A new indoor position estimation method of RFID tags for continuous moving navigation systems

The RFID (Radio Frequency Identification) is considered as one of the most preferable ways for the position estimation in indoor environments, since GPS does not work in such situations. In RFID system, an RFID reader enables to estimate the position of RFID tags easily and inexpensively. In applications with the position estimation of RFID tags, indoor robot navigations are very important for human society. The problem is how to obtain the position estimations of RFID tags as accurately as possible. Previously S-CRR (Swift Communication Range Recognition) has been proposed for the appropriate estimation method of this kind of applications. This method is capable of the accurate position estimation of an RFID tag in very short time. The disadvantage of S-CRR is that the mobile robot must stop to search RFID tags accurately at each position. In indoor robot navigations, mobile entities like robots have to move continuously because they need to navigate smoothly and safely. In this paper, we propose a new position estimation method of RFID tags with continuous moving only using RFID technology. We call this Continuous Moving CRR (CM-CRR). CM-CRR uses two communication ranges, long and short ranges and switches them appropriately. The system estimates the position of RFID tags using their approaches and continuous moving. To show the effectiveness of CM-CRR, we evaluate the estimation error of an RFID tag by computer simulations. From the results, CM-CRR can accurately estimate the position of RFID tags with continuously moving of the mobile robot and be applied to indoor robot navigations.

[1]  Yoshinobu Otsuka,et al.  Local intra-arterial thrombolysis for hyperacute cerebral embolism. , 2000 .

[2]  Florian Michahelles,et al.  Trust and Security in RFID-Based Product Authentication Systems , 2007, IEEE Systems Journal.

[3]  Jun Rekimoto,et al.  LifeTag: WiFi-Based Continuous Location Logging for Life Pattern Analysis , 2007, LoCA.

[4]  Tomotaka Wada,et al.  A Novel Method for Position Estimation of Passive RFID Tags; Swift Communication Range Recognition (S-CRR) Method , 2010, 2010 IEEE Global Telecommunications Conference GLOBECOM 2010.

[5]  Tomotaka Wada,et al.  A Multi-Sensing-Range Method for Position Estimation of Passive RFID Tags , 2008, 2008 IEEE International Conference on Wireless and Mobile Computing, Networking and Communications.

[6]  Susanne Winter,et al.  Phase difference based RFID navigation for medical applications , 2011, 2011 IEEE International Conference on RFID.

[7]  Kuo-Shen Chen,et al.  IR indoor localization and wireless transmission for motion control in smart building applications based on Wiimote technology , 2010, Proceedings of SICE Annual Conference 2010.

[8]  Joaquim Melendez,et al.  Location of medical equipment based on a maintenance service oriented infrastructure and RFID technology , 2010 .

[9]  Wail Gueaieb,et al.  Indoor robot navigation through intelligent processing of RFID signal measurements , 2010, 2010 International Conference on Autonomous and Intelligent Systems, AIS 2010.

[10]  M.R. Mahfouz,et al.  Real-Time Noncoherent UWB Positioning Radar With Millimeter Range Accuracy: Theory and Experiment , 2010, IEEE Transactions on Microwave Theory and Techniques.

[11]  Alessandro Saffiotti,et al.  Navigating by stigmergy: A realization on an RFID floor for minimalistic robots , 2009, 2009 IEEE International Conference on Robotics and Automation.

[12]  Tomotaka Wada,et al.  A Novel Scheme for Spatial Localization of Passive RFID Tags; Communication Range Recognition (CRR) Scheme , 2009, 2009 IEEE International Conference on Communications.

[13]  Francesco Martinelli,et al.  A Passive UHF-RFID System for the Localization of an Indoor Autonomous Vehicle , 2012, IEEE Transactions on Industrial Electronics.

[14]  Fernando Seco Granja,et al.  Accurate Pedestrian Indoor Navigation by Tightly Coupling Foot-Mounted IMU and RFID Measurements , 2012, IEEE Transactions on Instrumentation and Measurement.

[15]  Samer S. Saab,et al.  A Standalone RFID Indoor Positioning System Using Passive Tags , 2011, IEEE Transactions on Industrial Electronics.

[16]  J. Borenstein,et al.  Current-Based Slippage Detection and Odometry Correction for Mobile Robots and Planetary Rovers , 2006, IEEE Transactions on Robotics.

[17]  Zou Ji,et al.  Research of navigation and positioning at local area based on RFID , 2010, 2010 International Conference on Computer Application and System Modeling (ICCASM 2010).

[18]  Bill N. Schilit,et al.  Place Lab: Device Positioning Using Radio Beacons in the Wild , 2005, Pervasive.

[19]  M. Vossiek,et al.  A novel method for UHF RFID tag tracking based on acceleration data , 2012, 2012 IEEE International Conference on RFID (RFID).