Noise Adaptive Filtering Neural Network Under Multiscale Features

IF 6.4 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Automation Science and Engineering Pub Date : 2025-06-16 DOI:10.1109/TASE.2025.3579694

Xuan Hu;Peihao Zheng;Zhiqiang Geng;Yongming Han

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引用次数: 0

Abstract

Various uncertain disturbances in industrial processes bring noise to industrial process data, which brings great challenges to industrial soft sensor modeling. Traditional soft sensor models focused on removing noise in the process data, but it is almost impossible to remove all noise in actual engineering. Therefore, a novel noise adaptive filtering method integrating the multiscale neural network (NAF-MSNN) is proposed for the soft sensor, which can incorporate a noise processing mechanism that adaptively removes noise at different scales during feature extraction. The MSNN extracts overall trend and local trend features through the multiscale convolution. Then, the NAF converts multiscale features into frequency domain features, and constrains the noise filter matrix through proposed piecewise regularization to select important frequency domain components at different scales. Moreover, the multiscale fusion module controls denoised multiscale features exchange fusion between different scale based on the important measurement of each corresponding scale. Finally, the gated recurrent unit (GRU) establishes the dynamic relationships between the fused multiscale features and the key indicator. The proposed NAF-MSNN is compared with state-of-the-art soft sensor models in three datasets. In terms of R2 metrics, the accuracy improvement of NAF-MSNN reaches 4%, 8% and 3% in the public dataset and two industrial datasets. Note to Practitioners—Due to uncertain production environments, there may be a large amount of noise in industrial process data. The focus of this paper is to build a noise adaptive filtering method integrating the multiscale neural network (NAF-MSNN) to improve the robustness to noise. The proposed model can adaptively eliminate noise that has a large impact on the prediction results according to different scale features during the training process, thereby achieving high-precision soft sensing in an uncertain noise environment. In addition, we conducted comparative experiments and noise injection experiments on two real industrial data sets. The proposed method has higher soft sensing accuracy and stronger noise robustness than baseline methods.

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多尺度特征下的噪声自适应滤波神经网络

工业过程中各种不确定的干扰给工业过程数据带来噪声，给工业软测量建模带来很大的挑战。传统的软测量模型侧重于去除过程数据中的噪声，但在实际工程中几乎不可能去除所有噪声。为此，提出了一种融合多尺度神经网络（NAF-MSNN）的软传感器噪声自适应滤波方法，该方法在特征提取过程中引入了一种自适应去除不同尺度噪声的噪声处理机制。MSNN通过多尺度卷积提取整体趋势和局部趋势特征。然后，NAF将多尺度特征转换为频域特征，并通过提出的分段正则化对噪声滤波矩阵进行约束，选择不同尺度上重要的频域分量。此外，多尺度融合模块根据每个相应尺度的重要测量值控制去噪后的多尺度特征在不同尺度之间的交换融合。最后，门控循环单元（GRU）建立了融合的多尺度特征与关键指标之间的动态关系。提出的NAF-MSNN在三个数据集上与最先进的软传感器模型进行了比较。在R2指标上，NAF-MSNN在公共数据集和两个工业数据集上的准确率提升分别达到4%、8%和3%。从业人员注意：由于生产环境的不确定性，工业过程数据中可能存在大量的噪声。本文的重点是建立一种集成多尺度神经网络（NAF-MSNN）的噪声自适应滤波方法，以提高对噪声的鲁棒性。该模型可以在训练过程中根据不同尺度特征自适应消除对预测结果影响较大的噪声，从而在不确定噪声环境下实现高精度的软检测。此外，我们在两个真实工业数据集上进行了对比实验和噪声注入实验。与基线方法相比，该方法具有更高的软测量精度和更强的噪声鲁棒性。

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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来源期刊

IEEE Transactions on Automation Science and Engineering 工程技术-自动化与控制系统

CiteScore

12.50

自引率

14.30%

发文量

404

审稿时长

3.0 months

期刊介绍： The IEEE Transactions on Automation Science and Engineering (T-ASE) publishes fundamental papers on Automation, emphasizing scientific results that advance efficiency, quality, productivity, and reliability. T-ASE encourages interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, operations research, and other fields. T-ASE welcomes results relevant to industries such as agriculture, biotechnology, healthcare, home automation, maintenance, manufacturing, pharmaceuticals, retail, security, service, supply chains, and transportation. T-ASE addresses a research community willing to integrate knowledge across disciplines and industries. For this purpose, each paper includes a Note to Practitioners that summarizes how its results can be applied or how they might be extended to apply in practice.