RF-Detector: 3D Structure Detection of Tiny Objects via RFID Systems

2020 29th International Conference on Computer Communications and Networks (ICCCN) Pub Date : 2020-08-01 DOI:10.1109/ICCCN49398.2020.9209644

Jin Ning, Lei Xie, Chuyu Wang, Yanling Bu, Baoliu Ye, Sanglu Lu

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引用次数: 1

Abstract

Nowadays, detecting and evaluating the internal structure of packages becomes a crucial task for logistics systems to guarantee the reliability and security. However, prior solutions such as X-ray diffraction and WiFi-based detection are not suitable for this purpose. X-ray-based methods usually require manual analysis or image processing algorithms with high complexity, while WiFi-based solutions may fail to detect complex structures due to the significant error of the RF-signal features. In this paper, we propose RF-Detector, a low-cost RFID solution for performing 3D structure detection of items contained in the packages, including the item orientations and relative locations. We thoroughly investigate a brand-new sensing model for RFID-based 3D structure detection, i.e., revolving scanning. We propose not only the fundamental revolving model but also a novel calibration method towards the undesired deployment. We have implemented a prototype system to evaluate the performance of RF-Detector. Extensive evaluations in real settings show the effectiveness of RF-Detector, achieving very high accuracy of the internal 3D structure detection.

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射频探测器:通过射频识别系统对微小物体进行三维结构检测

如今，对包裹内部结构的检测和评估成为物流系统保证可靠性和安全性的重要任务。然而，先前的解决方案，如x射线衍射和基于wifi的检测并不适合这一目的。基于x射线的方法通常需要人工分析或复杂的图像处理算法，而基于wifi的解决方案可能由于射频信号特征的显著误差而无法检测复杂结构。在本文中，我们提出了rf检测器，这是一种低成本的RFID解决方案，用于对包裹中包含的物品进行3D结构检测，包括物品的方向和相对位置。我们深入研究了一种全新的基于rfid的三维结构检测传感模型，即旋转扫描。我们不仅提出了基本的旋转模型，而且提出了一种新的针对非期望部署的校准方法。我们已经实现了一个原型系统来评估射频探测器的性能。在实际环境中的广泛评估表明了rf检测器的有效性，实现了非常高的内部3D结构检测精度。

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 29th International Conference on Computer Communications and Networks (ICCCN)

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