Abstract
Radio Frequency Identification (RFID) technology is becoming very popular in the new era of Industry 4.0, especially for warehouse management, retails, and logistics. RFID systems can be used for objects identification, localization, and tracking, facilitating everyday operators’ efforts. However, the deployment of RFID tags and reader antennas in real-world application scenarios is crucial and takes time. Indeed, deciding where to place tags and/or readers’ requires examining many conditions. If some weaknesses appear in the design, the arrangement must be reconsidered. The proposed work presents a novel open-source RFID simulator that allows modeling environments and testing the deployment of RFID tags and antennas apriori. In such a way, validating the performance of the localization or tracking algorithms in simulation, possible weaknesses that could arise may be fixed before facilities are applied on the field. Any number of tags and antennas can be placed in any position in the created scenario, and the simulator provides the phase and the RSSI signals for each tag. Every reader antenna is parametrized so that different antennas of different vendors can be reproduced. The simulator is implemented as a plugin of Gazebo, a widely used robotic framework integrated with the Robot Operating System (ROS), to reach a broad audience. In order to validate the simulator, a warehouse scenario is modeled, and a tag localization algorithm that uses the phase unwrapping technique and hyperbolae intersection method employing a reader antenna mounted on a mobile robot is used to estimate the position of the tags deployed in the scenario. The outcomes of the experiments showed realistic results.
Highlights
Today, Industry 4.0 aims at making use of the information and communication technology (ICT) infrastructure and the new smart technologies to improve the efficiency of manufacturing processes
The present essay proposes an Radio Frequency Identification (RFID) simulator for ultra-high frequency (UHF) passive tags and fixed or mobile reader antennas
RFID systems are categorized into four frequency bands depending on the working frequency: low frequency (LF) at 125 kHz, high frequency (HF) around 13 MHz, ultra-high frequency (UHF) in the range 860-960 MHz, and microwaves at 2.4 GHz
Summary
Industry 4.0 aims at making use of the information and communication technology (ICT) infrastructure and the new smart technologies to improve the efficiency of manufacturing processes. The present essay proposes an RFID simulator for ultra-high frequency (UHF) passive tags and fixed or mobile reader antennas. It is developed as a plugin extension for the Gazebo simulator, which is one of the most popular simulators in the robotics community thanks to its seamless integration with the Robot Operating System (ROS) framework. Only a virtual RFID sensor is present in the Gazebo software distribution with a fake tag’s implementation, which returns the tag position in the world coordinate Such a simplistic model does not allow for realistic tests and evaluations of the software to be deployed. The remainder of the manuscript is organized as follows: Section II presents the background and the related works; Section III describes the simulator and the experimental details; Section IV discusses the results of the experiments; Section V concludes the paper summarizing the work
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