Publication Type : Conference Paper
Thematic Areas : Amrita Center for Cybersecurity Systems and Networks
Publisher : Intelligent Computing, Communication and Devices: Proceedings of ICCD 2014, Volume 308 of the series Advances in Intelligent Systems and Computing
Source : Intelligent Computing, Communication and Devices: Proceedings of ICCD 2014, Volume 308 of the series Advances in Intelligent Systems and Computing , Springer, Volume 320, p.21–30 (2014)
Url : http://dx.doi.org/10.1007/978-81-322-2012-1_4
ISBN : 9788132220114
Keywords : Electronic product code (EPC), EPC tag data standard, Name authority pointer (NapTr), Object name service (ONS), Radio-frequency identification (RFID)
Campus : Amritapuri
School : Centre for Cybersecurity Systems and Networks, Department of Computer Science and Engineering, School of Engineering
Center : Cyber Security
Department : Computer Science, cyber Security
Verified : Yes
Year : 2014
Abstract : Internet of Things (IoT) is the new network of physical object that has the ability to automatically transfer data over a network. This paper proposes an architecture to extend the current object identification scheme in order to custom build the same to uniquely identify each object associated with an RFID tag. The electronic product code (EPC) is a very popularly used identification scheme to identify objects and is stored in the RFID tags. The work described in this paper is based on the EPCglobal framework. Our research study focused primarily on extending the EPCglobal framework, thereby defining a customized identification scheme for each object in an IoT platform. A lookup called object naming service (ONS) is used to locate information about these objects in the EPC network. Object name service makes use of Internet’s existing domain name system (DNS) for looking up information about an EPC.
Cite this Research Publication : Shiju Sathyadevan, Akhila, C. A., and M. K. Jinesh, “Customizing EPCglobal to Fit Local ONS Requirements”, in Intelligent Computing, Communication and Devices: Proceedings of ICCD 2014, Volume 308 of the series Advances in Intelligent Systems and Computing , 2014, vol. 320, pp. 21–30.