Abstract. In recent years, there has been an increasing interest within the robotics community in investigating whether Radio Frequency Identification (RFID) technology can be utilized to solve localization and mapping problems in the context of mobile robots. We present a novel sensor model which can be utilized for localizing RFID tags and for tracking a mobile agent moving through an RFID-equipped environment. The proposed probabilistic sensor model characterizes the received signal strength indication (RSSI) information as well as the tag detection events to achieve a higher modeling accuracy compared to state-of-the-art models which deal with one of these aspects only. We furthermore propose a method that is able to bootstrap such a sensor model in a fully unsupervised fashion. Real-world experiments demonstrate the effectiveness of our approach also in comparison to existing techniques.

@InProceedings{joho09icra,
  author =       {Dominik Joho and Christian Plagemann and Wolfram Burgard},
  title =        {Modeling {RFID} Signal Strength and Tag Detection for 
                  Localization and Mapping},
  booktitle =    {Proceedings of the {IEEE} International Conference on Robotics 
                  and Automation {(ICRA)}},
  pages =        {3160--3165},
  month =        may,
  year =         {2009},
  address =      {Kobe, Japan},
  doi =          {10.1109/ROBOT.2009.5152372},
  issn =         {1050-4729},
  isbn =         {978-1-4244-2788-8}
}