基于积温模型的温室栽培生产规划决策支持系统

王纪章; 李萍萍; 赵青松

doi:10.3969/j.issn.1671-7775.2013.05.009

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江苏大学学报（自然科学版） ›› 2013, Vol. 34 ›› Issue (5) : 543-547. DOI: 10.3969/j.issn.1671-7775.2013.05.009

论文

基于积温模型的温室栽培生产规划决策支持系统

作者信息 +

Decision support system of greenhouse production planning based on temperature integration model

Author information +

文章历史 +

摘要

为实现在定期上市目标下的温室栽培的生产规划,以作物积温模型为依据,利用历史气象数据和市场价格信息,建立基于积温模型的温室黄瓜栽培生产规划决策模型．基于WEB开发了温室作物栽培生产规划决策系统软件,系统能实现在定植时间确定条件下预计上市期及逐日环境优化决策、在作物计划定植日期和上市期条件下的逐日环境优化决策、温室运行过程中的逐日环境优化决策．以温室栽培黄瓜为例,分别进行了给定定植日期的规划决策和温室运行的实时规划决策,决策结果表明:系统能根据用户所提出的决策目标和温室运行状况,实现温室栽培生产的规划决策．

Abstract

Based on temperature integration model, history climate and market data, the decision support model of greenhouse culture plan was established. The software of decision support system was developed based on WEB. The decision support can be achieved by the proposed system for predicting marketing period and price with the premise of field planting date, optimal daily average temperature with the premise of culture date, market date and real time control strategy for greenhouse climate. Using cucumber culture as example, the decision of given field planting date and real time strategy were tested. The results show that the production plan decision can be realized by the proposed system according to user demand and greenhouse realtime climate.

导出引用

王纪章, 李萍萍, 赵青松. 基于积温模型的温室栽培生产规划决策支持系统[J]. 江苏大学学报（自然科学版）, 2013, 34(5): 543-547 https://doi.org/10.3969/j.issn.1671-7775.2013.05.009

WANG Ji-Zhang, LI Ping-Ping, ZHAO Qing-Song. Decision support system of greenhouse production planning based on temperature integration model[J]. Journal of Jiangsu University(Natural Science Edition), 2013, 34(5): 543-547 https://doi.org/10.3969/j.issn.1671-7775.2013.05.009

参考文献

［1］李迎霞,杜尚丰.中国温室环境智能控制算法研究进展［J］.农业工程学报,2004,20(2):267-272.
Li Yingxia,Du Shangfeng. Advances of intelligent control algorithm of greenhouse environment in China［J］. Transactions of the CSAE, 2004,20(2):267-272. (in Chinese)
［2］Korner O, Challa H.Design for an improved temperature integration concept in greenhouse Cultivation［J］. Computers and Electronics in Agriculture,2003,39(1):39-59.
［3］Sigrimis N A, Arvanitis K G, Pasgianos G D. Synergism of high and low level systems forth efficient management of greenhouses［J］. Computers and Electronics in Agriculture, 2000,29:21-39.
［4］Korner O, Challa H. Temperature integration and processbased humidity control in chrysanthemum［J］.Computers and Electronics in Agriculture,2004,41(1):1-21.
［5］Blasco X, Martinez M, Herrero J M,et al.Modelbased predictive control of greenhouse climate for reducing energy and water consumption［J］.Computers and Electronics in Agriculture,2007,55(1):49-70.
［6］陈晴, 孙忠富.基于作物积温理论的温室节能控制策略探讨［J］.农业工程学报,2005,21(3):158-161.
Chen Qing, Sun Zhongfu. Energy saving control strategy for greenhouse product ion based on crop temperature integration ［J］. Transactions of the CSAE, 2005, 21 (3): 158-161. (in Chinese)
［7］王纪章,李萍萍,毛罕平,等. 基于模型的温室环境调控技术研究［J］. 沈阳农业大学学报, 2006, 37(3): 463-466.
Wang Jizhang, Li Pingping, Mao Hanping, et al. Technology of greenhouse environment control based on model［J］. Journal of Shenyang Agricultural University, 2006,37(3):463-466. (in Chinese)
［8］王成,李民赞,王丽丽,等. 基于数据仓库和数据挖掘技术的温室决策支持系统［J］. 农业工程学报,2008,24(11):169-171.
Wang Cheng, Li Minzan, Wang Lili, et al. Decision support system for greenhouse based on data warehouse and data mining［J］. Transactions of the CSAE,2008,24(11):169-171. (in Chinese)
［9］Marcelis L F M, Heuvelink E, Goudriaan J. Modelling biomass production and yield of horticultural crops: a review［J］. Scientia Horticulturae, 1998, 74(1): 83-111.
［10］李娟,郭世荣,罗卫红.温室黄瓜发育动态模拟模型研究［J］.农业工程学报,2002,18(S):131-134.
Li Juan, Guo Shirong, Luo Weihong. Dynamic simulation model of cucumber development in greenhouse［J］. Transactions of the CSAE, 2002,18(S):131-134. (in Chinese)
［11］李萍萍,周静,王纪章,等.温室黄瓜生育期预测的正弦指数模型［J］.江苏大学学报:自然科学版,2009,30(4):325-329.
Li Pingping, Zhou Jing, Wang Jizhang, et al. Exponential sine equation for predicting cucumber growth process in greenhouses ［J］. Journal of Jiangsu University: Natural Science Edition,2009,30(4):325-329. (in Chinese)
［12］谢祝捷, 陈春宏, 赵京音. 自控温室黄瓜生长发育动态及基于有效积温的发育模型研究［J］.上海农业学报,2007,23(2):46-49.
Xie Zhujie, Chen Chunhong, Zhao Jingyin. Study on cucumber growth and development model in automatic control greenhouse and its development model based on effective accumulate temperature［J］. Acta Agricultural Shanghai,2007,23(2):46-49. (in Chinese)
［13］李永秀,罗卫红.温室蔬菜生长发育模型研究进展［J］.农业工程学报,2008,24(1):307-312.
Li Yongxiu, Luo Weihong. Review on research progress of greenhouse vegetable growth and development models［J］. Transactions of the CSAE,2008,24(1):307-312. (in Chinese)
［14］李青林,毛罕平,李萍萍.黄瓜地上部分形态光温响应模拟模型［J］.农业工程学报,2011,27(9):122-127.
Li Qinglin,Mao Hanping,Li Pingping. Simulation of cucumber organ aboveground with relation to light and temperature［J］. Transactions of the CSAE,2011,27(9):122-127. (in Chinese)
［15］王纪章,李萍萍,吴燕明.基于Web的作物模型库系统构建［J］.农业工程学报,2011,27(7):178-182.
Wang Jizhang, Li Pingping, Wu Yanming. Development of crop model base system based on Web［J］. Transactions of the CSAE,2011,27(7):178-182. (in Chinese)