Investigation of Fusarium damage in wheat using hyperspectral imaging: An independent component analysis approach

Author:

Nadimi Mohammad1ORCID,Saccon Fernando AM2,Elrewainy Ahmed2,Parcey Dennis3,Sherif Sherif S2ORCID,Paliwal Jitendra1ORCID

Affiliation:

1. Biosystems Engineering Department, University of Manitoba, Winnipeg, MB, Canada

2. Electrical and Computer Engineering Department, University of Manitoba, Winnipeg, MB, Canada

3. Channel Systems Inc., Pinawa, MB, Canada

Abstract

With the continuously growing world population in the 21st century, the agri-food industry is in dire need of adopting rapid, eco-friendly, and reliable technologies to improve the quantity, quality, and safety of agri-food products to fulfill the world's future food needs. Hyperspectral imaging (HSI), a technique to glean a sample's spectral and spatial information, is an emerging non-destructive technique that can characterize the quality parameters of agri-food products such as Fusarium damage. Despite its vast potential, HSI systems suffer from enormous data sizes, requiring high computational time and power. One potential solution to overcome the aforementioned challenge is to reduce the data size by removing redundant information. However, detecting small optimum features from a large dataset is not trivial. To this end, an exploratory novel HSI data reduction and analysis technique was investigated and validated to identify Fusarium damage in wheat kernels. Wheat samples at three moisture contents (19, 27, and 35%, wet basis) and seven infection levels (ranging from 0 to 56 days after infection) were imaged at 256 equally spaced wavelengths from 820 to 1666 nm. Firstly, complete HSI data was utilized to successfully characterize sound and Fusarium-damaged wheat kernels using independent component analysis (ICA) algorithm. Then, a genetic algorithm optimization approach was used to reduce the data to ten wavelengths for ICA-based analysis. This data reduction approach reduced the computation time to approximately 1.31% of the original time taken for analyzing the full HSI data without compromising the performance of the system. This preliminary study suggests that such wavelength tailoring could reduce the complexity and price of the imaging hardware, e.g., the use of inexpensive non-tunable filters, and less expensive computational hardware, thereby enabling fast and affordable real-time exploration and sorting of grains. This study, while exploratory, fosters advancements in HSI data processing and identifies certain limitations that open new avenues for future research.

Funder

Mitacs-Accelerate

Channel Systems Inc.

Publisher

SAGE Publications

Subject

Spectroscopy

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