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Deep learning-based CNC milling tool wear stage estimation with multi-signal analysis

Yunus Emre Karabacak

2023Eksploatacja i Niezawodnosc - Maintenance and Reliability25 citationsDOIOpen Access PDF

Abstract

In this work, the convolutional neural network (CNN), which is a deep learning method in which the features are extracted by an inner process, was performed to detect the wear stages of the milling tool. These stages that define the total lifespan of the tool are known as initial wear (IW), steady-state wear (SSW), and accelerated wear (AW). Short Time Fourier Transform (STFT) was applied to signals, and signal spectrograms were used to train CNN models with different complex architectures. Vibration signals, acoustic emission signals, and motor current signals from The Nasa Ames Milling Dataset were used to obtain the spectrograms. Pre-trained CNNs (GoogleNet, AlexNet, ResNet-50, and EfficientNet-B0) detected the tool wear stage with varying accuracies. It has been seen that the time duration of model training increases as the size of the dataset grows and the network architecture becomes more complex. The recommended method has also been tested on the 2010 PHM Data Challenge Dataset. CNN shows promise for condition monitoring of milling operations and detecting tool wear stage.

Topics & Concepts

SpectrogramShort-time Fourier transformConvolutional neural networkComputer sciencePattern recognition (psychology)Artificial intelligenceSIGNAL (programming language)Tool wearDeep learningFourier transformStage (stratigraphy)Artificial neural networkTime–frequency analysisProcess (computing)Speech recognitionEngineeringComputer visionFourier analysisMathematicsMechanical engineeringGeologyMachiningProgramming languageMathematical analysisPaleontologyOperating systemFilter (signal processing)Advanced machining processes and optimizationAdvanced Machining and Optimization TechniquesTunneling and Rock Mechanics
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