• DocumentCode
    1186156
  • Title

    Modeling Massive RFID Data Sets: A Gateway-Based Movement Graph Approach

  • Author

    Gonzalez, Hector ; Han, Jiawei ; Cheng, Hong ; Li, Xiaolei ; Klabjan, Diego ; Wu, Tianyi

  • Author_Institution
    Google, Inc., Mountain View, CA, USA
  • Volume
    22
  • Issue
    1
  • fYear
    2010
  • Firstpage
    90
  • Lastpage
    104
  • Abstract
    Massive radio frequency identification (RFID) data sets are expected to become commonplace in supply chain management systems. Warehousing and mining this data is an essential problem with great potential benefits for inventory management, object tracking, and product procurement processes. Since RFID tags can be used to identify each individual item, enormous amounts of location-tracking data are generated. With such data, object movements can be modeled by movement graphs, where nodes correspond to locations and edges record the history of item transitions between locations. In this study, we develop a movement graph model as a compact representation of RFID data sets. Since spatiotemporal as well as item information can be associated with the objects in such a model, the movement graph can be huge, complex, and multidimensional in nature. We show that such a graph can be better organized around gateway nodes, which serve as bridges connecting different regions of the movement graph. A graph-based object movement cube can be constructed by merging and collapsing nodes and edges according to an application-oriented topological structure. Moreover, we propose an efficient cubing algorithm that performs simultaneous aggregation of both spatiotemporal and item dimensions on a partitioned movement graph, guided by such a topological structure.
  • Keywords
    data mining; data models; data warehouses; goods distribution; graph theory; internetworking; inventory management; procurement; radiofrequency identification; spatiotemporal phenomena; supply chains; tracking; RFID data set; application-oriented topological structure; data mining; data model; data warehousing; gateway-based movement graph approach; graph-based object movement cubing algorithm; inventory management; item transition; location-tracking data; object tracking; product procurement process; radio frequency identification; spatiotemporal phenomena; supply chain management system; RFID; data models.; data warehousing;
  • fLanguage
    English
  • Journal_Title
    Knowledge and Data Engineering, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1041-4347
  • Type

    jour

  • DOI
    10.1109/TKDE.2009.61
  • Filename
    4798163