Techniques and Applications of Hyperspectral Image Analysis
List of Contributors.
List of Abbreviations.
1 Multivariate Images, Hyperspectral Imaging: Background and Equipment (Paul L. M. Geladi, Hans F. Grahn and James E. Burger).
2 Principles of Multivariate Image Analysis (MIA) in Remote Sensing, Technology and Industry (Kim H. Esbensen and Thorbjørn T. Lied).
3 Clustering and Classification in Multispectral Imaging for Quality Inspection of Postharvest Products (Jacco C. Noordam and Willie H. A. M. van den Broek).
4 Self-modeling Image Analysis with SIMPLISMA (Willem Windig, Sharon Markel and Patrick M. Thompson).
5 Multivariate Analysis of Spectral Images Composed of Count Data (Michael R. Keenan).
6 Hyperspectral Image Data Conditioning and Regression Analysis (James E. Burger and Paul L. M. Geladi).
7 Principles of Image Cross-validation (ICV): Representative Segmentation of Image Data Structures (Kim H. Esbensen and Thorbjørn T. Lied).
8 Detection, Classification, and Quantification in Hyperspectral Images Using Classical Least Squares Models (Neal B. Gallagher).
9 Calibration Standards and Image Calibration (Paul L. M. Geladi).
10 Multivariate Movies and their Applications in Pharmaceutical and Polymer Dissolution Studies (Jaap van der Weerd and Sergei G. Kazarian).
11 Multivariate Image Analysis of Magnetic Resonance Images: Component Resolution with the Direct Exponential Curve Resolution Algorithm (DECRA) (Brian Antalek, Willem Windig and Joseph P. Hornak).
12 Hyperspectral Imaging Techniques: an Attractive Solution for the Analysis of Biological and Agricultural Materials (Vincent Baeten, Juan Antonio Fernández Pierna and Pierre Dardenne).
13 Application of Multivariate Image Analysis in Nuclear Medicine: Principal Component Analysis (PCA) on Dynamic Human Brain Studies with Positron Emission Tomography (PET) for Discrimination of Areas of Disease at High Noise Levels (Pasha Razifar and Mats Bergström).
14 Near Infrared Chemical Imaging: Beyond the Pictures (E. Neil Lewis, Janie Dubois, Linda H. Kidder and Kenneth S. Haber).
Hans F Grahn received his Ph.D. in Physical Organic Chemistry in 1986. Following several years of work abroad he began MRI studies in the laboratory of Dr Zeverenyi at SUNY Health Center, NY. At this time (1988) Hans also began to collaborate with Paul Geladi and the MIA (Multivariate Image Analysis) software for MRI multivariate images was written. In 1990 Hans received funding from the Swedish Natural Science Foundation for 2D NMR work at Umeå University. In 1991 he began a 3 year project at AstraZeneca. During this period he continued to collaborate with the pharmaceutical industry and the Karolinska Institute, where he received a position as a preclinical researcher and associate Professor at a new MRI -centre. Hans has more than 35 coauthored scientific papers and book chapters. He is now active as Business Developer in the Medical Imaging business and is also active in his own company.
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