Temporal Convolutional Memory Networks for Remaining Useful Life Estimation of Industrial Machinery
This work addresses RUL estimation for industrial machinery, offering incremental improvements over existing methods.
The paper tackled the problem of estimating remaining useful life (RUL) of industrial machinery by introducing a system model that incorporates temporal convolutions with long and short-term dependencies, achieving superior results on datasets from complex environments.
Accurately estimating the remaining useful life (RUL) of industrial machinery is beneficial in many real-world applications. Estimation techniques have mainly utilized linear models or neural network based approaches with a focus on short term time dependencies. This paper, introduces a system model that incorporates temporal convolutions with both long term and short term time dependencies. The proposed network learns salient features and complex temporal variations in sensor values, and predicts the RUL. A data augmentation method is used for increased accuracy. The proposed method is compared with several state-of-the-art algorithms on publicly available datasets. It demonstrates promising results, with superior results for datasets obtained from complex environments.