J. Vales-Alonso, E. Egea-López, M. Bueno-Delgado, J. Alcaraz
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引用次数: 2
摘要
无线射频识别(RFID)系统有望在物流和库存应用领域掀起一场革命。通过无线通信,主设备可以检测和识别附近的电子标签。传统上,RFID系统及其识别协议的性能是针对静态配置进行分析的,即不考虑传入或传出标签,而只考虑固定数量的初始未识别标签。然而,许多实际场景不能以这种方式一致地建模。在这项工作中,我们引入了一个马尔可夫模型,该模型允许我们研究一个动态RFID标签场景,其中考虑了标签流。该模型可用于计算Tag Loss Ratio,该比率衡量系统中出站的未识别标签与入站标签的比例,这是动态配置中的一个关键指标。分析了RFID中用作介质访问控制的两个协议家族,帧开槽Aloha和非持久性CSMA。为了验证分析预测,我们利用模拟器得到了仿真结果。我们评估了一个类似于实际应用的场景,即基于RFID的邮件控制系统。
Analysis of Tag Loss Ratio in dynamic RFID systems
Radio Frequency Identification (RFID) systems promise a revolution in logistics and inventory applications. By means of wireless communication, a master device can detect and identify nearby elec- tronic tags. Traditionally, the performance of RFID systems and their identification protocols has been analyzed for static configurations, that is, without considering incoming or outgoing tags, but just a fixed number of initially unidentified tags. However, many real scenarios cannot be consistently modeled that way. In this work we introduce a Markov model which allows us to study a dynamic RFID tag scenario, where a flow of tags is considered. This model can be used to compute the Tag Loss Ratio, which measures the ratio of outgoing unidentified tags to the incoming tags in the system, which is a critical metric in dynamic configurations. The analysis is carried out for two families of protocols used as medium access control in RFID, Framed Slotted Aloha and non-persistent CSMA. With the aim of validating the analysis predictions, we get simulation results, by means of a simulator. We evaluate a scenario similar to a real application, i.e. a mail control system based on RFID.
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