• DocumentCode
    1247923
  • Title

    A Data Mining Framework for Electricity Consumption Analysis From Meter Data

  • Author

    De Silva, Daswin ; Yu, Xinghuo ; Alahakoon, Damminda ; Holmes, Grahame

  • Author_Institution
    Platform Technol. Res. Inst., RMIT Univ., Melbourne, VIC, Australia
  • Volume
    7
  • Issue
    3
  • fYear
    2011
  • Firstpage
    399
  • Lastpage
    407
  • Abstract
    This paper presents a novel data mining framework for the exploration and extraction of actionable knowledge from data generated by electricity meters. Although a rich source of information for energy consumption analysis, electricity meters produce a voluminous, fast-paced, transient stream of data that conventional approaches are unable to address entirely. In order to overcome these issues, it is important for a data mining framework to incorporate functionality for interim summarization and incremental analysis using intelligent techniques. The proposed Incremental Summarization and Pattern Characterization (ISPC) framework demonstrates this capability. Stream data is structured in a data warehouse based on key dimensions enabling rapid interim summarization. Independently, the IPCL algorithm incrementally characterizes patterns in stream data and correlates these across time. Eventually, characterized patterns are consolidated with interim summarization to facilitate an overall analysis and prediction of energy consumption trends. Results of experiments conducted using the actual data from electricity meters confirm applicability of the ISPC framework.
  • Keywords
    data analysis; data mining; data warehouses; load forecasting; pattern recognition; power consumption; power engineering computing; power meters; power system management; power system planning; actionable knowledge exploration; actionable knowledge extraction; data mining; data warehouse; electricity consumption analysis; electricity meter data; energy consumption analysis; energy consumption trend; incremental analysis; incremental summarization; load forecasting; pattern characterization; power system management; power system planning; rapid interim summarization; stream data structure; Aggregates; Algorithm design and analysis; Clustering algorithms; Data mining; Electricity; Heuristic algorithms; Topology; Data mining; electricity meters; energy consumption analysis; incremental learning; interim summarization;
  • fLanguage
    English
  • Journal_Title
    Industrial Informatics, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1551-3203
  • Type

    jour

  • DOI
    10.1109/TII.2011.2158844
  • Filename
    5893960