Rapid estimation of soil water content based on hyperspectral reflectance combined with continuous wavelet transform, feature extraction, and extreme learning machine-Reference-Cited by-同舟云学术

Rapid estimation of soil water content based on hyperspectral reflectance combined with continuous wavelet transform, feature extraction, and extreme learning machine

Published:2024-08-22 Issue: Volume:12 Page:e17954
ISSN:2167-8359
Container-title:PeerJ
language:en
Short-container-title:

Author:

Chen Shaomin¹²,Gao Jiachen¹,Lou Fangchuan¹,Tuo Yunfei³,Tan Shuai¹²,Shan Yuyang⁴,Luo Lihua⁵,Xu Zhilin¹,Zhang Zhengfu¹,Huang Xiangyu¹

Affiliation:

1. Faculty of Modern Agricultural Engineering, Kunming University of Science and Technology, Kunming, China

2. Yunnan Provincial Field Scientific Observation and Research Station on Water-Soil-Crop System in Seasonal Arid Region, Kunming University of Science and Technology, Kunming, China

3. Ecology and Environment Department, Southwest Forestry University, Kunming, China

4. State Key Laboratory of Eco-Hydraulics in Northwest Arid Region of China, Xi’an University of Technology, Xi’an, China

5. Yunnan Institute of Water and Hydropower Engineering Investigation and Design, Co., LTD, Kunming, China

Abstract

Background Soil water content is one of the critical indicators in agricultural systems. Visible/near-infrared hyperspectral remote sensing is an effective method for soil water estimation. However, noise removal from massive spectral datasets and effective feature extraction are challenges for achieving accurate soil water estimation using this technology. Methods This study proposes a method for hyperspectral remote sensing soil water content estimation based on a combination of continuous wavelet transform (CWT) and competitive adaptive reweighted sampling (CARS). Hyperspectral data were collected from soil samples with different water contents prepared in the laboratory. CWT, with two wavelet basis functions (mexh and gaus2), was used to pre-process the hyperspectral reflectance to eliminate noise interference. The correlation analysis was conducted between soil water content and wavelet coefficients at ten scales. The feature variables were extracted from these wavelet coefficients using the CARS method and used as input variables to build linear and non-linear models, specifically partial least squares (PLSR) and extreme learning machine (ELM), to estimate soil water content. Results The results showed that the correlation between wavelet coefficients and soil water content decreased as the decomposition scale increased. The corresponding bands of the extracted wavelet coefficients were mainly distributed in the near-infrared region. The non-linear model (ELM) was superior to the linear method (PLSR). ELM demonstrated satisfactory accuracy based on the feature wavelet coefficients of CWT with the mexh wavelet basis function at a decomposition scale of 1 (CWT(mexh_1)), with R2, RMSE, and RPD values of 0.946, 1.408%, and 3.759 in the validation dataset, respectively. Overall, the CWT(mexh_1)-CARS-ELM systematic modeling method was feasible and reliable for estimating the water content of sandy clay loam.

Funder

National Natural Science Foundation of China

Yunnan Fundamental Research Projects

Natural Science Research Foundation of Kunming University of Science and Technology, China

Yunnan Province Undergraduate Innovation and Entrepreneurship Training Plan Program

Yunnan Science and Technology Talent and Platform Program

Scientific Research Fund Project of Yunnan Provincial Department of Education

Publisher

PeerJ

Link

https://peerj.com/articles/17954.pdf

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