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工学硕士学位论文 智能自适应预测模糊控制温室系统研究电子书

  • 简介:  工学硕士学位论文 智能自适应预测模糊控制温室系统研究
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  工学硕士学位论文 智能自适应预测模糊控制温室系统研究
   摘要
   设施农业是实现我国农业可持续发展的重要组成部分,现代化温室是设施农业的精华,工厂化农业的核心。温室就是建立一个模拟适合生物生长的气候条件,创造一个人工气象环境,来消除温度对生物生长的限制。而且,温室能克服环境对生物生长的限制,能使不同的农作物在不适合生长的季节产出,使季节对农作物的生长影响不大,部分或完全摆脱了农作物对自然条件的依赖。本文在查阅了大量国内外温室控制材料基础上,针对目前国内温室控制系统现状,通过分析温室内环境因子特点,把自适应预测技术、模糊控制技术、计算机控制技术、单片机控制技术和串行通信技术应用于温室系统设计与研制,研制了一套通用性强,具有一定智能化、成本低、符合我国国情的温室控制系统,实现主要环境因子综合控制,为
   作物提供良好的生长环境。针对温室系统特点,所研制的控制系统主要用来控制温室系统内部的
   温度、湿度、光照度和二氧化碳浓度四个参数。考虑到温室系统内部情况复杂,很难建立精确的数学模型,且具有很强的耦合与滞后性,因而采用自适应预测与模糊控制相结合的算法对温度、湿度综合控制,减小温度、湿度存在的耦合与滞后性对系统输出控制的影响。本文设计了控制器的软硬件部分。硬件设计采用上下位机两级控制方式,上位机采用PC 机,下位机采用单片机。上位机主要实现了数据存储,
   控制参数向下位机输送,显示实时数据等功能,采用VB 编写上位机控制界面;下位机单片机主要功能是接收前向通道采集值,将其传给上位机,并通过下位机软件分析处理,输出信号经外接电路放大控制执行机构。同时,还对单片机系统的外接硬件电路进行了设计。本控制系统的提出,为温室控制提供了一种途径。
   关键词 温室;模糊控制;单片机;VB
  
   目录
   摘 要 ················································································································ I
   Abstract·············································································································· II
   第 1 章绪论·····································································································1
   1.1 温室系统介绍·······················································································1
   1.2 国内外温室控制现状分析及发展趋势················································1
   1.3 我国目前主要的温室类型及性能························································3
   1.3.1 温室类型·························································································3
   1.3.2 温室主要的性能指标·····································································5
   1.4 温室系统主要参数和其特点································································6
   1.5 智能温室系统的特点···········································································6
   1.6 本课题研究的目的、意义····································································7
   第 2 章智能温室系统总体设计 ·····································································8
   2.1 被控参数设定、算法及硬件选择···························································8
   2.2 系统的总体设计原则···········································································9
   2.3 系统设计方案·····················································································10
   2.3.1 硬件系统设计方案·······································································10
   2.3.2 软件系统设计方案·······································································11
   2.3.3 控制算法设计方案·······································································13
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