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Hyperspectral Imaging, Vol 32. Data Handling in Science and Technology

  • ID: 4483039
  • Book
  • 800 Pages
  • Elsevier Science and Technology
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Hyperspectral Imaging, Volume 32, presents a comprehensive exploration of the different analytical methodologies applied on hyperspectral imaging and a state-of-the-art analysis of applications in different scientific and industrial areas. This book presents, for the first time, a comprehensive collection of the main multivariate algorithms used for hyperspectral image analysis in different fields of application. The benefits, drawbacks and suitability of each are fully discussed, along with examples of their application. Users will find state-of-the art information on the machinery for hyperspectral image acquisition, along with a critical assessment of the usage of hyperspectral imaging in diverse scientific fields.

  • Provides a comprehensive roadmap of hyperspectral image analysis, with benefits and considerations for each method discussed
  • Covers state-of-the-art applications in different scientific fields
  • Discusses the implementation of hyperspectral devices in different environments

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1. INTRODUCTION 1.1. Hyperspectral Images. From Remote sensing to bench top instruments. A general overview 1.2. Hyperspectral cameras. Types of hyperspectral cameras, radiations and sensors

2. ALGORITHMS AND METHODS 2.1. Pre-processing of hyperspectral images. Spatial and spectral issues 2.2. Hyperspectral data compression 2.3. Pansharpening 2.4. Unsupervised pattern recognition methods 2.5. Multivariate Curve Resolution 2.6. Non Linear Spectral un-mixing 2.7. Variability of the endmembers in spectral unmixing 2.8. Regression models 2.9. Classical Least Squares for Detection and Classification 2.10. Supervised Classification Methods in Hyperspectral Imaging
Recent Advances 2.11. Fusion of Hyperspectral Imaging and LiDAR for Forest Monitoring 2.12. Hyperspectral time series analysis: Hyperspectral image data streams interpreted by modeling known and unknown variations 2.13. Statistical Biophysical Parameter Retrieval and Emulation with Gaussian Processes

3. APPLICATION FIELDS 3.1. Hyperspectral cameras adapted to the applications. How and when 3.2. Applications in Remote Sensing
Natural Landscapes 3.3. Applications in Remote Sensing
Anthropogenic activities 3.4. Vegetation and crops 3.5. Food and feed production 3.6. Hyperspectral Imaging for Food related Microbiology Applications 3.7. Hyperspectral Imaging in Medical Applications 3.8. Hyperspectral Imaging as a part of Pharmaceutical Product Design 3.9. Hyperspectral imaging for artworks investigation 3.10. Growing applications of hyperspectral and multispectral imaging

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