基于神经动态优化的人工气候箱温湿度模型预测控制  被引量：7

作　　者：彭斐[1] 彭勇刚[2] 韦巍[2] 

机构地区：[1]杭州职业技术学院信息电子系,杭州310018 [2]浙江大学电气工程学院,杭州310027

出　　处：《农业工程学报》2014年第9期176-182,共7页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家自然科学基金(61203299);中央高校基本科研业务费专项(2013QNA4021);钱江人才计划项目(2013R10047);杭州职业技术学院科研项目(ky201321)

摘　　要：针对由于人工气候箱温湿度的耦合和滞后特性,使其难于精确控制的问题,该文采用模型预测控制算法进行精确控制。基于人工气候箱温湿度控制模型,推导出了输入滞后对象的模型预测控制方法及其优化模型。为了解决模型预测控制的快速优化问题,采用神经动态优化方法作为模型预测控制的动态优化器,获得了基于神经动态优化的模型预测控制方法,并用来解决人工气候箱的温湿度控制问题。最后采用该方法和PID方法针对人工气候箱温湿度的阶跃响应和周期响应进行了仿真试验。试验表明,与常规PID(proportion integration differentiation)控制方法相比,该控制方法超调小,控制精度高,在线优化速度快。该研究可为模型预测控制在时滞系统中的应用提供参考。Because an artificial climate chest can provide an artificial climate environment, it is widely used in biological, chemical, and agricultural science experiments. The key technology of an artificial climate chest is the accurate control of temperature and humidity. Because of a time delay character and the coupling of temperature and humidity in an artificial climate chest, it is difficult to accurately control the temperature and humidity of an artificial climate chest. Normally, Proportion Integration Differentiation （PID） and a fuzzy control method were used to control the temperature and humidity of an artificial climate chest, but the control accuracy and response speed were not satisfactory. In this paper, model predictive control （MPC） was used to control the temperature and humidity of an artificial climate chest. Online optimization is one of key problems of MPC. The temperature and humidity object of an artificial climate chest is an object with two inputs and two outputs, and the object has the characteristics of time delay and coupling. Based on the model of the temperature and humidity of an artificial climate chest, the MPC method and optimization model of an input delay object were derived. First, the temperature and humidity object of an artificial climate chest were described in state equations form. Secondly, an optimization problem in the MPC of an artificial climate chest was proposed. Thirdly, the optimization problem of the input delay object was transformed and depicted as a quadratic programming problem （QP）. Then the neurodynamical optimization was used as an online optimizer of MPC and a MPC method based on neurodynamical optimization was obtained. The neurodynamical optimization is an optimization method that incorporates an artificial neural network and dynamical system technology. Because of the inherent nature of parallel and distributed information processing in neural networks, the convergence rate of the solution process was not decreasing as the size of the problem i

关 键 词：控制 温度 湿度 神经动态优化 模型预测控制 人工气候箱 

分 类 号：TP273[自动化与计算机技术—检测技术与自动化装置]