Hyperspectral band selection using genetic algorithm and support vector machines for early identification of charcoal rot disease in soybean
Charcoal rot is a fungal disease that thrives in warm dry conditions and affects the yield of soybeans and other important agronomic crops worldwide. There is a need for robust, automatic and consistent early detection and quantification of disease symptoms which are important in breeding programs f...
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| Format | Journal Article |
| Language | English |
| Published |
12.10.2017
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| Abstract | Charcoal rot is a fungal disease that thrives in warm dry conditions and
affects the yield of soybeans and other important agronomic crops worldwide.
There is a need for robust, automatic and consistent early detection and
quantification of disease symptoms which are important in breeding programs for
the development of improved cultivars and in crop production for the
implementation of disease control measures for yield protection. Current
methods of plant disease phenotyping are predominantly visual and hence are
slow and prone to human error and variation. There has been increasing interest
in hyperspectral imaging applications for early detection of disease symptoms.
However, the high dimensionality of hyperspectral data makes it very important
to have an efficient analysis pipeline in place for the identification of
disease so that effective crop management decisions can be made. The focus of
this work is to determine the minimal number of most effective hyperspectral
bands that can distinguish between healthy and diseased specimens early in the
growing season. Healthy and diseased hyperspectral data cubes were captured at
3, 6, 9, 12, and 15 days after inoculation. We utilized inoculated and control
specimens from 4 different genotypes. Each hyperspectral image was captured at
240 different wavelengths in the range of 383 to 1032 nm. We used a combination
of genetic algorithm as an optimizer and support vector machines as a
classifier for identification of maximally effective band combinations. A
binary classification between healthy and infected samples using six selected
band combinations obtained a classification accuracy of 97% and a F1 score of
0.97 for the infected class. The results demonstrated that these carefully
chosen bands are more informative than RGB images, and could be used in a
multispectral camera for remote identification of charcoal rot infection in
soybean. |
|---|---|
| AbstractList | Charcoal rot is a fungal disease that thrives in warm dry conditions and
affects the yield of soybeans and other important agronomic crops worldwide.
There is a need for robust, automatic and consistent early detection and
quantification of disease symptoms which are important in breeding programs for
the development of improved cultivars and in crop production for the
implementation of disease control measures for yield protection. Current
methods of plant disease phenotyping are predominantly visual and hence are
slow and prone to human error and variation. There has been increasing interest
in hyperspectral imaging applications for early detection of disease symptoms.
However, the high dimensionality of hyperspectral data makes it very important
to have an efficient analysis pipeline in place for the identification of
disease so that effective crop management decisions can be made. The focus of
this work is to determine the minimal number of most effective hyperspectral
bands that can distinguish between healthy and diseased specimens early in the
growing season. Healthy and diseased hyperspectral data cubes were captured at
3, 6, 9, 12, and 15 days after inoculation. We utilized inoculated and control
specimens from 4 different genotypes. Each hyperspectral image was captured at
240 different wavelengths in the range of 383 to 1032 nm. We used a combination
of genetic algorithm as an optimizer and support vector machines as a
classifier for identification of maximally effective band combinations. A
binary classification between healthy and infected samples using six selected
band combinations obtained a classification accuracy of 97% and a F1 score of
0.97 for the infected class. The results demonstrated that these carefully
chosen bands are more informative than RGB images, and could be used in a
multispectral camera for remote identification of charcoal rot infection in
soybean. |
| Author | Nagasubramanian, Koushik Ganapathysubramanian, Baskar Singh, Asheesh K Jones, Sarah Singh, Arti Sarkar, Soumik |
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| BackLink | https://doi.org/10.48550/arXiv.1710.04681$$DView paper in arXiv |
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| Snippet | Charcoal rot is a fungal disease that thrives in warm dry conditions and
affects the yield of soybeans and other important agronomic crops worldwide.
There is... |
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| SubjectTerms | Computer Science - Computer Vision and Pattern Recognition |
| Title | Hyperspectral band selection using genetic algorithm and support vector machines for early identification of charcoal rot disease in soybean |
| URI | https://arxiv.org/abs/1710.04681 |
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