An ontology-based knowledge representation and implement method for crop cultivation standard
文献类型: 外文期刊
作者: Li, Daiyi 1 ; Kang, Li 1 ; Cheng, Xinrong 1 ; Li, Daoliang 1 ; Ji, Laiqing 1 ; Wang, Kaiyi 2 ; Chen, Yingyi 1 ;
作者机构: 1.China Agr Univ, Coll Informat & Elect Engn, Beijing 100083, Peoples R China
2.Beijing Agr Informat Technol Res Ctr, Beijing 100079, Peoples R China
关键词: Crop cultivation standard; Domain ontology; Task ontology
期刊名称:MATHEMATICAL AND COMPUTER MODELLING ( 影响因子:1.366; 五年影响因子:1.602 )
ISSN: 0895-7177
年卷期: 2013 年 58 卷 3-4 期
页码:
收录情况: SCI
摘要: This paper introduces a representation method which combines domain ontology and task ontology based on crop cultivation standards (CCS). It uses combined ontology to represent CCS through analysis of "Good Agricultural Practices" and theory of agricultural ontology. Domain ontology contains static information during growing, such as soil, seed and agricultural machines. Task ontology builds on the point of plant process: soil selection, seed selection, fertilization and irrigation. The process is divided into prenatal, birth and post-natal stages. Finally, we take pepper as an example to show the application of CCS ontology. Results show that the method implements knowledge management effectively and provides convenience for agricultural information services. (C) 2011 Elsevier Ltd. All rights reserved.
- 相关文献
作者其他论文 更多>>
-
A Study of Maize Genotype-Environment Interaction Based on Deep K-Means Clustering Neural Network
作者:Bai, Longpeng;Bai, Longpeng;Wang, Kaiyi;Zhang, Qiusi;Zhang, Qi;Wang, Xiaofeng;Pan, Shouhui;He, Xuliang;Li, Ran;Zhang, Dongfeng;Han, Yanyun;Wang, Kaiyi;Pan, Shouhui;Zhang, Liyang;He, Xuliang;Li, Ran
关键词:small ecological region delineation; deep k-means clustering neural network; genotype by environment interaction
-
Hybrid Deep Learning Approaches for Improved Genomic Prediction in Crop Breeding
作者:Li, Ran;Zhang, Dongfeng;Han, Yanyun;Liu, Zhongqiang;Zhang, Qiusi;Zhang, Qi;Wang, Xiaofeng;Pan, Shouhui;Sun, Jiahao;Wang, Kaiyi;Li, Ran;Pan, Shouhui;Sun, Jiahao;Wang, Kaiyi
关键词:CNN; hybrid models; LSTM; phenotypic prediction; ResNet
-
Multi-Channel Graph Convolutional Network for Evaluating Innovation Capability Toward Sustainable Seed Enterprises
作者:Tang, Shanshan;Wang, Kaiyi;Wang, Kaiyi;Yang, Feng;Pan, Shouhui;Wang, Kaiyi;Yang, Feng;Pan, Shouhui
关键词:innovation capacity evaluation; graph neural network; multi-channel; seed enterprises sustainability
-
VMGP: A unified variational auto-encoder based multi-task model for multi-phenotype, multi-environment, and cross-population genomic selection in plants
作者:Zhao, Xiangyu;Li, Jinlong;Zhang, Dongfeng;Zhang, Qiusi;Liu, Zhongqiang;Wang, Kaiyi;Sun, Fuzhen;Tan, Changwei;Ma, Hongxiang;Zhao, Xiangyu;Wang, Kaiyi;Zhao, Xiangyu;Zhang, Dongfeng;Liu, Zhongqiang;Wang, Kaiyi
关键词:Genomic selection; Variational auto-encoder; Multi-task; Deep learning; Genomic prediction
-
Multi-view hypergraph networks incorporating interpretability analysis for predicting lodging in corn varieties
作者:Wang, Kaiyi;Yang, Feng;Zhao, Xiangyu;Liu, Zhongqiang;Zhang, Qiusi;Li, Jinlong;Zhang, Dongfeng;Bai, Wenqin;Wang, Shun;Zhang, Yong;Wang, Kaiyi;Yang, Feng;Zhao, Xiangyu;Liu, Zhongqiang;Zhang, Qiusi;Li, Jinlong;Zhang, Dongfeng
关键词:Corn lodging classification; Multi-view hypergraph network; Graph interpretability
-
Prediction of maize cultivar yield based on machine learning algorithms for precise promotion and planting
作者:Han, Yanyun;Wang, Kaiyi;Yang, Feng;Pan, Shouhui;Liu, Zhongqiang;Zhang, Qiusi;Zhang, Qi;Han, Yanyun;Wang, Kaiyi;Yang, Feng;Pan, Shouhui;Liu, Zhongqiang;Zhang, Qiusi;Zhang, Qi
关键词:Prediction of maize cultivar yield; Machine learning; Random forest; Levenberg - Marquardt neural network; Multilayer perceptron neural network; Assessment of varieties
-
Developing a comprehensive evaluation model of variety adaptability based on machine learning method
作者:Han, Yanyun;Wang, Kaiyi;Zhang, Qi;Yang, Feng;Pan, Shouhui;Liu, Zhongqiang;Zhang, Qiusi;Han, Yanyun;Wang, Kaiyi;Zhang, Qi;Yang, Feng;Pan, Shouhui;Liu, Zhongqiang;Zhang, Qiusi
关键词:Maize variety adaptability evaluation; Variety adaptability comprehensive evaluation index; Entropy weight method; Machine learning method
