A communication model for stateless networked tags

2016 IEEE 24th International Conference on Network Protocols (ICNP) Pub Date : 2016-11-01 DOI:10.1109/ICNP.2016.7784457

Jia Liu, Youlin Zhang, Min Chen, Shigang Chen, Lijun Chen

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Abstract

Traditional radio frequency identification (RFID) technologies allow tags to communicate with a reader but not among themselves. By enabling peer-to-peer communications among nearby tags, the emerging networked tags make a fundamental enhancement to today's RFID systems. This new capability supports a series of system-level functions in previously infeasible scenarios where the readers cannot cover all tags due to cost or physical limitations. This paper makes the first attempt to design a new communication model that is specifically tailored to efficient implementation of system-level functions in networked tag systems. Instead of exploiting complex mechanisms for collision detection and resolution, we propose a collision-resistent communication model (CCM) that embraces the collision in tag communications and utilizes it to merge the data from different sources in a benign way. Two fundamental applications: RFID estimation and missing-tag detection, are presented to illustrate how CCM assists efficient system-level operations in networked tag systems. Simulation results show that system-level applications through CCM outperform those through ID collection.

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无状态网络标签的通信模型

传统的射频识别(RFID)技术允许标签与阅读器通信，但不能在它们之间通信。通过在附近标签之间实现点对点通信，新兴的网络标签对当今的RFID系统进行了根本性的增强。由于成本或物理限制，读卡器无法覆盖所有标签，这种新功能在以前不可行的场景中支持一系列系统级功能。本文首次尝试设计一种新的通信模型，专门针对网络标签系统中系统级功能的有效实现。我们提出了一种抗碰撞通信模型(CCM)，该模型包含标签通信中的碰撞，并利用它以一种良性的方式合并来自不同来源的数据，而不是利用复杂的碰撞检测和解决机制。两个基本的应用:RFID估计和丢失标签检测，被提出，以说明CCM如何协助有效的系统级操作在网络标签系统。仿真结果表明，通过CCM的系统级应用程序优于通过ID收集的系统级应用程序。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE 24th International Conference on Network Protocols (ICNP)

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