Svetan Ratchev scite author profile

Tool condition monitoring (TCM) has become essential to achieve high-quality machining as well as cost-effective production. Identification of the cutting tool state during machining before it reaches its failure stage is critical. This paper presents a novel big data approach for tool wear classification based on signal imaging and deep learning. By combining these two techniques, the approach is able to work with the raw data directly, avoiding the use of statistical pre-processing or filter methods. This aspect is fundamental when dealing with large amounts of data that hold complex evolving features. The imaging process serves as an encoding procedure of the sensor data, meaning that the original time series can be re-created from the image without loss of information. By using an off-the-shelf deep learning implementation, the manual selection of features is avoided, thus making this novel approach more general and suitable when dealing with large datasets. The experimental results have revealed that deep learning is able to identify intrinsic features of sensory raw data, achieving in some cases a classification accuracy above 90%.

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An advanced FEA based force induced error compensation strategy in milling

Ratchev¹,

Liu²,

Huang³

et al. 2006

International Journal of Machine Tools and Manufacture

141

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Svetan Ratchev

Modelling and simulation of micro-milling cutting forces

Error compensation strategy in milling flexible thin-wall parts

Milling error prediction and compensation in machining of low-rigidity parts

Tool wear classification using time series imaging and deep learning

An advanced FEA based force induced error compensation strategy in milling

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