and Identification of heart disease risk factors in diabetic patients from electronic health records 21. An Intelligent Fog Computing-based Diabetes Prediction System for Remote Healthcare Applications 22. Artificial intelligence approaches for risk stratification of diabetic kidney disease 23. Computational Methods for predicting the occurrence of cardiac autonomic neuropathy 24. Development of a Clinical Forecasting Model to Predict Comorbid Depression in Diabetes Patients and its Application in Policy Making for Depression Screening Section 5: Drug design and Treatment Response 25. Enhancing Diabetic Maculopathy Classification through a Synergistic Deep Learning Approach by Combining Convolutional Neural Networks, Transfer Learning, and Attention Mechanisms 26. Pharmacogenomics: the roles of genetic factors on treatment response and outcomes in diabetes 27. Predicting treatment response in diabetes: the roles of machine learning-based models 28. Antidiabetic Potential of Mangrove Plants: An Updated Review

Erscheinungsdatum
Verlagsort Philadelphia
Sprache englisch
Maße 216 x 276 mm
Gewicht 450 g
Themenwelt Informatik Theorie / Studium Künstliche Intelligenz / Robotik
Medizinische Fachgebiete Innere Medizin Diabetologie
Medizin / Pharmazie Medizinische Fachgebiete Neurologie
ISBN-10 0-323-95686-6 / 0323956866
ISBN-13 978-0-323-95686-4 / 9780323956864
Zustand Neuware
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