Enabling Scalable RFID Traceability Networks

The ability to track individual objects is essential to many aspects of our modern life such as product recalls and anti-counterfeiting. As a non-line-of-sight technology, radio-frequency identification (RFID) provides an effective way to record movements of objects and has recently emerged as an enabling technology for traceability applications. Unfortunately, realizing RFID traceability networks in large-scale, distributed environments brings many fundamental research and development issues. In particular, applications will generate an unprecedented amount of transactions and data that requires novel approaches not only in RFID data processing and management, but infrastructure and architecture design. In this paper, we describe our approach for realizing a scalable RFID traceability network, which can efficiently and effectively support traceability applications. With a novel data model, traceability applications can share data across independent organizations in a peer-to-peer fashion.

[1]  Jiawei Han,et al.  Flowcube: constructing RFID flowcubes for multi-dimensional analysis of commodity flows , 2006, VLDB.

[2]  Michael Zink,et al.  Capturing Data Uncertainty in High-Volume Stream Processing , 2009, CIDR.

[3]  Diomidis Spinellis,et al.  A survey of peer-to-peer content distribution technologies , 2004, CSUR.

[4]  George Roussos Networked RFID - Systems, Software and Services , 2008, Computer Communications and Networks.

[5]  Frederick Reiss,et al.  Design Considerations for High Fan-In Systems: The HiFi Approach , 2005, CIDR.

[6]  Fusheng Wang,et al.  RFID Data Processing with a Data Stream Query Language , 2007, 2007 IEEE 23rd International Conference on Data Engineering.

[7]  George Roussos,et al.  RFID Meets the Internet , 2009, IEEE Internet Computing.

[8]  Tao Lin,et al.  Integrating Automatic Data Acquisition with Business Processes - Experiences with SAP's Auto-ID Infrastructure , 2004, VLDB.

[9]  Gaetano Borriello RFID:TAGGING THE WORLD , 2005 .

[10]  Fusheng Wang,et al.  Complex RFID event processing , 2009, The VLDB Journal.

[11]  Sherali Zeadally,et al.  Enabling Next-Generation RFID Applications: Solutions and Challenges , 2008, Computer.

[12]  Ying Hu,et al.  Supporting RFID-based Item Tracking Applications in Oracle DBMS Using a Bitmap Datatype , 2005, VLDB.

[13]  Sudarshan S. Chawathe,et al.  Managing RFID Data , 2004, VLDB.

[14]  Fusheng Wang,et al.  Temporal Management of RFID Data , 2005, VLDB.

[15]  Scott Shenker,et al.  Enhancing P2P File-Sharing with an Internet-Scale Query Processor , 2004, VLDB.