基于STM32F407微型植物工厂智能控制系统研制
|
摘要
为了给微型植物工厂内部作物提供良好的生长环境,设计了一种基于STM32F407的微型植物工厂智能控制系统,包括微控制器模块、人机交互模块、数据采集模块、网络模块和执行机构驱动模块等。同时,制定了环境因子控制策略,构建了微型植物工厂智能控制系统软硬件,并进行了作物种植试验。结果表明:该系统稳定可靠,能够为作物生长提供适宜的光照、温湿度和水肥条件。
In order to provide suitable growth environment for the internal crops of micro plant factory,this paper has designed an intelligent control system for micro plant factory based on STM32 F407. The environment information acquisition module,the growth state monitoring module,the human-computer interaction module,the execution drive module,the data storage module,information interaction module and the wireless network communication module have been designed,and the environmental factor control strategy is formulated in this paper. Finally,a micro plant factory intelligent control system was built,and crop planting experiment was conducted. The results show that the system is stable and reliable,and can provide suitable light,temperature and humidity conditions and reasonable nutrient solution for the growth of crops.
In order to provide suitable growth environment for the internal crops of micro plant factory,this paper has designed an intelligent control system for micro plant factory based on STM32 F407. The environment information acquisition module,the growth state monitoring module,the human-computer interaction module,the execution drive module,the data storage module,information interaction module and the wireless network communication module have been designed,and the environmental factor control strategy is formulated in this paper. Finally,a micro plant factory intelligent control system was built,and crop planting experiment was conducted. The results show that the system is stable and reliable,and can provide suitable light,temperature and humidity conditions and reasonable nutrient solution for the growth of crops.
引文
[1]毛罕平.设施农业的现状与发展[J].农业装备技术,2007,33(5):4-9.
[2]邓璐娟,张改卿,冯润花.智能温室环境多级控制系统研究[J].现代化农业,2007(12):1-3.
[3] Seo K K. A Simulation Study on an Artificial Neural Network based Automatic Control System of a Plant Factory[J]. International Journal of Control&Automation,2013,6(5):127-136.
[4]杨其长,张成波.植物工厂系列谈(一)—植物工厂定义与分类[J].农业工程技术:温室园艺,2005(5):36-37.
[5]杨其长.植物工厂现状与发展战略[J].农业工程技术:温室园艺,2016,36(10):9-12.
[6]涂俊亮,邱权,秦琳琳,等.微型植物工厂内部环境调控试验平台研制及试验[J].农业工程学报,2015,31(2):184-190.
[7]李东星,李迎忠,许明,等. JPWZ-1型微型植物工厂栽培生菜试验的研究[J].长江蔬菜,2012(6):39-45.
[8]贺冬仙,朱本海,杨珀,等.人工光型密闭式植物工厂的设计与环境控制[J].农业工程学报,2007,23(3):151-157.
[9]邱兆美,赵龙,贾海波.植物工厂发展趋势与存在问题分析[J].农机化研究,2013,35(10):230-233.
[10]余锡寿,刘跃萍.微型植物工厂发展分析与展望[J].农业展望,2016(7):59-61.
[11]商守海,周增产,卜云龙,等. JPWZ-1型微型植物工厂的研制[J].农业工程,2012,2(1):44-47.
[2]邓璐娟,张改卿,冯润花.智能温室环境多级控制系统研究[J].现代化农业,2007(12):1-3.
[3] Seo K K. A Simulation Study on an Artificial Neural Network based Automatic Control System of a Plant Factory[J]. International Journal of Control&Automation,2013,6(5):127-136.
[4]杨其长,张成波.植物工厂系列谈(一)—植物工厂定义与分类[J].农业工程技术:温室园艺,2005(5):36-37.
[5]杨其长.植物工厂现状与发展战略[J].农业工程技术:温室园艺,2016,36(10):9-12.
[6]涂俊亮,邱权,秦琳琳,等.微型植物工厂内部环境调控试验平台研制及试验[J].农业工程学报,2015,31(2):184-190.
[7]李东星,李迎忠,许明,等. JPWZ-1型微型植物工厂栽培生菜试验的研究[J].长江蔬菜,2012(6):39-45.
[8]贺冬仙,朱本海,杨珀,等.人工光型密闭式植物工厂的设计与环境控制[J].农业工程学报,2007,23(3):151-157.
[9]邱兆美,赵龙,贾海波.植物工厂发展趋势与存在问题分析[J].农机化研究,2013,35(10):230-233.
[10]余锡寿,刘跃萍.微型植物工厂发展分析与展望[J].农业展望,2016(7):59-61.
[11]商守海,周增产,卜云龙,等. JPWZ-1型微型植物工厂的研制[J].农业工程,2012,2(1):44-47.