IWRT 2010 : The Fourth International Workshop on RFID Technology - Concepts, Applications, Challenges
Conference Series : International Workshop on RFID Technology
Call For Papers
Radio Frequency Identification (RFID) systems are emerging as one of the most pervasive computing technologies due to their low cost and their broad applicability. RFID systems consist of tiny integrated circuits equipped with antennas (RFID tags) that communicate with their reading devices (RFID readers) using radio-frequency waves without line of sight. This creates tremendous opportunities for linking various objects from real world. These objects are numbered, identified, cataloged, and tracked. RFID systems present many advantages and features that cannot be found in other ubiquitous computing environments. RFID communication is fast, convenient and its application can substantially save time, improve services, reduce labor cost, thwart product counterfeiting and theft, increase productivity gains and maintain quality standards. Common applications range from highway toll collection, supply chain management, public transportation,controlling building access, animal tracking, developing smart home appliances and remote keyless entry for automobiles to locating children. In addition, RFID technology also offers a viable approach to implement physical user interfaces. The services available in the local environment are advertised by RFID tags. Users browse the services and activate the desired service by simply touching the corresponding tag with a mobile terminal that is equipped with an RFID reader. In the near future, these user interfaces would introduce RFID tags into our everyday lives.
While RFID provides promising benefits such as inventory visibility and business process automation, some significant challenges need to be overcome before these benefits can be realized. One important issue is how to process and manage RFID data, which is typically in large volume, noisy and unreliable, time-dependent, dynamically changing, and of varying ownership. Another issue is how to seamlessly integrate low-level RFID data into (existing) enterprise information infrastructures (e.g., upper-level business processes). Finally, RFID systems present a number of inherent vulnerabilities with serious potential security implications. Indeed, given the ability of inexpensively tagging and thus monitoring a large number of items and/or people, RFID raises some serious security and privacy concerns. RFID systems are vulnerable to a broad range of malicious attacks ranging from passive eavesdropping to active interference. RFID privacy and security are stimulating research areas that involve rich interplay among many disciplines, such as signal processing, hardware design, supply-chain logistics, privacy rights, and cryptography.
The workshop's objective is to provide a forum for researchers, practitioners, and users to exchange new ideas, developments, and experience on issues related to this emerging field.
Topics of interest
We welcome papers that focus on novel RFID technologies and applications. Topics of interests include, but are not limited to:
* Data management issues in RFID applications
* Innovative RFID-enabled applications
* RFID and physical user interfaces
* Security/privacy and RFID
* RFID and sensor networks
* Web services and RFID
* RFID and semantic Web
* RFID standards
* RFID case studies and field trials
* RFID middleware
* Next generation RFID technologies
* Commercial experience with RFID
* RFID network management
* COTS and Open Source RFID infrastructure
* Integration of RFID with other applications
* Performance evaluation
* Business process redesign and RFID
* Intrusion Detection in RFID systems
* Behavior analysis
* Situation awareness
The workshop will consist of oral presentations.
Regular Paper Submission: March 08, 2010
Authors Notification: April 06, 2010
Final Paper Submission and Registration: April 21, 2010
Workshop Program Committee
Gildas Avoine, Catholic University of Louvain, Belgium
Thierry Bodhuin, University of Sannio, Italy
Leonid Bolotnyy, University of Virginia, U.S.A.
Mike Burmester, Florida State University, U.S.A.
Jiming Chen, Zhejiang University, China
Maria V. Delgado, Polytechnic University of Cartagena, Spain
Christos Dimitrakakis, University of Amsterdam, The Netherlands
Rajit Gadh, UCLA, U.S.A.
Gerhard Hancke, Royal Holloway University of London, U.K.
Julio Cesar Hernadez-Castro, University of Portsmouth, U.K.
Sozo Inoue, Kyushu Institute of Technology, Japan
Xue Li, The University of Queensland, Australia
Weifa Liang, The Australian National University, Australia
Tomas S. Lopez, University of Cambridge, U.K.
Kostas Markantonakis, Royal Holloway University of London, U.K.
John Mo, RMIT University, Australia
Pedro Peris-Lopez, Delft University of Technology, The Netherlands
Jukka Riekki, University of Oulu, Finland
Francesco Rizzo, Joint Research Centre of the European Commission, Italy
Michele Ruta, Technical University of Bari, Italy
Damien Sauveron, University of Limoges/CNRS, France
Dave Singelee, Katholieke U. Leuven, Belgium
Jan C.A. van der Lubbe, Delft University of Technology, The Netherlands
Claire Vishik, Intel Corporation, U.K.
Fusheng Wang, Emory University, U.S.A.
Laurence T. Yang, St. Francis Xavier University, Canada
Yan Zhang, Simula Research Laboratory, Norway
Holger Ziekow, International Computer Science Institute, Berkeley, U.S.A.
Yanjun Zuo, The Univeristy of North Dakota, U.S.A.