Anti-collision performance of Gen2 Air Protocol in Random Error Communication Link

Kawakita, Yuusuke; Mitsugi, Jin

doi:10.1109/saint-w.2006.8

Cited by 43 publications

(28 citation statements)

References 4 publications

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“…It is known that RFID system performance in the field highly depends on the particular application, environmental conditions (electromagnetic noise, RFID reader density) and local regulations affecting the available bandwidth. Early simulations and tests carried out by universities and independent laboratories estimated read rates in a range of 7-100 tags/s in typical conditions (Ramakrishnan and Deavours, 2006;Kawakita and Mistugi, 2006). Our simulation results are quite above these with such data, thus providing a very preliminary evidence that adoption of compressed semantic resource annotations on RFID tags does not impair performances in the field w.r.t.…”

Section: Performance Evaluationsupporting

confidence: 64%

If objects could talk: a novel resource discovery approach for pervasive environments

Ruta

Noia

Sciascio

et al. 2007

IJIPT

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Abstract:We propose to extend standard Radio Frequency IDentification (RFID) usage by storing semantically annotated data within RFID tags memory, so that objects may actually 'describe themselves' in a variety of scenarios. In particular here we exploit our approach to carry out an advanced matchmaking process using metadata stored in RFIDs. A 'fully backward compatible' modification to the original RFID data exchange protocol is presented, allowing to implement an advanced resource discovery framework. A compression algorithm specifically devised to ease embedding of annotated DIG description is also proposed. Motivations and benefits of the approach are outlined in a tracking of agricultural and food products case study.Keywords: RFID; Semantic Web; matchmaking; pervasive computing.Reference to this paper should be made as follows: Ruta, M., Di Noia, T., Di Sciascio, E., Scioscia, F. and Piscitelli, G. (2007) Biographical notes: Michele Ruta received the Laurea Degree in Electronic Engineering from Politecnico di Bari (Technical University of Bari) in 2002 and his PhD in InformationEngineering from the same University in 2007. His research interests include pervasive computing and ubiquitous web, mobile service discovery and composition, knowledge representation systems and applications for wireless ad-hoc contexts. On these topics he has co-authored various papers in international journals and conferences. He is involved in various research projects related to his research interests.Tommaso Di Noia is an Assistant Professor in Information Technology Engineering at Technical University of Bari (Politecnico di Bari). He got his PhD from Technical University of Bari. His main scientific interests include: description logics -theoretical and practical aspects; resource matchmaking; knowledge representation systems for electronic commerce; automatic (web) services discovery and composition; knowledge representation systems and applications for the semantic web. He co-authored papers which received the best paper award at conferences ICEC-2004 and IEEE CEC-EEE-2006.

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Section: Performance Evaluationsupporting

confidence: 64%

If objects could talk: a novel resource discovery approach for pervasive environments

Ruta

Noia

Sciascio

et al. 2007

IJIPT

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“…In preliminary tests using the above-mentioned RFID simulation platform, a read rate of nearly 500 tags/s was obtained, whereas independent sources estimated read rates ranging from 7 to approximately 100 tags/s with standard Class 1 Generation 2 UHF RFID systems in typical conditions [47]. This is an early evidence that semantic-based RFID applications can have comparable performance with respect to traditional ones.…”

Section: On-line Resource Discoverymentioning

confidence: 92%

Semantic-Based RFID Data Management

Virgilio

Sciascio

Ruta

et al. 2010

Unique Radio Innovation for the 21st Century

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Traditional Radio-Frequency IDentification (RFID) applications have been focused on replacing bar codes in supply chain management. Leveraging a ubiquitous computing architecture, the chapter presents a framework allowing both quick decentralized on-line item discovery and centralized off-line massive business logic analysis, according to needs and requirements of supply chain actors. A semanticbased environment, where tagged objects become resources exposing to an RFID reader not a trivial identification code but a semantic annotation, enables tagged objects to describe themselves on the fly without depending on a centralized infrastructure. On the other hand, facing on data management issues, a proposal is formulated for an effective off-line multidimensional analysis of huge amounts of RFID data generated and stored along the supply chain.

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“…To show the effect of errors on the C1G2 protocol, Mitsugi et al [16] present simulation results that bit errors significantly degrade the C1G2 performance. In [3], Buettner et al examine the performance of the C1G2 RFID system in a realistic setting.…”

Section: Related Workmentioning

confidence: 99%

Efficient Tag Identification in Mobile RFID Systems

Xie

Sheng

Tan

et al. 2010

2010 Proceedings IEEE INFOCOM

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Abstract-In this paper we consider how to efficiently identify tags on the moving conveyor. Considering conditions like the path loss and multi-path effect in realistic settings, we first propose a probabilistic model for RFID tag identification. Based on this model, we propose efficient solutions to identify moving RFID tags, according to the fixed-path mobility on the conveyor. A dynamic program based solution and an adaptive solution are proposed to select optimized frame sizes during the query cycles. Simulation results indicate that by leveraging the probabilistic model our solutions can achieve much better performance than using parameters for the ideal propagation situations.

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Anti-collision performance of Gen2 Air Protocol in Random Error Communication Link

Cited by 43 publications

References 4 publications

If objects could talk: a novel resource discovery approach for pervasive environments

If objects could talk: a novel resource discovery approach for pervasive environments

Semantic-Based RFID Data Management

Efficient Tag Identification in Mobile RFID Systems

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