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This book equips students with crucial mathematical and algorithmic tools to understand complete computer vision systems.
List of contents
Part I. Preliminaries: 1. Computer vision, some definitions, and some history; 2. Writing programs to process images; 3. Review of mathematical principles; 4. Images - representation and creation; Part II. Preprocessing: 5. Kernel operators; 6. Noise removal; 7. Mathematical morphology; Part III. Image Understanding: 8. Segmentation; 9. Parametric transforms; 10. Representing and matching shape; 11. Representing and matching scenes; Part IV. The 2-D Image in a 3-D World: 12. Relating to three dimensions; 13. Developing computer vision algorithms.
About the author
Wesley E. Snyder is Professor Emeritus of Electrical and Computer Engineering at North Carolina State University. He was previously a professor at the Bowman Gray School of Medicine and worked at the GE Corporate Research and Development Center, NASA Langley Research Center, and the West German Air and Space Agency (DLR). He has published 179 research papers and was chosen as an Outstanding Engineering Educator in North Carolina in 1993. He was made fellow of the Institute of Electrical and Electronics Engineers (IEEE), Gladden Fellow (University of Western Australia), and Fellow of the American Institute of Medical and Biomedical Engineering.Hairong Qi is the Gonzalez Family Professor of Electrical Engineering and Computer Science at the University of Tennessee, Knoxville. Her research interests include collaborative signal and image processing, hyperspectral imaging, and bioinformatics. She is the recipient of a National Science Foundation CAREER Award, numerous best paper awards at international conferences, and was awarded the highest impact paper from the Institute of Electrical and Electronics Engineers (IEEE) Geoscience and Remote Sensing Society in 2012.
Summary
This books equips the advanced undergraduate or graduate student with crucial mathematical and algorithmic tools to develop computer software which can analyze images and produce decisions about the content of those images. Examples include identification and measurement of regions in medical images as well as defects in manufactured products.