M. Cinque, Raffaele Della Corte, Giorgio Farina, Stefano Rosiello
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An unsupervised approach to discover filtering rules from diagnostic logs
Diagnostic logs represent the main source of in-formation about the system runtime. However, the presence of faults typically leads to multiple errors propagating within system components, which requires analysts to dig into cascading messages for root cause analysis. This is exacerbated in complex systems, such as railway systems, composed by several devices generating high amount of logs. Filtering allows dealing with large data volumes, leading practitioners to focus on interesting events, i.e., events that should be further investigated by analysts. This paper proposes an unsupervised approach to discover filtering rules from diagnostic logs. The approach automatically infers potential events correlations, representing them as fault-trees enriched with scores. Trees define filtering rules highlighting the interesting events, while scores allow prioritizing their anal-ysis. The approach has been applied in a preliminary railway case study, which encompasses more than 710k events generated by on-board train equipment during operation.
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