Comparative analysis of RNN versus IIR digital filtering to optimize resilience to dynamic perturbations in pH sensing for vertical farming

IF 1.3 Q3 AGRONOMY
Rolando Hinojosa-Meza, Martín Montes Rivera, Paulino Vacas-Jacques, Nivia Escalante-Garcia, José Alonso Dena-Aguilar, Aldonso Becerra Sanchez, Ernesto Olvera-Gonzalez
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Abstract

Vertical farming (VF) refers to systems of agriculture where crops are grown in trays stacked vertically by exposing them to artificial light and using sensing technology to improve product quality and yield. In this work, we propose an advanced filtering scheme based on recurrent neural networks (RNNs) and deep learning to enable efficient control strategies for VF applications. We demonstrate that the best RNN model incorporates five neuron layers, with the first and second containing 90 long short-term memory neurons. The third layer implements one gated recurrent units neuron. The fourth segment incorporates one RNN network, while the output layer is designed by using a single neuron exhibiting a rectified linear activation function. By utilizing this RNN digital filter, we introduce two variations: (1) a scaled RNN model to tune the filter to the signal of interest, and (2) a moving average filter to eliminate harmonic oscillations of the output waveforms. The RNN models are contrasted with conventional digital Butterworth, Chebyshev I, Chebyshev II, and elliptic infinite impulse response (IIR) configurations. The RNN digital filtering schemes avoid introducing unwanted oscillations, which makes them more suitable for VF than their IIR counterparts. Finally, by utilizing the advanced features of scaling of the RNN model, we demonstrate that the RNN digital filter can be pH selective, as opposed to conventional IIR filters.

Abstract Image

RNN 与 IIR 数字滤波的比较分析,优化垂直耕作 pH 值传感对动态扰动的适应能力
垂直耕作(VF)是指通过人工光照和传感技术将农作物种植在垂直堆叠的托盘中,以提高产品质量和产量的农业系统。在这项工作中,我们提出了一种基于递归神经网络(RNN)和深度学习的高级滤波方案,以实现针对 VF 应用的高效控制策略。我们证明,最佳 RNN 模型包含五个神经元层,其中第一层和第二层包含 90 个长短期记忆神经元。第三层实现了一个门控递归单元神经元。第四层包含一个 RNN 网络,而输出层是通过使用一个神经元来设计的,该神经元具有整流线性激活函数。通过利用这种 RNN 数字滤波器,我们引入了两种变体:(1) 缩放 RNN 模型,以根据相关信号调整滤波器;(2) 移动平均滤波器,以消除输出波形的谐波振荡。RNN 模型与传统的数字巴特沃斯、切比雪夫 I、切比雪夫 II 和椭圆无限脉冲响应 (IIR) 配置进行了对比。RNN 数字滤波方案可避免引入不必要的振荡,因此比 IIR 方案更适用于 VF。最后,通过利用 RNN 模型先进的缩放功能,我们证明了与传统的 IIR 滤波器相比,RNN 数字滤波器具有酸碱度选择性。
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来源期刊
Agrosystems, Geosciences & Environment
Agrosystems, Geosciences & Environment Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
2.60
自引率
0.00%
发文量
80
审稿时长
24 weeks
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