Nonlinear model of a rice drying process using neural networks

J. A. Muñoz, Carlos Arturo Mojica Sánchez, Helmer Muñoz
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引用次数: 1

Abstract

Background: The production quality of rice is highly depended on the drying process as drying weakens the rice kernel. A look at the production process of rice in the industry was taken. The drying of rice influences the storage capacity of the grain, the energy consumption, the final mass of the grain and the percentage of whole grains at the end of the process. Objective: The main objective was to analyse the drying of rice by making an artificial neural network to model and simulate it. Methods: The modeling of a rice drying process using neural networks was presented. These models are suitable to be used in combination with model-based control strategies in order to improve the drying process. The implementation, preprocessing and data retrieval for the design of an artificial neural system was analyzed. Controlling the drying factors is of major importance. Feedforward and dynamic neural networks were compared based on their performance. Results: It was concluded that when some part of the dataset is given as training, even with one dataset, a back-propagation network simulates very well the other parts of the drying curve. It can be said that the approximations done by the networks to obtain a nonlinear model of the rice drying process are quiet good. Conclusions: Firstly, because of the too little data available for training, the networks were not as good as expected. More data is needed to realy have a powerfull network capable of approximated very well the drying curve. Secondly, a backpropagation network can be a good solution for modelling and for use in a controller if more data is available, in contrast a linear network gave bad results. thirdly, a network with little number of layers is the best option. A perfect mapping from the input to the output is impossible due the differences in each test and the imperfect sensors.
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用神经网络建立水稻干燥过程的非线性模型
背景:稻谷的干燥过程会使稻谷软化,稻米的生产质量在很大程度上取决于干燥过程。考察了该行业大米的生产过程。稻谷的干燥过程影响着稻谷的储存容量、能量消耗、稻谷的最终质量和稻谷的全粒率。目的:利用人工神经网络对大米干燥过程进行建模和模拟,对大米干燥过程进行分析。方法:采用神经网络对大米干燥过程进行建模。这些模型适合与基于模型的控制策略相结合,以改善干燥过程。分析了人工神经系统设计的实现、预处理和数据检索。控制干燥因素是非常重要的。对前馈神经网络和动态神经网络的性能进行了比较。结果:当给出数据集的一部分作为训练时,即使只有一个数据集,反向传播网络也能很好地模拟干燥曲线的其他部分。可以这样说,网络对水稻干燥过程的非线性模型所做的近似是很好的。结论:首先,可用于训练的数据太少,导致网络效果不如预期。需要更多的数据才能真正拥有一个能够很好地近似干燥曲线的强大网络。其次,如果有更多的数据可用,反向传播网络可以是一个很好的建模和控制器解决方案,相比之下,线性网络给出了不好的结果。第三,层数少的网络是最好的选择。由于每个测试的差异和不完善的传感器,从输入到输出的完美映射是不可能的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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