Your search keyword '"Guangzhi Rong"' showing total 2 results

1. Estimation of Frost Hazard for Tea Tree in Zhejiang Province Based on Machine Learning

Author

Jie Xu, Suri Guga, Guangzhi Rong, Dao Riao, Xingpeng Liu, Kaiwei Li, and Jiquan Zhang

Subjects

tea tree, frost disaster, machine learning, frost hazard, space distribution, Agriculture (General), S1-972

Abstract

Tea trees are the main economic crop in Zhejiang Province. However, spring cold is a frequent occurrence there, causing frost damage to the valuable tea buds. To address this, a regional frost-hazard early-warning system is needed. In this study, frost damage area was estimated based on topography and meteorology, as well as longitude and latitude. Based on support vector machine (SVM) and artificial neural networks (ANNs), a multi-class classification model was proposed to estimate occurrence of regional frost disasters using tea frost cases from 2017. Results of the two models were compared, and optimal parameters were adjusted through multiple iterations. The highest accuracies of the two models were 83.8% and 75%, average accuracies were 79.3% and 71.3%, and Kappa coefficients were 79.1% and 67.37%. The SVM model was selected to establish spatial distribution of spring frost damage to tea trees in Zhejiang Province in 2016. Pearson’s correlation coefficient between prediction results and meteorological yield was 0.79 (p < 0.01), indicating consistency. Finally, the importance of model factors was assessed using sensitivity analysis. Results show that relative humidity and wind speed are key factors influencing accuracy of predictions. This study supports decision-making for hazard prediction and defense for tea trees facing frost.

Published

2021

2. Estimation of Frost Hazard for Tea Tree in Zhejiang Province Based on Machine Learning

Author

Dao Riao, kaiwei Li, Xingpeng Liu, Guangzhi Rong, Jiquan Zhang, Suri Guga, and Jie Xu

Subjects

010504 meteorology & atmospheric sciences, Correlation coefficient, Agriculture (General), 0208 environmental biotechnology, frost disaster, 02 engineering and technology, Plant Science, 01 natural sciences, Wind speed, S1-972, Statistics, 0105 earth and related environmental sciences, Mathematics, Estimation, Tea tree, frost hazard, Hazard, 020801 environmental engineering, Support vector machine, Key factors, machine learning, Frost, tea tree, space distribution, Agronomy and Crop Science, Food Science

Abstract

Tea trees are the main economic crop in Zhejiang Province. However, spring cold is a frequent occurrence there, causing frost damage to the valuable tea buds. To address this, a regional frost-hazard early-warning system is needed. In this study, frost damage area was estimated based on topography and meteorology, as well as longitude and latitude. Based on support vector machine (SVM) and artificial neural networks (ANNs), a multi-class classification model was proposed to estimate occurrence of regional frost disasters using tea frost cases from 2017. Results of the two models were compared, and optimal parameters were adjusted through multiple iterations. The highest accuracies of the two models were 83.8% and 75%, average accuracies were 79.3% and 71.3%, and Kappa coefficients were 79.1% and 67.37%. The SVM model was selected to establish spatial distribution of spring frost damage to tea trees in Zhejiang Province in 2016. Pearson’s correlation coefficient between prediction results and meteorological yield was 0.79 (p &lt, 0.01), indicating consistency. Finally, the importance of model factors was assessed using sensitivity analysis. Results show that relative humidity and wind speed are key factors influencing accuracy of predictions. This study supports decision-making for hazard prediction and defense for tea trees facing frost.

Published

2021