A Review of the Use of Near-Infrared Hyperspectral Imaging (NIR-HSI) Techniques for the Non-Destructive Quality Assessment of Root and Tuber Crops

Adesokan, Michael; Alamu, Emmanuel Oladeji; Otegbayo, Bolanle; Maizya-Dixon, Busie

doi:10.3390/app13095226

Cited by 6 publications

(4 citation statements)

References 105 publications

(126 reference statements)

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“…Therefore, in our experiments, we determined the optimal number of superpixel blocks using a continuous adjustment method to adapt to the specific characteristics of each dataset. In fact, we can determine the rank based on the percentage of total energy, as implemented in (8) and (9). The process of determining the optimal rank can be likened to setting a threshold for a given HSI.…”

Section: Parameter Analysismentioning

confidence: 99%

“…Unlike conventional images, HSI extends beyond spatial features, offering detailed one-dimensional spectral profiles per pixel [4]. At the same time, hyperspectral imaging has a wide range of potential in various electromagnetic radiation frequency ranges, such as X-ray, ultraviolet, visible and near-infrared, and terahertz [5][6][7][8][9]. With applications spanning agriculture, geology, ecology, and mineralogy [10][11][12][13], HSI faces challenges in classification due to its high spectral resolution and noise, potentially leading to dimensionality disaster and reduced classification accuracy, especially with limited training samples [14,15].…”

Section: Introductionmentioning

confidence: 99%

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Advanced Hyperspectral Image Analysis: Superpixelwise Multiscale Adaptive T-HOSVD for 3D Feature Extraction

Dai,

Ma,

Zhang

2024

Sensors

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Hyperspectral images (HSIs) possess an inherent three-order structure, prompting increased interest in extracting 3D features. Tensor analysis and low-rank representations, notably truncated higher-order SVD (T-HOSVD), have gained prominence for this purpose. However, determining the optimal order and addressing sensitivity to changes in data distribution remain challenging. To tackle these issues, this paper introduces an unsupervised Superpixelwise Multiscale Adaptive T-HOSVD (SmaT-HOSVD) method. Leveraging superpixel segmentation, the algorithm identifies homogeneous regions, facilitating the extraction of local features to enhance spatial contextual information within the image. Subsequently, T-HOSVD is adaptively applied to the obtained superpixel blocks for feature extraction and fusion across different scales. SmaT-HOSVD harnesses superpixel blocks and low-rank representations to extract 3D features, effectively capturing both spectral and spatial information of HSIs. By integrating optimal-rank estimation and multiscale fusion strategies, it acquires more comprehensive low-rank information and mitigates sensitivity to data variations. Notably, when trained on subsets comprising 2%, 1%, and 1% of the Indian Pines, University of Pavia, and Salinas datasets, respectively, SmaT-HOSVD achieves impressive overall accuracies of 93.31%, 97.21%, and 99.25%, while maintaining excellent efficiency. Future research will explore SmaT-HOSVD’s applicability in deep-sea HSI classification and pursue additional avenues for advancing the field.

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Section: Parameter Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Advanced Hyperspectral Image Analysis: Superpixelwise Multiscale Adaptive T-HOSVD for 3D Feature Extraction

Dai,

Ma,

Zhang

2024

Sensors

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“…Near-infrared hyperspectral imaging (NIR-HSI) is a highly advanced methodology, which can capture up to several hundred images of different wavelength, offering a detailed spectral response of target features [97]. This technique is particularly adept at discerning even the most subtle variations in ground covers, as well as tracking changes over time.…”

Section: Near-infrared Hyperspectral Imagingmentioning

confidence: 99%

“…Analyzing and processing such voluminous data can be computationally intensive and time-consuming [102]. On the other hand, the spectral interference and the environmental sensitivity makes it difficult to obtain good predictions to be used in quality control or process control evaluation [97].…”

Section: Near-infrared Hyperspectral Imagingmentioning

confidence: 99%

Light and Shadow in Near-Infrared Spectroscopy: A Powerful Tool for Cannabis sativa L. Analysis

Díaz-Liñán,

Sánchez de Medina,

Ferreiro-Vera

et al. 2023

AppliedChem

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Cannabis sativa L. is an ancient cultivar that has found applications in various fields, e.g., medicine, due to its beneficial effects. However, due to its psychotropic effects, the regulation of this cultivar has increased throughout the decades. In this context, the need for rapid and reliable analytical methods to ensure the quality control of Cannabis cultivars has become of extreme importance. NIRS has arisen as a powerful tool in this field due to its multiple advantages, e.g., non-destructive, rapid, and cost-effective. In this article, the chemometric techniques commonly employed in NIRS method development are described, along with their application for the analysis of Cannabis samples. Regarding qualitative methods, different mathematical treatments and classification models are explained. As for quantitative methods, the representative linear and non-linear modelling techniques applied for the development of prediction equations are described, alongside their application in the Cannabis field. To the best of our knowledge, this is the first time this type of review is written, since there are several articles which address cannabinoid determination, but the main purpose of this review is to enhance the potential of NIRS over the traditional techniques employed for the analysis of Cannabis samples.

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Breeding and end-use quality traits of roots, tubers, and bananas (RTB) crops for authentic African cuisines—a review

Alamu,

Adesokan,

Awoyale

et al. 2024

Euphytica

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A Review of the Use of Near-Infrared Hyperspectral Imaging (NIR-HSI) Techniques for the Non-Destructive Quality Assessment of Root and Tuber Crops

Cited by 6 publications

References 105 publications

Advanced Hyperspectral Image Analysis: Superpixelwise Multiscale Adaptive T-HOSVD for 3D Feature Extraction

Advanced Hyperspectral Image Analysis: Superpixelwise Multiscale Adaptive T-HOSVD for 3D Feature Extraction

Light and Shadow in Near-Infrared Spectroscopy: A Powerful Tool for Cannabis sativa L. Analysis

Breeding and end-use quality traits of roots, tubers, and bananas (RTB) crops for authentic African cuisines—a review

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