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  Estonian Journal of Engineering

ISSN 1736-7522 (electronic)  ISSN 1736-6038  (print)

 An international scientific journal
Formerly: Proceedings of the Estonian Academy of Sciences Engineering
(ISSN 1406-0175)
Published since 1995

Estonian Journal of Engineering

ISSN 1736-7522 (electronic)  ISSN 1736-6038  (print)

 An international scientific journal
Formerly: Proceedings of the Estonian Academy of Sciences Engineering
(ISSN 1406-0175)
Published since 1995

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Wireless sensing in road structures using passive RFID tags; pp. 314–323

(Full article in PDF format) doi: 10.3176/eng.2012.4.03


Authors

Kati Kõrbe Kaare, Ott Koppel, Kristjan Kuhi

Abstract

In northern countries several freeze-thaw cycles may occur per day making it especially significant to monitor temperature and water content in road structures. This information is a valuable feedback in performance measurement systems to avoid unsustainable road technologies and as an input by choosing the suitable road design. The way to acquire this data in different layers of the road structure is costly, difficult and time consuming. In this article an idea is presented and preliminary laboratory tests are carried out to use radio frequency identification (RFID) tags with sensors in road structures to measure real-time data about significant parameters throughout the designed lifespan. RFID technology is a relatively new technology in road construction field that has widely spread in intelligent transportation systems (ITS). Because of its benefits, construction and transportation industries are researching and implementing RFID technology to improve data acquiring and storage applications. The results of these tests have proved that RFID tags can be read through different layers and depths of road construction materials. The use of gathered data in road performance measurement systems is proposed.

Keywords

road structures, data acquisition, sensor networks, radio frequency identification.

References

1. Hamrita , T. K. and Hoffacker , E. C. Development of a “smart” wireless soil monitoring sensor prototype using RFID technology. Appl. Eng. Agriculture , 2005 , 21 , 139–143.

2. Pesonen , N. , Jaakkola , K. and Lamy , J. Smart RFID Tags. http://www.vtt.fi/files/research/ mel/smart_rfid_tags.pdf , accessed 04.03.2012.

3. Roberti , M. RF sensors could optimize crop irrigation. RFID J. Mag. Online. http:// www.rfidjournal.com/magazine/article/8172 , accessed 10.07.2012.

4. Franek , O. , Kyritsi , P. and Pedersen , G. F. RFID on the road – some considerations about passive tag antennas. In Proc. 5th European Conference on Antennas and Propagation (EUCAP). Rome , 2011 , 1203–1207.

5. Faridazar , F. and Lajnef , N. Intelligent multi-sensor measurements to enhance pavement monitoring and safety. In Passive Wireless Sensor Tag Workshop. NASA , Houston , 2011.

6. Lee , E.-K. , Yoo , Y. M. , Park , C. G. , Kim , M. and Gerla , M. Installation and evaluation of RFID readers on moving vehicles. In Proc. Sixth ACM International Workshop on VehiculAr InterNETworking (VANET). New York , 2009 , 99–108.

7. Djärf , L. , Magnusson , R. , Lang , J. and Andersson , O. Road Deterioration and Maintenance Effects for Paved Roads in Cold Climates. Swedish Road and Transport Research Institute , Stockholm , 1995.

8. Berthiaume , F. , Donahue , K. and Rommel , J. RFID Tag Selection Report. Rutgers Center for Innovative Ventures of Emerging Technologies. Piscataway , 2011.

9. Löfgren , L. , Löfving , B. , Pettersson , T. , Ottosson , B. and Rusu , C. Low-power humidity sensor for RFID applications. In Multi-material Micro Manufacture (Dimov , S. and Menz , W. , eds). Whittles Publishing , Cardiff , 2008.

10. Mitrokotsa , A. and Douligeris , C. Integrated RFID and sensor networks: architectures and applications. http://lasecwww.epfl.ch/~katerina/papers/RFID_WSN.pdf , accessed 04.03.2012.

11. Ogawa , S. and Sato , T. Monitoring of concrete structures using passive type RFID tags with sensory functions. In International Conference on Electrical Engineering. Okinawa , 2008. ROM.

12. de la Garza , J. and Fedrowitz , W. Implementation of RFID technology in the VT-VDOT highway maintenance monitoring program (HMMP). In Proc. Intelligent Computing in Engineering Conference. Plymouth , 2008 , 518–527.

13. Dziadak , K. , Sommerville , J. and Kumar , B. RFID based 3D buried assets location system. J. Information Technol. Construction , 2008 , 13 , 155–165.

14. Bogena , H. R. and Huisman , J. A. Evaluation of a low-cost soil water content sensor for wireless network applications. J. Hydrology , 2007 , 344 , 32–42.
http://dx.doi.org/10.1016/j.jhydrol.2007.06.032

15. Mittelbach , H. , Casini , F. , Lehner , I. , Teuling , A. J. and Seneviratne , S. I. Soil moisture monitoring for climate research. J. Geophys. Res. , 2011 , 116 ,
http://dx.doi.org/10.1029/2010JD014907

16. Zhang , R.-b. , Guo , J.-j. and Zhang , L. A calibration method of detecting soil water content based on the information-sharing in wireless sensor network. Computers Electronic Agriculture , 2011 , 76 , 161–168.
http://dx.doi.org/10.1016/j.compag.2011.01.010

17. Kim , S. , Cho , J.-H. , Kim , H.-S. , Kang , H.-B. , Hong , S.-K. and Kim , H. An EPC Gen 2 compatible passive/semi-active UHF RFID transponder with embedded FeRAM and temperature sensor. In IEEE Asian Solid-State Circuits Conference ASSCC’07. Jeju , 2007 , 135–138.

18. Opasjumruskit , K. , Thanthipwan , T. and Sathusen , O. Self-powered wireless temperature sensors exploit RFID technology. IEEE Pervasive Computing , 2006 , 1 , 54–61.
http://dx.doi.org/10.1109/MPRV.2006.15

19. Shenghua , Z. and Nanjian , W. A novel ultra low power temperature sensor for UHF RFID tag chip. In IEEE Asian Solid-State Circuits Conference ASSCC’07. Jeju , 2007 , 464–467.

20. Reindl , L. , Ruppel , C. C. W. , Stockhausen , N. , Hilhorst , M. A. , Balendonck , J. and Kirmayr , A. Radio-requestable passive SAW water-content sensor. IEEE Trans. Microwave Theory Techniques , 2001 , 4 , 803–808.
http://dx.doi.org/10.1109/22.915467

21. Pfeiffer , G. H. Using Radio Frequency Identification Technology to Measure Asphalt Cooling. University of Maryland , 2010.

 
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Current Issue: Vol. 19, Issue 4, 2013





Publishing schedule:
No. 1: 20 March
No. 2: 20 June
No. 3: 20 September
No. 4: 20 December