Advances in semi-automated high-throughput image data collection routines, coupled with a decline in storage costs and an increase in high-performance computing solutions have led to an exponential surge in data collected by biomedical scientists and medical practitioners. This book presents an array of image modeling algorithms and methodologies.

Biological and Computational Basis of the Human Eye (H W Thompson); Computational Methods for Feature Detection in Optical Images (M Dessauer & S Dua); Optical Eye Modeling and Applications (Y-L Chen et al.); Hyperspectral Image Analysis for Oxygen Saturation Automated Localization of the Eye (B Khoobehi & J M Beach); Automated Localization of Eye and Cornea using Snake and Target Tracing Function (J-H Tan et al.); The Study of Ocular Surface Temperature by Infrared Thermography: The Principles, Methodologies, and Applications (J-H Tan et al.); The Temperature Distribution inside the Human Eye with Tumor Growth (E H Ooi & E Y K Ng); Automated Diagnosis of Glaucoma using Digital Fundus Images (R Acharya U et al.); Automated Microaneurysm Detection in Fluorescein Angiograms for Diabetic Retinopathy (P Sethi & H W Thompson); Automated Classification of Retina Fundus Images into Distinct Classes of Diabetic Retinopathy (R Acharya U et al.); Reliable Transmission of Retinal Fundus Images with Patient Information using Encryption, Watermarking, and Error Control Codes (M Nergui et al.); Temperature Changes inside the Human Eye during LTKP (E H Ooi & E Y K Ng); Computational Decision Support Systems and Diagnostic Tools in Ophthalmology: A Schematic Survey (S Dua & M Jain); Automating the Diagnosis, Stratification, and Management of Diabetic Retinopathy Using Content-Based Image Retrieval in an Ocular Telehealth Network (T P Karnowski).