Hyperspectral Imaging

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HYPERSPECTRAL IMAGING By- PARIKSHITH BEENAVENI 13951A0476

Transcript of Hyperspectral Imaging

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HYPERSPECTRAL IMAGINGBy-

PARIKSHITH BEENAVENI13951A0476

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Introduction What is Hyperspectral Imaging? How does Hyperspectral Imaging work? Acquisition Techniques for Hyperspectral Imaging Advantages Disadvantages Applications Softwares Used Conclusion

CONTENTS

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Imaging is the visual representation of an object’s form.

Spectral imaging is a branch of spectroscopy in which a complete spectrum or some spectral information is collected at every location on image plane and is processed.

The term Hyperspectral imaging comes under Spectral imaging.

Hyperspectral images are produced by instruments called Imaging spectrometers.

Spectral images are often represented as an image cube, a type of data cube.

INTRODUCTION

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Fig: Two-dimensional projection of a hyperspectral cube

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Hyperspectral imaging belongs to a class of techniques commonly referred to as spectral imaging or spectral analysis.

Hyperspectral imaging is the collecting and processing of information from across the electromagnetic spectrum.

Human eye sees visible light in three bands, i.e. red, green, and blue whereas spectral imaging divides the spectrum into many more bands.

What is Hyperspectral Imaging?

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Successive scan lines

Three-dimensionalHyperspectral cube isassembled by stackingtwo-dimensionalspatial-spectralscan lines

Spatialpixels

Spectral channels

x

y

z

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Hyperspectral imaging deals with the imaging of narrow spectral bands over a continuous spectral range, and produces the spectra of all pixels in the scene.

Hyperspectral sensors collect information as a set of ‘images’.

These 'images' are then combined and formed into a three-dimensional hyperspectral data cube for processing and analysis.

How Does Hyperspectral Imaging work?

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Hyperspectral imaging does not just measure each pixel in the image, but also measures the reflection, emission and absorption of electromagnetic radiation.

It provides a unique spectral signature for every pixel, which can be used by processing techniques to identify and discriminate materials.

How Does Hyperspectral Imaging work?

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Spatial Scanning

Spectral Scanning

Non-Scanning

Spatiospectral Scanning

Acquisition Techniques for Hyperspectral Imaging

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Fig: Acquisition techniques for hyperspectral imaging, visualized as sections of the hyperspectral datacube with its two spatial dimensions (x,y) and one spectral dimension (lambda).

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The primary advantage to hyperspectral imaging is that, because an entire spectrum is acquired at each point, the operator needs no prior knowledge of the sample, and postprocessing allows all available information from the dataset to be mined.

Hyperspectral imaging can also take advantage of the spatial relationships among the different spectra in a neighbourhood, allowing more elaborate spectral-spatial models for a more accurate segmentation and classification of the image.

Advantages

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The primary disadvantages are cost and complexity.

Fast computers, sensitive detectors, and large data storage capacities are needed for analyzing hyperspectral data.

Also, one of the hurdles researchers have had to face is finding ways to program hyperspectral satellites to sort through data on their own and transmit only the most important images, as both transmission and storage of that many data could prove difficult and costly

Disadvantages

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Agriculture Astronomy Chemical Imaging Eye care Food Processing Mineralogy Remote Sensing Surveillance

Applications

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Open source: HyperSpy(software)Python Hyperspectral Toolbox. Gerbil (software) hyperspectral visualization and analysis framework.

Commercial: Erdas Imagine, a remote sensing application for geospatial applications. ENVI a remote sensing application. MIA Toolbox multivariate image analysis. MicroMSI a remote sensing application. A Matlab Hyperspectral Toolbox. Other Hyperspectral tools in MATLAB. MountainsMap HyperSpectral, a version of MountainsMap dedicated to

the analysis of hyperspectral data in microscopy. Opticks a remote sensing application. Scyllarus, hyperspectral imaging C++ API, MATLAB Toolbox and visualize.  

Softwares Used

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Active area of Research and Development. With hundreds of spectral channels now

available, the sampled pixel spectra contain enough detail to allow spectroscopic principles to be applied for image understanding.

Requires an understanding of the nature and limitations of the data and of various strategies for processing and interpreting it.

“If a picture is worth 1000 words, a hyperspectral image is worth almost 1000 pictures”.

Conclusion

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