Online prognostic failure AIoT system for industrial generators maintenance service based two-stage deep learning algorithm

IF 5.4 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

Control Engineering Practice Pub Date : 2025-01-30 DOI:10.1016/j.conengprac.2025.106263

Da-Thao Nguyen , Thanh-Phuong Nguyen , Ming-Yuan Cho

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引用次数: 0

Abstract

Intelligent anomaly diagnosis for industrial generators is essential in providing appropriate maintenance service, which makes it challenging to identify machine failures due to a complicated operational environment. For these reasons, an AIoT framework for anomaly diagnosis of industrial 125kW/250 kW generators is developed to provide indicators in maintenance services based on a two-stage deep learning convolution neural network and gate recurrent unit (CNN-GRU). In the proposed AIoT system, the IoT module collects different working features of 125kW/250 kW diesel generators in the experimental setup, including three-phase current, frequency, vibration, three-phase voltage, engine temperature, starting battery DC voltage, and power factor to generate labeled anomaly conditioning representative data. The convolution neural network is firstly deployed to reduce the dimensionality of 2D historical data, and then all the extracted valuable features are transferred to the gate recurrent unit to process sequential information. The developed algorithm was evaluated with different deep learning techniques, including the recurrent neural network (RNN), GRU, CNN, and long short-term memory (LSTM) by various benchmarks and data sequential horizons. Experiments prove that the developed CNN-GRU contains superior diagnosis capability and improved accuracy compared to other state-of-the-art deep learning models in a 10-second sample frequency dataset.

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来源期刊

Control Engineering Practice 工程技术-工程：电子与电气

CiteScore

9.20

自引率

12.20%

发文量

183

审稿时长

44 days

期刊介绍： Control Engineering Practice strives to meet the needs of industrial practitioners and industrially related academics and researchers. It publishes papers which illustrate the direct application of control theory and its supporting tools in all possible areas of automation. As a result, the journal only contains papers which can be considered to have made significant contributions to the application of advanced control techniques. It is normally expected that practical results should be included, but where simulation only studies are available, it is necessary to demonstrate that the simulation model is representative of a genuine application. Strictly theoretical papers will find a more appropriate home in Control Engineering Practice''s sister publication, Automatica. It is also expected that papers are innovative with respect to the state of the art and are sufficiently detailed for a reader to be able to duplicate the main results of the paper (supplementary material, including datasets, tables, code and any relevant interactive material can be made available and downloaded from the website). The benefits of the presented methods must be made very clear and the new techniques must be compared and contrasted with results obtained using existing methods. Moreover, a thorough analysis of failures that may happen in the design process and implementation can also be part of the paper. The scope of Control Engineering Practice matches the activities of IFAC. Papers demonstrating the contribution of automation and control in improving the performance, quality, productivity, sustainability, resource and energy efficiency, and the manageability of systems and processes for the benefit of mankind and are relevant to industrial practitioners are most welcome.