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A visual analytics approach to anomaly detection in hydrocarbon reservoir time series data

2021; Elsevier BV; Volume: 206; Linguagem: Inglês

10.1016/j.petrol.2021.108988

1873-4715

Aurea Soriano-Vargas, Rafael de Oliveira Werneck, Renato Moura, Pedro Ribeiro Mendes Júnior, Raphael Prates, Manuel Castro, Maiara Moreira Gonçalves, M. Manzur Hossain, Marcelo Ferreira Zampieri, Alexandre Ferreira, Alessandra Davólio, Bernd Hamann, Denis José Schiozer, Anderson Rocha,

Data Stream Mining Techniques

Detecting anomalies in time series data of hydrocarbon reservoir production is crucially important. Anomalies can result for different reasons: gross errors, system availability, human intervention, or abrupt changes in the series. They must be identified due to their potential to alter the series correlation, influence data-driven forecast, and affect classification results. We have developed a visual analytics approach based on an interactive visualization of time series data involving machine learning approaches for anomaly identification. Our methods rely upon a z-score normalization technique along with isolation forests. The methods leverage the prior probability of anomalies from a time-window, do not require labeled training data with normal and abnormal conditions, and incorporate specialist knowledge in the exploration process. We apply, evaluate, and discuss the methods’ capability using a benchmark data set (UNISIM–II–M-CO) and real field data in three visual exploration setups. The ground-truth annotations were done by human specialists and considered different interventions in the reservoir. Our methods detect approximately 95% of the human intervention anomalies, and about 82%–89% detection rate for other anomalies identified during data exploration.