Plant Hyperspectral Imaging

Abstract: Hyperspectral imaging can generate spatial chemical information in plants. The imaging acquisition system is basically composed of a radiation source, sample stage, objective lens, spectrograph, CCD camera and a computer to store and process derived data. Most hyperspectral imaging acquisition approaches are nondestructive in nature and require minimum sample preparation, thus producing chemically rich information without modifying a sample's features. Data processing is mainly performed via multivariate image… Show more

“…The hyperspectral curve obtained by measuring plant leaves contains noise and variations of structural features, so there is a need to do some curve transformations that should be performed before spectral analysis to describe the spectral curve more accurately and according to the most important structural features (Song et al, 2011). Generally, information gathering from hyperspectral images requires the following steps (methods): (i) preprocessing treatment, (ii) feature extraction, (iii) analysis, and (iv) acquisition of desired information (Bravo et al, 2003;Morais et al, 2019).…”

“…(Lu et al, 2020). A hyperspectral imaging system consists of four main elements: (i) a camera, (ii) a light source, (iii) a sample stage (no obligate), and (iv) corresponding control software (Morais et al, 2019). The main elements of the imaging unit are the lenses, an imaging spectrograph, and an area detector.…”

“…The scattered light is projected onto a detector that converts the photons into electrical signals that can be measured as the strength of different wavelengths into intensity values. Mostly there are two types of detectors -charge-coupled-device (CCD) camera or complementary metal-oxide-semiconductor (CMOS) camera (Mishra et al, 2017;Morais et al, 2019).…”

Hyperspectral imaging for early detection of foliar fungal diseases on small grain cereals: a minireview

“…The hyperspectral curve obtained by measuring plant leaves contains noise and variations of structural features, so there is a need to do some curve transformations that should be performed before spectral analysis to describe the spectral curve more accurately and according to the most important structural features (Song et al, 2011). Generally, information gathering from hyperspectral images requires the following steps (methods): (i) preprocessing treatment, (ii) feature extraction, (iii) analysis, and (iv) acquisition of desired information (Bravo et al, 2003;Morais et al, 2019).…”

“…(Lu et al, 2020). A hyperspectral imaging system consists of four main elements: (i) a camera, (ii) a light source, (iii) a sample stage (no obligate), and (iv) corresponding control software (Morais et al, 2019). The main elements of the imaging unit are the lenses, an imaging spectrograph, and an area detector.…”

“…The scattered light is projected onto a detector that converts the photons into electrical signals that can be measured as the strength of different wavelengths into intensity values. Mostly there are two types of detectors -charge-coupled-device (CCD) camera or complementary metal-oxide-semiconductor (CMOS) camera (Mishra et al, 2017;Morais et al, 2019).…”

Hyperspectral imaging for early detection of foliar fungal diseases on small grain cereals: a minireview