In the ever-evolving realm of healthcare, "Artificial Intelligence in Medicine" emerges as a trailblazing guide, offering an exhaustive exploration of the transformative power of Artificial Intelligence (AI).
In the ever-evolving realm of healthcare, "Artificial Intelligence in Medicine" emerges as a trailblazing guide, offering an exhaustive exploration of the transformative power of Artificial Intelligence (AI). Crafted by leading experts in the field, this book sets out to bridge the gap between theoretical understanding and practical application, presenting a comprehensive journey through the foundational principles, cutting-edge applications, and the potential impact of AI in the medical landscape.
This book embarks on a journey from foundational principles to advanced applications, presenting a holistic perspective on the integration of AI into diverse aspects of medicine. With a clear aim to cater to both researchers and practitioners, the scope extends from fundamental AI techniques to their innovative applications in disease detection, prediction, and patient care.
Distinguished by its practical orientation, each chapter presents actionable workflows, making theoretical concepts directly applicable to real-world medical scenarios. This unique approach sets the book apart, making it an invaluable resource for learners and practitioners alike.
Key Features:
· Comprehensive Exploration: From deep learning approaches for cardiac arrhythmia to advanced algorithms for ocular disease detection, the book provides an in-depth exploration of critical topics, ensuring a thorough understanding of AI in medicine.
· Cutting-edge Applications: The book delves into cutting-edge applications, including a vision transformer-based approach for brain tumor detection, early diagnosis of skin cancer, and a deep learning-based model for early detection of COVID-19 using chest X-ray images.
· Practical Insights: Practical workflows and demonstrations guide readers through the application of AI techniques in real-world medical scenarios, offering insights that transcend theoretical boundaries.
This book caters to researchers, practitioners, and students in medicine, computer science, and healthcare technology. With a focus on practical applications, this book is an essential guide for navigating the dynamic intersection of AI and medicine. Whether you are an expert or a newcomer to the field, this comprehensive volume provides a roadmap to the revolutionary impact of AI on the future of healthcare.
PART
1. Foundations of AI in healthcare,
1. Exploring deep learning
approaches for cardiac arrhythmia diagnosis,
2. Neural networks and LDA-based
machine learning framework for the early detection of breast cancer,
3.
Advanced deep learning algorithms for early ocular disease detection using
fundus images, PART
2. Disease detection and diagnosis,
4. A vision
transformer-based approach for brain tumor detection,
5. Early detection of
skin cancer through human-computer collaboration,
6. Improved mass detection
in mammogram images with Dual Tree Complex Wavelet Transform and Fourier
Descriptors,
7. A deep learning-based model for early detection of COVID-19
using chest X-ray images,
8. Detection of seizure activity in fMRI images
using deep learning techniques, PART
3. Disease prediction and public health,
9. Improving prediction accuracy for neo-adjuvant chemotherapy response in
breast cancer through 3D image segmentation and deep learning techniques,
10.
A machine learning predictive framework for diabetes management using blood
parameters,
11. A combined neuro-fuzzy and Naive Bayes approach for swine flu
disease prediction,
12. Enhancing decision-making in maternal public
healthcare using a knowledge discovery-based predictive analytics framework,
PART
4. Patient care and enhancements,
13. Enhancing patient care and
treatment through explainable AI: A gap analysis,
14. Improved medical image
captioning for chest X-rays using a hybrid VGG-ELECTRA model,
15. Diagnosing
Parkinsons disease using a deep learning model based on electromyography
sensors,
16. Enhancing heart disease prediction with Hybridized KNN-MOPSO
algorithm
Thompson Stephan earned his Ph.D. in Computer Science and Engineering from Pondicherry University, India, in 2018. Currently serving as an Associate Professor in the Department of Computer Science & Engineering at Graphic Era Deemed to be University, Dehradun, Uttarakhand, India, he achieved recognition among the world's top 2% most influential scientists for 2023, a distinction jointly conferred by Elsevier and Stanford University, USA. Acknowledged for academic excellence during his master's degree, he secured a university rank. Additionally, he was honored with the Best Researcher Award-2020 and the Protsahan Research Award in 2023 by the IEEE Bangalore Section, India. His research interests primarily focus on implementing and applying artificial intelligence techniques in practical settings. He has authored numerous technical research papers published in renowned journals and conferences by IEEE, Elsevier, Springer, and others. Actively serving as a reviewer for esteemed international journals and working as a book editor, Thompson Stephan is dedicated to advancing the field.
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