Predicting failures and maintenance time in predictive maintenance is challenging due to the scarcity of comprehensive real-world datasets, and among those available, few are of time series format. This paper introduces a real-world, multivariate time series dataset collected exclusively from a single anonymized engine component (Component X) across a fleet of SCANIA trucks. The dataset includes operational data, repair records, and specifications related to Component X, while maintaining confidentiality through anonymization. It is well-suited for a range of machine learning applications, including classification, regression, survival analysis, and anomaly detection, particularly in predictive maintenance scenarios. The dataset's large population size, diverse features (in the form of histograms and numerical counters), and temporal information make it a unique resource in the field. The objective of releasing this dataset is to give a broad range of researchers the possibility of working with real-world data from an internationally well-known company and introduce a standard benchmark to the predictive maintenance field, fostering reproducible research.
View on arXiv@article{kharazian2025_2401.15199,
title={ SCANIA Component X Dataset: A Real-World Multivariate Time Series Dataset for Predictive Maintenance },
author={ Zahra Kharazian and Tony Lindgren and Sindri Magnússon and Olof Steinert and Oskar Andersson Reyna },
journal={arXiv preprint arXiv:2401.15199},
year={ 2025 }
}