来吧,被服务:COTS RFID标签的并行解码

J. Ou, Mo Li, Yuanqing Zheng
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引用次数: 120

摘要

目前的商品RFID系统由于严重的标签对标签碰撞而产生高通信开销。虽然最近的一些工作已经提出支持并发标签传输的并行解码,但它们需要精确的通道测量、紧密的标签同步或对标准RFID标签操作的修改。在本文中,我们提出了一种新的RFID通信范式BiGroup,它允许读者在一个通信轮中解码来自多个COTS(商品现货)RFID标签的碰撞。在biggroup中,COTS标签可以直接加入正在进行的通信会话并并行解码。碰撞解决智能仅放在读者端。为此,biggroup从星座域和时域两方面分析了RFID物理层的标签冲突,利用了由于标签传输速率低而未充分利用的信道容量,并利用了标签多样性。我们使用USRP N210软件无线电实现biggroup,该软件无线电能够读取和解码来自COTS无源标签的多个并发传输。我们的实验研究得到了令人鼓舞的结果,BiGroup大大提高了RFID通信效率,即与COTS标签的替代解码方案相比,性能提高了11倍,应用于EPC C1G2标签识别时,时间效率提高了6倍。
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Come and Be Served: Parallel Decoding for COTS RFID Tags
Current commodity RFID systems incur high communication overhead due to severe tag-to-tag collisions. Although some recent works have been proposed to support parallel decoding for concurrent tag transmissions, they require accurate channel measurements, tight tag synchronization, or modifications to standard RFID tag operations. In this paper, we present BiGroup, a novel RFID communication paradigm that allows the reader to decode the collision from multiple COTS (commodity-off-the-shelf) RFID tags in one communication round. In BiGroup, COTS tags can directly join ongoing communication sessions and get decoded in parallel. The collision resolution intelligence is solely put at the reader side. To this end, BiGroup examines the tag collisions at RFID physical layer from constellation domain as well as time domain, exploits the under-utilized channel capacity due to low tag transmission rate, and leverages tag diversities. We implement BiGroup with USRP N210 software radio that is able to read and decode multiple concurrent transmissions from COTS passive tags. Our experimental study gives encouraging results that BiGroup greatly improves RFID communication efficiency, i.e., 11× performance improvement compared to the alternative decoding scheme for COTS tags and 6× gain in time efficiency when applied to EPC C1G2 tag identification.
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