Data Mining and Knowledge Engineering

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Mining Temporal Reservoir Data Using Sliding Window Technique


Affiliations
1 College of Arts and Sciences, Universiti Utara Malaysia, 06010 UUM Sintok, Kedah, Malaysia
2 Universiti Sains Islam Malaysia, Malaysia
     

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Decision on reservoir water release is crucial during both intense and less intense rainfall seasons. Even though reservoir water release is guided by the procedures, decision usually made based on the past experiences. Past experiences are recorded either hourly, daily, or weekly in the reservoir operation log book. In a few years this log book will become knowledge-rich repository, but very difficult and time consuming to be referred. In addition, the temporal relationship between the data cannot be easily identified. In this study window sliding technique is applied to extract information from the reservoir operational database:a digital version of the reservoir operation log book. Several data sets were constructed based on different sliding window size. Artificial neural network was used as modelling tool. The findings indicate that eight days is the significant time lags between upstream rainfall and reservoir water level. The best artificial neural network model is 24-15-3.

Keywords

Neural Network, Sliding Window, Reservoir Management, Reservoir Water Level, Temporal Data Mining.
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  • Mining Temporal Reservoir Data Using Sliding Window Technique

Abstract Views: 246  |  PDF Views: 2

Authors

Wan Hussain Wan Ishak
College of Arts and Sciences, Universiti Utara Malaysia, 06010 UUM Sintok, Kedah, Malaysia
Ku-Ruhana Ku-Mahamud
College of Arts and Sciences, Universiti Utara Malaysia, 06010 UUM Sintok, Kedah, Malaysia
Norita Md Norwawi
Universiti Sains Islam Malaysia, Malaysia

Abstract


Decision on reservoir water release is crucial during both intense and less intense rainfall seasons. Even though reservoir water release is guided by the procedures, decision usually made based on the past experiences. Past experiences are recorded either hourly, daily, or weekly in the reservoir operation log book. In a few years this log book will become knowledge-rich repository, but very difficult and time consuming to be referred. In addition, the temporal relationship between the data cannot be easily identified. In this study window sliding technique is applied to extract information from the reservoir operational database:a digital version of the reservoir operation log book. Several data sets were constructed based on different sliding window size. Artificial neural network was used as modelling tool. The findings indicate that eight days is the significant time lags between upstream rainfall and reservoir water level. The best artificial neural network model is 24-15-3.

Keywords


Neural Network, Sliding Window, Reservoir Management, Reservoir Water Level, Temporal Data Mining.