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Prediction of soil physical and chemical properties based on improved Elman neural network

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Hanchao Zhao; Lanmei Cong; Jie Liu; Ziyue Han; Guohui Yin
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Abstract:

Global climate change has a huge impact on the future development of the world. Scientists all over the world are actively seeking ways to reduce the adverse effects of c...Show More

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Abstract:

Global climate change has a huge impact on the future development of the world. Scientists all over the world are actively seeking ways to reduce the adverse effects of climate change, and the increase in CO2 is one of the important causes of global warming. Therefore, it is the current mission and obligation of mankind to understand and study the global carbon cycle process and deal with the results of climate change. Therefore, it is of great significance to improve the carbon sink function of terrestrial ecosystems. Grassland is the largest terrestrial ecosystem in the world and also in my country. The carbon dynamics of grassland ecosystems are closely related to the carbon cycle process of terrestrial ecosystems. Grazing is one of the most important management methods of grassland, and different grazing methods will have different impacts on the carbon source and carbon sink function of grassland ecosystems. In order to achieve the goal of carbon neutrality at peak carbon, it is necessary to configure a reasonable grazing strategy. The basis for formulating a grazing strategy is the prediction and analysis of soil chemical and physical properties. In this paper, the improved Elman neural network is used to predict the physical and chemical properties of soil.
Published in: 2023 IEEE 7th Information Technology and Mechatronics Engineering Conference (ITOEC)
Date of Conference: 15-17 September 2023
Date Added to IEEE Xplore: 30 October 2023
ISBN Information:

ISSN Information:

DOI: 10.1109/ITOEC57671.2023.10291225
Conference Location: Chongqing, China
References is not available for this document.
Contents

I. Introduction

Grassland is one of the most widely distributed and important terrestrial vegetation types in the world, with a wide distribution area. China's grassland area is 355 million hectares, accounting for 6% to 8% of the world's total grassland area, ranking second in the world. In addition, grasslands have important ecological functions in maintaining biodiversity, conserving water and soil, purifying air, sequestering carbon, and regulating soil erosion and sandstorms. Since the Party Central Committee and the State Council implemented the policy of "returning grazing land to grassland" in 2003, remarkable results have been achieved in protecting and improving grassland ecological environment and improving people's livelihood. "Returning grazing to grass" does not mean that grazing is prohibited. Except for the prohibition of grazing in some areas, many grasslands implement zoned rotational grazing and rest grazing during the growing season. A reasonable grazing policy is the key to driving the regional economy, preventing grassland desertification and ensuring people's livelihood. The research on grazing optimization also provides a scientific basis for the country and government to formulate grazing policies and grassland management decisions.

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1.
C C Yang, S O Prasher and G R Mehuys, "An artificial neural network to estimate soil temperature[J]", Canadian Journal of Soil Science, vol. 77, no. 3, pp. 421-429, 1997.
CrossRef Google Scholar
2.
H Tabari, A A Sabziparvar and M Ahmadi, "Comparison of artificial neural network and multivariate linear regression methods for estimation of daily soil temperature in an arid region[J]", Meteorology and Atmospheric Physics, vol. 110, no. 3-4, pp. 135-142, 2011.
CrossRef Google Scholar
3.
H Tabari, P H Talaee and P Willems, "Short-term forecasting of soil temperature using artificial neural network[J]", Meteorological Applications, vol. 22, no. 3, pp. 576-585, 2015.
CrossRef Google Scholar
4.
O Kisi, M Tombul and M Z Kermani, "Modeling soil temperatures at different depths by using three different neural computing techniques[J]", Theoretical and Applied Climatology, vol. 121, no. 1-2, pp. 377-387, 2015.
CrossRef Google Scholar
5.
S Kim and V P Singh, "Modeling daily soil temperature using data-driven models and spatial distribution[J]", Theoretical and Applied Climatology, vol. 118, no. 3, pp. 465-479, 2014.
CrossRef Google Scholar
6.
B Nahvi, J Habibi, K Mohammadi et al., "Using self-adaptive evolutionary algorithm to improve the performance of an extreme learning machine forestimating soil temperature[J]", Computers and Electronics in Agriculture, vol. 124, pp. 150-160, 2016.
CrossRef Google Scholar
7.
H Z Abyaneh, M B Varkeshi, G Golmohammadi et al., "Soil temperature estimation using an artificial neural network and co-active neuro-fuzzy inference system in two different climates[J]", Arabian Journal of Geosciences, vol. 9, no. 5, pp. 10, 2016.
Google Scholar
8.
O Kisi, H Sanikhani and M Cobaner, "Soil temperature modeling at different depths using neuro-fuzzy neural network and genetic programming techniques[J]", Theoretical and Applied Climatology, vol. 129, no. 3-4, pp. 833-848, 2017.
CrossRef Google Scholar
9.
S Samadianfard, E Asad, S Jarhana et al., "Wavelet neural networks and gene expression programming models to predict short-term soil temperature at different depths[J]", Soil & Tillage Research, vol. 175, pp. 37-50, 2018.
CrossRef Google Scholar
10.
H Sanikhani, R C Deo, Z M Yaseen et al., "Non-tuned data intelligent model for soil temperature estimation: A new approach[J]", Geoderma, vol. 330, pp. 52-64, 2018.
CrossRef Google Scholar
11.
Jian Wang, Yanqing Wen, Yida Gou, Zhenyun Ye and Hua Chen, "Fractional-order gradient descent learning of BP neural networks with Caputo derivative", Neural Networks, vol. 89, pp. 19-30, 2017.
CrossRef Google Scholar

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