Evaluating basic density calibrations based on NIR spectra recorded on the three wood faces and subject to different mathematical treatments

Amaral, Evelize Aparecida; Santos, Luana Maria dos; Hein, Paulo Ricardo Gherardi; Costa, Emylle Veloso Santos; Rosado, Sebastião Carlos S.; Trugilho, Paulo Fernando

doi:10.33494/nzjfs512021x100x

Cited by 7 publications

(8 citation statements)

References 18 publications

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“…According to the research of Jiang Z. H. et al [51] and Evelize A. [29], the information contained in the near-infrared spectra of the three sections of wood samples can be used to characterize wood samples, and the information content is rich. According to the characteristics of the experimental materials, the cross-section of the wood sample was selected to collect the near-infrared spectrum (Figure 1a).…”

Section: Spectra Collectionmentioning

confidence: 99%

“…Coupled with suitable chemometric methods, NIR has been successfully applied in many fields such as the petrochemical [18,19], agricultural [20][21][22], food [17,23,24], pharmaceutical [25], and traditional Chinese medicine industries [26]. In recent years, Vis-NIR has also shown great potential in forestry applications [27][28][29][30]. Wood spectroscopy relies on the fact that the fraction of reflected light received by the instrument at any given wavelength (typically between 350 and 2500 nm in the visible and near-infrared parts of the spectrum) relates to the vibrational and rotational states of molecules containing oxygen, hydrogen, carbon, or nitrogen atoms.…”

Section: Introductionmentioning

confidence: 99%

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Prediction of the Carbon Content of Six Tree Species from Visible-Near-Infrared Spectroscopy

Meng

Zhang

et al. 2021

Forests

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This study aimed to measure the carbon content of tree species rapidly and accurately using visible and near-infrared (Vis-NIR) spectroscopy coupled with chemometric methods. Currently, the carbon content of trees used for calculating the carbon storage of forest trees in the study of carbon sequestration is obtained by two methods. One involves measuring carbon content in the laboratory (K2CrO7-H2SO4 oxidation method or elemental analyzer), and another involves directly using the IPCC (Intergovernmental Panel on Climate Change) default carbon content of 0.45 or 0.5. The former method is destructive, time-consuming, and expensive, while the latter is subjective. However, Vis-NIR detection technology can avoid these shortcomings and rapidly determine carbon content. In this study, 96 increment core samples were collected from six tree species in the Heilongjiang province of China for analysis. The spectral data were preprocessed using seven methods, including extended multiplicative scatter correction (EMSC), first derivative (1D), second derivative (2D), baseline correction, de-trend, orthogonal signal correction (OSC), and normalization to eliminate baseline drifting and noise, as well as to enhance the model quality. Linear models were established from the spectra using partial least squares regression (PLS). At the same time, we also compared the effects of full-spectrum and reduced spectrum on the model’s performance. The results showed that the spectral data processed by 1D with the full spectrum could obtain a better prediction model. The 1D method yielded the highest R2c of 0.92, an RMSEC (root-mean-square error of calibration) of 0.0056, an R2p of 0.99, an RMSEP (root-mean-square error of prediction) of 0.0020, and the highest RPD (residual prediction deviation) value of 8.9. The results demonstrate the feasibility of Vis-NIR spectroscopy coupled with chemometric methods in determining the carbon content of tree species as a simple, rapid, and non-destructive method.

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Section: Spectra Collectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Prediction of the Carbon Content of Six Tree Species from Visible-Near-Infrared Spectroscopy

Meng

Zhang

et al. 2021

Forests

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“…The information obtained from NIR spectroscopy is associated with the values of the properties determined in the laboratory. From this, statistical models can be developed to predict such properties; partial least squares regression (PLS-R) is the most commonly used model for analysis (Sandak et al, 2016;Amaral et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

“…Among the wood properties, the density variation has a strong correlation with the spectral signature in the NIR (Hein et al, 2009). In the studies by Rosso et al (2013), Costa et al (2018), Arriel et al (2019), and Amaral et al (2021), models for estimating the basic density of Eucalyptus wood by NIR spectroscopy with a benchtop instrument showed adequate results for the selection of the genetic material in forestry companies.…”

Section: Introductionmentioning

confidence: 99%

Estimation of the basic density of Eucalyptus grandis wood chips at different moisture levels using benchtop and handheld NIR instruments

Medeiros,

Gomes,

Batista

et al. 2024

Industrial Crops and Products

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“…Coupled with suitable modeling methods, Vis/NIR has been successfully applied in many fields, such as the petrochemical [17,18], agricultural [19,20], food [21,22], and pharmaceutical [23] industries. In recent years, Vis/NIR has also shown great potential in forestry applications [24][25][26]. Compared with Vis/NIR, Vis/NIR-HSI provides simultaneous determination of the physical and chemical properties of the sample as well as their spatial distribution, which overcomes some limitations of Vis/NIR spectroscopy.…”

Section: Introductionmentioning

confidence: 99%

Identification of Eight Pterocarpus Species and Two Dalbergia Species Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging (HSI)

Xue

Chen

et al. 2023

Forests

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Pterocarpus santalinus is considered among the finest luxury woods in the world and has potential commercial and medicinal value. Due to its rich hue and high price, Pterocarpus santalinus has often been substituted and mislabeled with other woods of lower economic value. To maintain the order of the timber market and the interests of consumers, it is necessary to establish a fast and reliable method for Pterocarpus species identification. In this study, wood samples of Pterocarpus santalinus and nine other wood samples commonly used for counterfeiting were analyzed by visible light/near-infrared (Vis/NIR) hyperspectral imaging (HSI). The spectral data were preprocessed with different algorithms. Principal component analysis (PCA) was applied in different spectral ranges: 400~2500 nm, 400~800 nm, and 800~2500 nm. Partial least squares discriminant analysis (PLS-DA) and square support vector machine (SVM) modeling methods were performed for effective discrimination. The best classification model was SVM combined with a normalization preprocessing method in whole spectral range (400~2500 nm), with prediction accuracy higher than 99.8%. The results suggest that the use of Vis/NIR-HSI in combination with chemometric approaches can be used as an effective tool for the discrimination of Pterocarpus santalinus.

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Evaluating basic density calibrations based on NIR spectra recorded on the three wood faces and subject to different mathematical treatments

Cited by 7 publications

References 18 publications

Prediction of the Carbon Content of Six Tree Species from Visible-Near-Infrared Spectroscopy

Prediction of the Carbon Content of Six Tree Species from Visible-Near-Infrared Spectroscopy

Estimation of the basic density of Eucalyptus grandis wood chips at different moisture levels using benchtop and handheld NIR instruments

Identification of Eight Pterocarpus Species and Two Dalbergia Species Using Visible/Near-Infrared (Vis/NIR) Hyperspectral Imaging (HSI)

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