MISCELA: discovering simultaneous and time-delayed correlated attribute patterns

This article addresses a new pattern mining problem in time series sensor data, which we call correlated attribute pattern mining . The correlated attribute patterns (CAPs for short) are the sets of attributes (e.g., temperature and traffic volume) on sensors that are spatially close to each other and temporally correlated in their measurements. Although the CAPs are useful to accurately analyze and understand spatio-temporal correlation between attributes, the existing mining methods are inefficient to discover CAPs because they extract unnecessary patterns. Therefore, we propose a mining method Miscela to efficiently discover CAPs. M iscela can discover not only simultaneous correlated patterns but also time delayed correlated patterns. Furthermore, we extend M iscela to automatically search for correlated patterns with any time delays. Through our experiments using three real sensor datasets, we show that the response time of M iscela is up to 20.84 times faster compared with the state-of-the-art method. We show that M iscela discovers meaningful patterns for urban managements and environmental studies.