为射频识别(RFID)系统引入高吞吐量高能效防碰撞(HT-EEAC)协议

Sara El Mattar, Abdennaceur Baghdad
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引用次数: 0

摘要

近年来,射频识别(RFID)技术的使用率大幅上升,预计这种上升趋势在未来几年仍将持续。射频识别(RFID)技术通常被描述为一个改变行业的概念,这也是为什么仍需要不断改进物体识别技术的原因。这些改进涉及通信的安全性、速度和可靠性。RFID 常用于必须识别大量物品的领域。因此,当许多标签传输数据时,这些系统会出现一些标签碰撞问题。本文介绍的研究全面分析和评估了现有的标签读取方法,这些方法在识别过程中功耗较低。这项工作的成果是提出了高能效防碰撞协议,即 HT-EEAC。通过评估 HT-EEAC 在检查点消耗的能量,我们能够提高协议的吞吐量并降低能耗。更新帧大小的 HT-EEAC 方法旨在提高 EPC C1 G2 UHF RFID 标准的能耗和吞吐量。性能比较证明了我们提出的策略在每个识别标签的低能耗、最小碰撞和高吞吐量方面的优势。因此,这种方法可以有效地应用于射频识别(RFID)系统领域,大大提高其效率。
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Introducing a high-throughput energy-efficient anti-collision (HT-EEAC) protocol for RFID systems

The utilization of radio frequency identification (RFID) technology has witnessed a substantial rise in recent years, and this upward trend is expected to continue in the coming years. It is often described as an industry-changing concept, which is why continuous improvements in the technique of object identification are still needed. These enhancements are related to security, speed, and reliability of communications. RFID is frequently used in areas where a large number of things must be identified. Therefore, some problems of tag collision when many tags are transmitting their data are presented by these systems. The research presented here thoroughly analyzes and evaluates existing tag reading approaches that offer low power consumption during identification. The outcome of this work is the proposal of energy-efficient anti-collision protocol, namely HT-EEAC. By assessing the energy consumed for HT-EEAC at checkpoints, we were able to increase throughput and reduce energy consumption in our protocol. The HT-EEAC approach for updating frame size aims to enhance the energy and throughput of the EPC C1 G2 UHF RFID standard. Performance comparisons demonstrate the advantages of the strategy we propose in terms of low energy consumption per identified tag, minimal collisions, and high throughput. As a result, this method can be effectively utilized in the field of RFID systems to significantly enhance their efficiency.

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