Lorenzo Bianchi;Emidio Di Giampaolo;Francesco Martinelli;Fabrizio Romanelli
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引用次数: 0
摘要
我们考虑了两个超高频 RFID 标签的近距离相对运动,问题是通过测量接收信号强度指示器(RSSI)和两个标签之一反向散射的 RFID 信号的相位来估计两个标签之间的距离。由于所考虑的距离很短,因此天线之间存在电磁耦合,测量到的 RSSI 和相位与标签之间的距离有着复杂而模糊的关系。该问题通过两种方法来解决,分别基于多假设扩展卡尔曼滤波器(MHEKF)和多假设无标点卡尔曼滤波器(MHUKF)。有了相位和 RSSI,就可以减少问题的模糊性,并在没有任何初始值信息的情况下估计距离。仿真和实验结果表明了该方法的有效性,其中 MHUKF 的性能略优于 MHEKF。建议的设置可应用于制造、机器人、安全以及任何需要监控两个近距离物体之间可变距离的场合。
Close Motion Estimation of UHF-RFID Tagged Objects Based on Electromagnetic Coupling
We consider the close relative motion of two UHF RFID tags and the problem is the estimation of the distance between the two tags, by measuring the Received Signal Strength Indicator (RSSI) and the phase of the RFID signal backscattered by one of the two tags. Due to the short distance considered, and hence to the electromagnetic coupling between the antennas, the measured RSSI and phase present a complex and ambiguous dependence on the distance between the tags. The problem is solved through two approaches, based respectively on a Multi-Hypothesis Extended and a Multi-Hypothesis Unscented Kalman Filter (MHEKF and MHUKF). The availability of phase and RSSI allows to mitigate the ambiguity in the problem and to estimate the distance without any information on its initial value. Simulation and experimental results show the effectiveness of the approach, with the MHUKF presenting slightly better performances compared to the MHEKF. The proposed setup can be applied in manufacturing, robotics, safety and in any context where the variable distance between two close objects should be monitored.
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