Damage and quality assessment in wheat by NIR hyperspectral imaging

Stephen R. Delwiche; Moon S. Kim; Yanhong Dong

doi:10.1117/12.851150

Damage and quality assessment in wheat by NIR hyperspectral imaging

Stephen R. Delwiche, Moon S. Kim, Yanhong Dong

Plant Pathology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

6 Scopus citations

Abstract

Fusarium head blight is a fungal disease that affects the world's small grains, such as wheat and barley. Attacking the spikelets during development, the fungus causes a reduction of yield and grain of poorer processing quality. It also is a health concern because of the secondary metabolite, deoxynivalenol, which often accompanies the fungus. While chemical methods exist to measure the concentration of the mycotoxin and manual visual inspection is used to ascertain the level of Fusarium damage, research has been active in developing fast, optically based techniques that can assess this form of damage. In the current study a near-infrared (1000-1700 nm) hyperspectral image system was assembled and applied to Fusarium-damaged kernel recognition. With anticipation of an eventual multispectral imaging system design, 5 wavelengths were manually selected from a pool of 146 images as the most promising, such that when combined in pairs or triplets, Fusarium damage could be identified. We present the results of two pairs of wavelengths [(1199, 1474 nm) and (1315, 1474 nm)] whose reflectance values produced adequate separation of kernels of healthy appearance (i.e., asymptomatic condition) from kernels possessing Fusarium damage.

Original language	English (US)
Title of host publication	Sensing for Agriculture and Food Quality and Safety II
DOIs	https://doi.org/10.1117/12.851150
State	Published - 2010
Event	Sensing for Agriculture and Food Quality and Safety II - Orlando, FL, United States Duration: Apr 6 2010 → Apr 7 2010

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	7676
ISSN (Print)	0277-786X

Conference

Conference	Sensing for Agriculture and Food Quality and Safety II
Country	United States
City	Orlando, FL
Period	4/6/10 → 4/7/10

Keywords

Fusarium head blight
damage
hyperspectral imaging
wheat

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10.1117/12.851150

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Delwiche, SR, Kim, MS & Dong, Y 2010, Damage and quality assessment in wheat by NIR hyperspectral imaging. in Sensing for Agriculture and Food Quality and Safety II., 767607, Proceedings of SPIE - The International Society for Optical Engineering, vol. 7676, Sensing for Agriculture and Food Quality and Safety II, Orlando, FL, United States, 4/6/10. https://doi.org/10.1117/12.851150

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N2 - Fusarium head blight is a fungal disease that affects the world's small grains, such as wheat and barley. Attacking the spikelets during development, the fungus causes a reduction of yield and grain of poorer processing quality. It also is a health concern because of the secondary metabolite, deoxynivalenol, which often accompanies the fungus. While chemical methods exist to measure the concentration of the mycotoxin and manual visual inspection is used to ascertain the level of Fusarium damage, research has been active in developing fast, optically based techniques that can assess this form of damage. In the current study a near-infrared (1000-1700 nm) hyperspectral image system was assembled and applied to Fusarium-damaged kernel recognition. With anticipation of an eventual multispectral imaging system design, 5 wavelengths were manually selected from a pool of 146 images as the most promising, such that when combined in pairs or triplets, Fusarium damage could be identified. We present the results of two pairs of wavelengths [(1199, 1474 nm) and (1315, 1474 nm)] whose reflectance values produced adequate separation of kernels of healthy appearance (i.e., asymptomatic condition) from kernels possessing Fusarium damage.

AB - Fusarium head blight is a fungal disease that affects the world's small grains, such as wheat and barley. Attacking the spikelets during development, the fungus causes a reduction of yield and grain of poorer processing quality. It also is a health concern because of the secondary metabolite, deoxynivalenol, which often accompanies the fungus. While chemical methods exist to measure the concentration of the mycotoxin and manual visual inspection is used to ascertain the level of Fusarium damage, research has been active in developing fast, optically based techniques that can assess this form of damage. In the current study a near-infrared (1000-1700 nm) hyperspectral image system was assembled and applied to Fusarium-damaged kernel recognition. With anticipation of an eventual multispectral imaging system design, 5 wavelengths were manually selected from a pool of 146 images as the most promising, such that when combined in pairs or triplets, Fusarium damage could be identified. We present the results of two pairs of wavelengths [(1199, 1474 nm) and (1315, 1474 nm)] whose reflectance values produced adequate separation of kernels of healthy appearance (i.e., asymptomatic condition) from kernels possessing Fusarium damage.

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