A Near-optimal Protocol for the Subset Selection Problem in RFID Systems

2020 16th International Conference on Mobility, Sensing and Networking (MSN) Pub Date : 2020-12-01 DOI:10.1109/MSN50589.2020.00022

Xiujun Wang, Zhi Liu, S. Ishihara, Z. Dang, Jie Li

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Abstract

In many real-time RFID-enabled applications (e.g., logistic tracking and warehouse controlling), a subset of wanted tags is often selected from a tag population for monitoring and querying purposes. How this subset of tags is rapidly selected, which is referred to as the subset selection problem, becomes pivotal for boosting the efficiency in RFID systems. Current state-of-the-art schemes result in high communication latencies, which are far from the optimum, and this degrades the system performance. This problem is addressed in this paper by using a simple Bit-Counting Function BCF(), which has also been employed widely by other protocols in RFID systems. In particular, we first propose a near-OPTimal SeLection protocol, denoted by OPTSL, to rapidly solve this problem based on the simple function BCF(). Second, we prove that the communication time of OPTSL is near-optimal with rigorous theoretical analysis. Finally, we conduct extensive simulations to verify that the communication time of the proposed OPT-SL is not only near-optimal but also significantly less than that of benchmark protocols.

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RFID系统中子集选择问题的近最优协议

在许多支持实时rfid的应用程序中(例如，物流跟踪和仓库控制)，通常从标签群中选择所需标签的子集以进行监视和查询。如何快速选择标签子集，这被称为子集选择问题，成为提高RFID系统效率的关键。目前最先进的方案导致通信延迟高，这远远不是最佳的，这降低了系统的性能。本文通过使用一个简单的比特计数函数BCF()来解决这个问题，该函数也被RFID系统中的其他协议广泛采用。特别地，我们首先提出了一种基于简单函数BCF()的近最优选择协议(OPTSL)来快速解决这一问题。其次，通过严格的理论分析，证明了OPTSL的通信时间是接近最优的。最后，我们进行了大量的仿真，以验证所提出的OPT-SL的通信时间不仅接近最优，而且明显小于基准协议。

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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2020 16th International Conference on Mobility, Sensing and Networking (MSN)

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