Digital Image Analysis of Microbes: Imaging, Morphometry, Fluorometry and Motility Techniques and ApplicationsISBN: 978-0-471-97440-6
Hardcover
584 pages
April 1998
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Partial table of contents:
TECHNICAL BACKGROUND.
An Introduction to Digital Image Processing (J. Roerdink).
Image Detectors for Digital Image Microscopy (L. Van Vliet, et al.).
Optical Systems for Image Analysed Microscopy (M. Wilkinson).
Single and Multiple Spectral Parameter Fluorescence Microscopy (J. Slavik).
SINGLE-CELLED ORGANISMS.
Morphometry of Yeast (M.-N.
Pons & H. Vivier).
Optimized Population Statistics Derived from Morphometry (B. Meijer & M. Wilkinson).
Motility, Chemotaxis and Phototaxis Measurements by Image Analysis (G. Cercignani, et al.).
MULTICELLULAR ORGANISMS AND CONSORTIA.
Quantitative Morphology of Filamentous Micro-Organisms (A. Spohr, et al.).
The Study of Biofilms Using Confocal Laser Scanning Microscopy (J. Lawrence, et al.).
Agar Plate Techniques (A. Peters, et al.).
Appendix.
Index.
TECHNICAL BACKGROUND.
An Introduction to Digital Image Processing (J. Roerdink).
Image Detectors for Digital Image Microscopy (L. Van Vliet, et al.).
Optical Systems for Image Analysed Microscopy (M. Wilkinson).
Single and Multiple Spectral Parameter Fluorescence Microscopy (J. Slavik).
SINGLE-CELLED ORGANISMS.
Morphometry of Yeast (M.-N.
Pons & H. Vivier).
Optimized Population Statistics Derived from Morphometry (B. Meijer & M. Wilkinson).
Motility, Chemotaxis and Phototaxis Measurements by Image Analysis (G. Cercignani, et al.).
MULTICELLULAR ORGANISMS AND CONSORTIA.
Quantitative Morphology of Filamentous Micro-Organisms (A. Spohr, et al.).
The Study of Biofilms Using Confocal Laser Scanning Microscopy (J. Lawrence, et al.).
Agar Plate Techniques (A. Peters, et al.).
Appendix.
Index.