Image Analysis, Sediments and PaleoenvironmentsPierre Francus Springer Science & Business Media, 19 gen 2007 - 330 pagine This is a guide to imaging techniques for sedimentologists, paleolimnologists, paleoceanographers and microscopists involved in paleoenvironmental reconstruction. Case studies illustrate the range of information obtainable from different sediments (marine, lacustrine, aeolian) and different types of samples (cores, embedded blocks, microscopic slides) using different regions of the electromagnetic spectrum (visible, UV, IR, X-ray). Includes comprehensive protocols, guidelines, and recommendations for the use of low cost image analysis techniques. |
Sommario
An introduction to image analysis sediments and paleoenvironments | 1 |
Image acquisition | 11 |
Image calibration filtering and processing | 37 |
Image measurements | 38 |
Introduction | 43 |
Metadata | 55 |
Eric Pirard | 59 |
Blob analysis | 67 |
Testing of the method | 152 |
Marine Laminated sediments from the west | 159 |
Principato | 165 |
Advantages of using image analysis | 174 |
Future direction | 181 |
Examples from Lake Nautajärvi clasticorganic varves | 193 |
Summary | 199 |
Image processing | 211 |
Structural analysis | 77 |
Summary | 85 |
Integration errors sampling | 93 |
Future directions | 100 |
Image data collection | 106 |
RGB to Lab conversion and colour calibration | 116 |
Summary | 122 |
Toward a nonlinear grayscale calibration method for legacy | 125 |
Evaluating the nonlinear correction method | 134 |
140 | |
Wavelet analysis | 146 |
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