The modified model for hyperspectral estimation of soil organic matter using positive and inverse grey relational degree

IF 3.2 3区 工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Grey Systems-Theory and Application Pub Date : 2023-07-14 DOI:10.1108/gs-05-2023-0041
Guozhi Xu, Xican Li, Hong Che
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引用次数: 0

Abstract

PurposeIn order to improve the estimation accuracy of soil organic matter, this paper aims to establish a modified model for hyperspectral estimation of soil organic matter content based on the positive and inverse grey relational degrees.Design/methodology/approachBased on 82 soil sample data collected in Daiyue District, Tai'an City, Shandong Province, firstly, the spectral data of soil samples are transformed by the first order differential and logarithmic reciprocal first order differential and so on, the correlation coefficients between the transformed spectral data and soil organic matter content are calculated, and the estimation factors are selected according to the principle of maximum correlation. Secondly, the positive and inverse grey relational degree model is used to identify the samples to be identified, and the initial estimated values of the organic matter content are obtained. Finally, based on the difference information between the samples to be identified and their corresponding known patterns, a modified model for the initial estimation of soil organic matter content is established, and the estimation accuracy of the model is evaluated using the mean relative error and the determination coefficient.FindingsThe results show that the methods of logarithmic reciprocal first order differential and the first-order differential of the square root for transforming the original spectral data are more effective, which could significantly improve the correlation between soil organic matter content and spectral data. The modified model for hyperspectral estimation of soil organic matter has high estimation accuracy, the average relative error (MRE) of 11 test samples is 4.091%, and the determination coefficient (R2) is 0.936. The estimation precision is higher than that of linear regression model, BP neural network and support vector machine model. The application examples show that the modified model for hyperspectral estimation of soil organic matter content based on positive and inverse grey relational degree proposed in this article is feasible and effective.Social implicationsThe model in this paper has clear mathematical and physics meaning, simple calculation and easy programming. The model not only fully excavates and utilizes the internal information of known pattern samples with “insufficient and incomplete information”, but also effectively overcomes the randomness and grey uncertainty in the spectral estimation of soil organic matter. The research results not only enrich the grey system theory and methods, but also provide a new approach for hyperspectral estimation of soil properties such as soil organic matter content, water content and so on.Originality/valueThe paper succeeds in realizing both a modified model for hyperspectral estimation of soil organic matter based on the positive and inverse grey relational degrees and effectively dealing with the randomness and grey uncertainty in spectral estimation.
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利用正、逆灰色关联度对土壤有机质进行高光谱估测的改进模型
目的为了提高土壤有机质的估计精度,建立基于正、逆灰色关联度的土壤有机质含量高光谱估计修正模型。基于山东省泰安市岱岳区82个土壤样品数据,首先对土壤样品的光谱数据进行一阶微分和对数倒数一阶微分等变换,计算变换后的光谱数据与土壤有机质含量的相关系数,并根据最大相关原则选择估算因子。其次,利用正、逆灰色关联度模型对待识别样品进行识别,得到有机质含量的初始估定值;最后,根据待识别样品与其对应的已知模式之间的差异信息,建立了土壤有机质含量初始估计的修正模型,并利用平均相对误差和确定系数对模型的估计精度进行了评价。结果表明,采用对数倒数一阶微分法和平方根一阶微分法对原始光谱数据进行变换较为有效,能显著提高土壤有机质含量与光谱数据的相关性。改进的土壤有机质高光谱估计模型具有较高的估计精度,11个样品的平均相对误差(MRE)为4.091%,决定系数(R2)为0.936。估计精度高于线性回归模型、BP神经网络和支持向量机模型。应用实例表明,本文提出的基于正、逆灰色关联度的土壤有机质高光谱估测模型是可行和有效的。社会意义本文模型具有明确的数学和物理意义,计算简单,易于编程。该模型不仅充分挖掘和利用了“信息不充分、不完全”的已知模式样本的内部信息,而且有效克服了土壤有机质光谱估计中的随机性和灰色不确定性。研究成果不仅丰富了灰色系统的理论和方法,而且为土壤有机质含量、含水量等土壤性质的高光谱估计提供了新的途径。本文成功地实现了一种基于正、逆灰色关联度的土壤有机质高光谱估计改进模型,并有效地处理了光谱估计中的随机性和灰色不确定性。
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来源期刊
Grey Systems-Theory and Application
Grey Systems-Theory and Application MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
4.80
自引率
13.80%
发文量
22
期刊最新文献
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