RASPberry: A stable reader activation scheduling protocol in multi-reader RFID systems

2009 17th IEEE International Conference on Network Protocols Pub Date : 2009-11-20 DOI:10.1109/ICNP.2009.5339672

Shaojie Tang, Jing Yuan, Xiangyang Li, Guihai Chen

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引用次数: 68

Abstract

Recent technological advances have motivated large-scale deployment of RFID systems. RFID readers are often static and carefully deployed in a planned manner. However, the distribution and movements of tags are often dynamically changed and unpredictable. We study a challenging problem of scheduling the activation of the readers without collision such that the system can work in a stable way in the long term. Here a schedule is stable if at any time slot, the number of total unread tags is bounded from above with high probability under this scheduling. In this paper, we propose a stable reader activation scheduling protocol, RASPberry, in multi-reader RFID systems. We analytically prove that our scheduling protocol, RASPberry, is stable if the arrival rate of tags is less than the processing rate of all readers. In RASPberry, at any time slot, a reader can determine its status using only information of readers within a local neighborhood. To the best of our knowledge, this is the first work to address the stability problem of reader activation scheduling in RFID systems. Our extensive simulations show that our system performs very well.

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多读写器RFID系统中稳定的读写器激活调度协议

最近的技术进步推动了RFID系统的大规模部署。RFID读取器通常是静态的，并以计划的方式仔细部署。然而，标签的分布和运动往往是动态变化和不可预测的。我们研究了一个具有挑战性的问题，即如何在不发生冲突的情况下调度阅读器的激活，从而使系统能够长期稳定地工作。在此调度下，如果在任何时隙，未读标签总数有大概率从上有界，则调度是稳定的。在本文中，我们提出了一个稳定的阅读器激活调度协议，树莓，在多阅读器RFID系统。分析证明，当标签到达率小于所有阅读器的处理率时，我们的调度协议是稳定的。在RASPberry中，在任何时间段，读取器都可以仅使用本地邻域内的读取器信息来确定其状态。据我们所知，这是第一个解决RFID系统中读写器激活调度稳定性问题的工作。大量的仿真结果表明，该系统性能良好。

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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2009 17th IEEE International Conference on Network Protocols

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