Passive Radio Frequency Identification (RFID) is an emerging technology allowing the automatic identification of passive devices, called tags, when interrogated by RFID readers. Thanks to its reasonable cost and its ease of use, RFID is more and more adopted in many contexts, including robotics, where it is used as supplementary support for navigation and localization of robots. Indeed, when an RFID reader placed on the robot reads a tag marking a certain map point, specific algorithms can be used to estimate tag and/or robot position. Nevertheless, in most literature, commercial RFID devices, not specifically thought for robotic applications, are adopted, with consequent strong impact on overall system performance and robustness. In this paper, customized RFID reader antennas and platform-robust tags are designed and realized according to several requirements specifically individuated for the addressed application. Moreover, the new hardware has been tested on two practical cases related to tag and robot indoor localization, respectively. In spite of the use of rough-and-ready algorithms, the obtained results are impressive and demonstrate the goodness of the proposed solution.
Customized Ultra High Frequency Radio Frequency Identification Tags and Reader Antennas Enabling Reliable Mobile Robot Navigation
CATARINUCCI, Luca;TEDESCO, SALVATORE;TARRICONE, Luciano
2013-01-01
Abstract
Passive Radio Frequency Identification (RFID) is an emerging technology allowing the automatic identification of passive devices, called tags, when interrogated by RFID readers. Thanks to its reasonable cost and its ease of use, RFID is more and more adopted in many contexts, including robotics, where it is used as supplementary support for navigation and localization of robots. Indeed, when an RFID reader placed on the robot reads a tag marking a certain map point, specific algorithms can be used to estimate tag and/or robot position. Nevertheless, in most literature, commercial RFID devices, not specifically thought for robotic applications, are adopted, with consequent strong impact on overall system performance and robustness. In this paper, customized RFID reader antennas and platform-robust tags are designed and realized according to several requirements specifically individuated for the addressed application. Moreover, the new hardware has been tested on two practical cases related to tag and robot indoor localization, respectively. In spite of the use of rough-and-ready algorithms, the obtained results are impressive and demonstrate the goodness of the proposed solution.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.