DYNAMIC CHANGE FORECAST OF THE SALINE-ALKALI FARMLAND BASED ON THE NON-EQUAL TIME INTERVAL GREY MODEL

文献类型: 外文期刊

第一作者: Zhu, Huaji

作者: Zhu, Huaji;Wu, Huarui;Zhu, Huaji;Wu, Huarui

作者机构:

关键词: Farmland;Saline-alkali Degree;Forecast;Non-Equal Time Interval;Grey Model

期刊名称:INTELLIGENT AUTOMATION AND SOFT COMPUTING ( 影响因子:1.647; 五年影响因子:1.469 )

ISSN: 1079-8587

年卷期: 2013 年 19 卷 3 期

页码:

收录情况: SCI

摘要: Salinization has become one of the most important questions about farmland in China. How to monitor and forecast the salinization trend of the farmland and to carry out valid prevention and cure measures is important for farmland protection in China. The grey model based on the grey system theory is different from the traditional regression forecast analysis. It doesn't need a large number of original data and doesn't require complex computation. It can avoid the fatal weakness of insufficient data and avoid the subjective factors on the forecast precision. By the mechanism of the grey model, the internal rules of the change of the saline-alkali farmland can be scientifically forecasted. It is usually executed with the mode of GM (1, 1). However, the GM (1,1) requires the equal time interval original data sequence. The saline-alkali degree always can't be monitored with the equal time interval. So, a new model by integrating the GM (1,1) with the least square method is proposed. With the new model, the original data sequence, the intervening results and the final forecast results are modified with the least square method. The results showed that the forecast precision was improved with the new model.

分类号:

  • 相关文献

[1]A longer-term forecast on global supply and demand of food products. Zhang, Wenjun,Bai, Changjun,Liu, Guodao. 2007

[2]Construction of Short-Term Forecast Model of Eggs Market Price. Li, Zhemin,Li, Ganqiong,Wang, Yuting. 2010

[3]Clustering Nodes Selection Mechanism in Energy Heterogeneous Farmland Wireless Sensor Networks. Liu, Dayong,Liu, Dayong,Zhao, Chunjiang,Wu, Huarui,Li, Feifei,Zhao, Chunjiang,Wu, Huarui,Li, Feifei. 2016

[4]Relationships between soil respiration and photosynthesis-related spectral vegetation indices in two cropland ecosystems. Huang, Ni,Niu, Zheng,Zhan, Yulin,Xu, Shiguang,Wu, Chaoyang,Gao, Shuai,Hou, Xuehui,Cai, Dewen,Huang, Ni,Xu, Shiguang,Hou, Xuehui,Cai, Dewen,Tappert, Michelle C.,Huang, Wenjiang.

[5]Analysis of land use change and its driving force in the Longitudinal Range-Gorge Region. Ll ZhengHai,Song GuoBao,Bao YaJing,Song GuoBao,Lo HaiYan,Ll ZhengHai,Wang HaiMei,Xu Tian,Cheng Yan.

[6]Investigations on Nitrate Pollution of Soil, Groundwater and Vegetable from Three Typical Farmlands in Beijing Region, China. Du Lian-feng,Zhao Tong-ke,Zhang Cheng-jun,An Zhi-zhuang,Wu Qiong,Liu Bao-cun,Li Peng,Ma Mao-ting. 2011

[7]Effect of land use change on soil respiration from freshwater marshes in northeast of China. Jiang, Changsheng,Hao, Qingju,Zhang, Junke,Tang, Qiwen,Jiang, Changsheng,Hao, Qingju. 2010

[8]Study on Environmental Risk and Economic Benefits of Rotation Systems in Farmland of Erhai Lake Basin. Tang Qiu-xiang,Ren Tian-zhi,Schweers, Wilko,Liu Hong-bin,Lei Bao-kun,Zhang Gui-long,Lin Tao. 2012

[9]Farmland WSN Incremental Deployment Strategy Based on Signal Attenuation Model. Liu, Dayong,Liu, Dayong,Zhao, Chunjiang,Wu, Huarui,Li, Feifei,Zhao, Chunjiang,Wu, Huarui,Li, Feifei. 2016

[10]Characteristics of soil nematode communities under two different land use systems. Hu, C.,Wang, X. H.,Qi, Y. C.. 2014

作者其他论文 更多>>

微信小程序