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This book explores the advancements and future challenges in biomedical application developments using breakthrough technologies like AI, IoT, and Signal Processing. It will also contribute to biosensors, MEMS, and related research.
List of contents
1 Healthcare Fees-Centric to Value-Centric Transformation through Data, Analytics, and Artificial Intelligence
2 AI-Based Healthcare: Top Businesses and Technologies
3 Insights into AI, Machine Learning, and Deep Learning
4 Deep Learning for Visual Perceptual Brain Decoding as Image Classification
5 Automatic Brain Tumor Segmentation in Multimodal MRI Images Using Deep Learning
6 Automated Prediction of Lung Cancer Using Deep Learning Algorithms
7 Cervical Cancer Screening Approach Using AI
D. Santhi, M. Carmel Sobia, and M. Jayalakshmi 8 Progression Detection of Multiple Sclerosis in Brain MRI Images
9 Artificial Intelligence Clustering Techniques on Dermoscopic Skin Lesion Images
10 Automated Alzheimer's Disease Detection with Optimized Fuzzy Neural Network
11 A Comprehensive Survey with Bibliometric Analysis on Recent Research Opportunities of Multimodal Medical Image Fusion in Various Applications
12 Big Data in IoT for Healthcare Application
13 Automatic Detection of Diabetic Retinopathy to Avoid Blindness
14 A Review on Wireless BAN to Measure the Respiration Rate Using SoC Architecture
15 Deep Feature Extraction for EEG Signal Classification in Motor Imagery Tasks
16 Effect of Age in Normal Women by Heart Rate Variability Analysis
17 EEG Signal Analysis Using Machine Learning and Artificial Intelligence for Identification of Brain Dysfunction
18 Cervical Cancer Screening Methods: Comprehensive Survey
19 Understanding Assessment Methods and Sensors for ADHD Hyperactive-Impulsive Type among Children
20 Security of Medical Image Information by Cryptography and Watermarking Using Python
21 Integration of Biosensors and Drug Delivery Systems for Biomedical Applications
22 Automatic Liver and Lesion Segmentation in CT Using 3-D Context Convolutional Neural Network: 3-D Context U-Net
About the author
Dr. Swati V. Shinde has a Ph.D. in Computer Science and Engineering, from Swami Ramanand Teerth Marathwada University, Nanded. She has 20 years of teaching experience and is currently working as a Professor at Pimpri Chinchwad College of Engineering (PCCoE), Pune. She has worked as a HOD-IT for seven years in PCCoE. Her research interests include Machine Learning, Deep Learning, Soft Computing, Artificial Neural Network, and Fuzzy Logic.
Dr. Varsha Bendre received a Bachelor's degree in Electronics and Telecommunication Engineering from Saint Gadge Baba Amravati University, Amravati, and M.E degree from Savitribai Phule Pune University in 2000 and 2010 respectively. She completed a Ph.D. in the area of Nanotechnology and Low Power VLSI from Savitribai Phule Pune University, Pune, and Maharashtra, India in Jan 2020. Her research work is focused on analog circuit design at very deep submicron technology using Carbon Nanotube Field-Effect Transistors.
Dr. D. Jude Hemanth received his B.E degree in ECE from Bharathiar University in 2002, M.E degree in communication systems from Anna University in 2006, and Ph.D. from Karunya University in 2013. His research areas include Computational Intelligence and Image processing.
Dr. MA Balafar completed his Ph.D. in IT from UPM, Malaysia. He has 16 years of teaching experience and is working as an Assistant Professor at the University of Tabriz, Iran. His research interests are AI, computer vision, Fuzzy Logic, Deep Learning, Machine Learning, and information security.
