EPC第1类第2代协议的有效对偶偏q算法及最优权值

2008 14th European Wireless Conference Pub Date : 2008-06-22 DOI:10.1109/EW.2008.4623846

Dongwook Lee, Okkyeong Bang, Sooyeol Im, Hyuckjae Lee

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引用次数: 19

摘要

无源射频识别标签，没有自我电池，只是从读取器反向散射能量，共享一个公共通道。当至少两个或多个标签同时与阅读器通信时，它会导致标签到标签的冲突问题。动态帧开槽Aloha (DFS-Aloha)协议是解决这一问题的一种著名的防碰撞算法。为了最大限度地提高系统性能和提高Aloha协议的读取速度，我们提出了一种改进的q -算法的帧大小估计器。为了使系统性能最大化，从DFS-Aloha的数学模型出发，利用最小二乘法搜索该估计器的最优偏差值。仿真结果表明，该估计算法提高了系统的性能。该估计算法比现有的基于EPC第1代第2代协议的q -算法的DFS-Aloha识别时间更短。

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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Efficient dual bias Q-Algorithm and optimum weights for EPC Class 1 Generation 2 Protocol

Passive RFID tags, which have no self-battery and just backscatter the energy from a reader, share a common channel. It causes a tag-to-tag collision problem when at least two or more tags communicate to the reader simultaneously. The dynamic frame slotted Aloha (DFS-Aloha) protocol is one of the well-known anti-collision algorithms to solve this problem. To maximize the system performance and enhance the reading speed of Aloha protocols, we propose a frame-size estimator which is a modified version of Q-Algorithm. To maximize the system performance, the optimum bias values of the proposed estimator are searched by using Least Square method from mathematical model of DFS-Aloha. Simulation results show that the proposed estimation algorithm enhances the system performance. The proposed estimation algorithm takes less identification time than DFS-Aloha with the existing Q-Algorithm based on EPC Class 1 Generation 2 protocol.

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2008 14th European Wireless Conference

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