Support vector machine-based open crop model (SBOCM): Case of rice production in China

Existing crop models produce unsatisfactory simulation results and are operationally complicated. The present study, however, demonstrated the unique advantages of statistical crop models for large-scale simulation. Using rice as the research crop, a support vector machine-based open crop model (SBO...

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Veröffentlicht in:	Saudi journal of biological sciences 2017-03, Vol.24 (3), p.537-547
Hauptverfasser:	Su, Ying-xue, Xu, Huan, Yan, Li-jiao
Format:	Artikel
Sprache:	eng
Schlagworte:	Crop model Crop simulation Original SBOCM Scaling up Support vector machine الأرز الإنتاج النباتي المحاصيل دراسات الحالة
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container_title	Saudi journal of biological sciences
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creator	Su, Ying-xue Xu, Huan Yan, Li-jiao
description	Existing crop models produce unsatisfactory simulation results and are operationally complicated. The present study, however, demonstrated the unique advantages of statistical crop models for large-scale simulation. Using rice as the research crop, a support vector machine-based open crop model (SBOCM) was developed by integrating developmental stage and yield prediction models. Basic geographical information obtained by surface weather observation stations in China and the 1:1000000 soil database published by the Chinese Academy of Sciences were used. Based on the principle of scale compatibility of modeling data, an open reading frame was designed for the dynamic daily input of meteorological data and output of rice development and yield records. This was used to generate rice developmental stage and yield prediction models, which were integrated into the SBOCM system. The parameters, methods, error resources, and other factors were analyzed. Although not a crop physiology simulation model, the proposed SBOCM can be used for perennial simulation and one-year rice predictions within certain scale ranges. It is convenient for data acquisition, regionally applicable, parametrically simple, and effective for multi-scale factor integration. It has the potential for future integration with extensive social and economic factors to improve the prediction accuracy and practicability.
doi_str_mv	10.1016/j.sjbs.2017.01.024
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The present study, however, demonstrated the unique advantages of statistical crop models for large-scale simulation. Using rice as the research crop, a support vector machine-based open crop model (SBOCM) was developed by integrating developmental stage and yield prediction models. Basic geographical information obtained by surface weather observation stations in China and the 1:1000000 soil database published by the Chinese Academy of Sciences were used. Based on the principle of scale compatibility of modeling data, an open reading frame was designed for the dynamic daily input of meteorological data and output of rice development and yield records. This was used to generate rice developmental stage and yield prediction models, which were integrated into the SBOCM system. The parameters, methods, error resources, and other factors were analyzed. 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subjects	Crop model Crop simulation Original SBOCM Scaling up Support vector machine الأرز الإنتاج النباتي المحاصيل دراسات الحالة
title	Support vector machine-based open crop model (SBOCM): Case of rice production in China
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