EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC)

Jorge A. Pardiñas-Mir, Muriel Muller, Roger Lamberti, Claude Gimenes

2011

Abstract

Detection results of transmitted reference ultra-wideband signals (TR-UWB) are presented. The signals are received through the implementation in CMOS technology of the ‘Time Delayed Sampling and Correlation’ (TDSC) detection method, which allows the test of its performance and validates the first stage of the synchronization process. This method has been proposed to achieve a UWB system with low cost, low complexity and low power consumption for medium to low data rate applications such as ranging or localization. Detection of such signals has been done successfully in both a direct cable connection as well in a wireless system with a real channel. In both cases they were used in the sub GHz band (group1) and also in the low band UWB signals.

References

  1. ECMA International (2008). High rate ultra wideband PHY and MAC standard. ECMA-368, 3rd edition.
  2. ECMA International (2008). High rate ultra wideband PHY and MAC standard. ECMA-368, 3rd edition.
  3. F. C. C., (2002). Federal Communications Commission. Revision of part 15 of the commission's rules regarding ultra-wideband transmission systems. Technical report.
  4. F. C. C., (2002). Federal Communications Commission. Revision of part 15 of the commission's rules regarding ultra-wideband transmission systems. Technical report.
  5. Gezici, S., (2008). A survey on wireless position estimation. Wireless Personal Communications, 44:263-282, 2008. 10.1007/s11277-007-9375-z.
  6. Gezici, S., (2008). A survey on wireless position estimation. Wireless Personal Communications, 44:263-282, 2008. 10.1007/s11277-007-9375-z.
  7. Gezici, S. and Tian, Zhi and Giannakis, G. B. and Kobayashi, H. and Molisch, A. F. and Poor, H. V. and Sahinoglu, Z., (2005, July). Localization via ultrawideband radios: a look at positioning aspects for future sensor networks. Signal Processing Magazine, IEEE, 22(4):70 - 84.
  8. Gezici, S. and Tian, Zhi and Giannakis, G. B. and Kobayashi, H. and Molisch, A. F. and Poor, H. V. and Sahinoglu, Z., (2005, July). Localization via ultrawideband radios: a look at positioning aspects for future sensor networks. Signal Processing Magazine, IEEE, 22(4):70 - 84.
  9. Hirata-Flores, F. I. and Muller, M. and Ni, Yang and Gimenes, C., (2008). CMOS Implementation of a TRUWB Receiver Based on Time Delayed Sampling and Correlation Method. Wireless Conference, 2008. EW 2008. 14th European 22-25 , Prague.
  10. Hirata-Flores, F. I. and Muller, M. and Ni, Yang and Gimenes, C., (2008). CMOS Implementation of a TRUWB Receiver Based on Time Delayed Sampling and Correlation Method. Wireless Conference, 2008. EW 2008. 14th European 22-25 , Prague.
  11. Hirata-Flores, F. I., (2008). Design and Implementation of a CMOS Prototype for a TDSC-UWB Receiver Based on TR Detection Scheme. PH.D 2008, Telecom SudParis, France.
  12. Hirata-Flores, F. I., (2008). Design and Implementation of a CMOS Prototype for a TDSC-UWB Receiver Based on TR Detection Scheme. PH.D 2008, Telecom SudParis, France.
  13. IEEE. (2007). IEEE Std 802.15.4a™-2007. IEEE standard for information technology - telecommunications and information exchange between systems - local and metropolitan area networks - specific requirement part 15.4: Wireless medium access control (mac) and physical layer (phy) specifications for low-rate wireless personal area networks (wpans).
  14. IEEE. (2007). IEEE Std 802.15.4a™-2007. IEEE standard for information technology - telecommunications and information exchange between systems - local and metropolitan area networks - specific requirement part 15.4: Wireless medium access control (mac) and physical layer (phy) specifications for low-rate wireless personal area networks (wpans).
  15. Jofre, L. and Broquetas, A. and Romeu, J. and Blanch, S. and Toda, A. P. and Fabregas, X. and Cardama, A., (2009) UWB tomographic radar imaging of penetrable and impenetrable objects. Proceedings of the IEEE, 97(2):451 -464.
  16. Jofre, L. and Broquetas, A. and Romeu, J. and Blanch, S. and Toda, A. P. and Fabregas, X. and Cardama, A., (2009) UWB tomographic radar imaging of penetrable and impenetrable objects. Proceedings of the IEEE, 97(2):451 -464.
  17. Molisch, A. F. and Cassioli, D. and Chong, Chia-Chin and Emami, S. Fort, A. and Kannan, B. and Karedal, J. and Kunisch, J. and Schantz, H. G. and Siwiak, K. and Win, M. Z., (2006). A comprehensive standardized model for ultrawideband propagation channels. Antennas and Propagation, IEEE Transactions on, 54(11):3151 -3166.
  18. Molisch, A. F. and Cassioli, D. and Chong, Chia-Chin and Emami, S. Fort, A. and Kannan, B. and Karedal, J. and Kunisch, J. and Schantz, H. G. and Siwiak, K. and Win, M. Z., (2006). A comprehensive standardized model for ultrawideband propagation channels. Antennas and Propagation, IEEE Transactions on, 54(11):3151 -3166.
  19. Muller, M. and Ni Y. and Lamberti R. and Hirata-Flores F. I. and Saber, C., (2007). Fully CMOS Low Power Low Complexity Detection Method For TR-UWB; FTFC 2007 Paris.
  20. Muller, M. and Ni Y. and Lamberti R. and Hirata-Flores F. I. and Saber, C., (2007). Fully CMOS Low Power Low Complexity Detection Method For TR-UWB; FTFC 2007 Paris.
  21. Muller, M. and Ni, Y. and Lamberti, R. and Saber, Ch., (2008) A new signal detection method for tr-uwb: By time delayed sampling and correlation (tdsc). In Joaquim Filipe and Mohammad S. Obaidat, editors, EBusiness and Telecommunication Networks, volume 9 of Communications in Computer and Information Science, pages 301-311. Springer Berlin Heidelberg.
  22. Muller, M. and Ni, Y. and Lamberti, R. and Saber, Ch., (2008) A new signal detection method for tr-uwb: By time delayed sampling and correlation (tdsc). In Joaquim Filipe and Mohammad S. Obaidat, editors, EBusiness and Telecommunication Networks, volume 9 of Communications in Computer and Information Science, pages 301-311. Springer Berlin Heidelberg.
  23. Saber, Ch., (2008). Ultra Large Bande Radio par Impulsions. Contributions à la Définition du Récepteur TDSC. Relation à la filière technologique. PH. D 2008. Telecom SudParis, France.
  24. Saber, Ch., (2008). Ultra Large Bande Radio par Impulsions. Contributions à la Définition du Récepteur TDSC. Relation à la filière technologique. PH. D 2008. Telecom SudParis, France.
  25. Saber, Ch. and Lamberti, R. and Gimenes, C., (2008). Synchronization solution for the tdsc-uwb detection method. In Tarek Sobh, Khaled Elleithy, Ausif Mahmood, and Mohammad A. Karim, editors, Novel Algorithms and Techniques In Telecommunications, Automation and Industrial Electronics, pages 311- 316. Springer Netherlands, 2008. 10.1007/978-1- 4020-8737-0_56.
  26. Saber, Ch. and Lamberti, R. and Gimenes, C., (2008). Synchronization solution for the tdsc-uwb detection method. In Tarek Sobh, Khaled Elleithy, Ausif Mahmood, and Mohammad A. Karim, editors, Novel Algorithms and Techniques In Telecommunications, Automation and Industrial Electronics, pages 311- 316. Springer Netherlands, 2008. 10.1007/978-1- 4020-8737-0_56.
Download


Paper Citation


in Harvard Style

A. Pardiñas-Mir J., Muller M., Lamberti R. and Gimenes C. (2011). EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC) . In Proceedings of the International Conference on Wireless Information Networks and Systems - Volume 1: WINSYS, (ICETE 2011) ISBN 978-989-8425-73-7, pages 87-94. DOI: 10.5220/0003509000870094


in Harvard Style

A. Pardiñas-Mir J., Muller M., Lamberti R. and Gimenes C. (2011). EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC) . In Proceedings of the International Conference on Wireless Information Networks and Systems - Volume 1: WINSYS, (ICETE 2011) ISBN 978-989-8425-73-7, pages 87-94. DOI: 10.5220/0003509000870094


in Bibtex Style

@conference{winsys11,
author={Jorge A. Pardiñas-Mir and Muriel Muller and Roger Lamberti and Claude Gimenes},
title={EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC)},
booktitle={Proceedings of the International Conference on Wireless Information Networks and Systems - Volume 1: WINSYS, (ICETE 2011)},
year={2011},
pages={87-94},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0003509000870094},
isbn={978-989-8425-73-7},
}


in Bibtex Style

@conference{winsys11,
author={Jorge A. Pardiñas-Mir and Muriel Muller and Roger Lamberti and Claude Gimenes},
title={EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC)},
booktitle={Proceedings of the International Conference on Wireless Information Networks and Systems - Volume 1: WINSYS, (ICETE 2011)},
year={2011},
pages={87-94},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0003509000870094},
isbn={978-989-8425-73-7},
}


in EndNote Style

TY - CONF
JO - Proceedings of the International Conference on Wireless Information Networks and Systems - Volume 1: WINSYS, (ICETE 2011)
TI - EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC)
SN - 978-989-8425-73-7
AU - A. Pardiñas-Mir J.
AU - Muller M.
AU - Lamberti R.
AU - Gimenes C.
PY - 2011
SP - 87
EP - 94
DO - 10.5220/0003509000870094


in EndNote Style

TY - CONF
JO - Proceedings of the International Conference on Wireless Information Networks and Systems - Volume 1: WINSYS, (ICETE 2011)
TI - EXPERIMENTAL VALIDATION FOR TR-UWB SYSTEMS - By Time Delayed Sampling & Correlation (TDSC)
SN - 978-989-8425-73-7
AU - A. Pardiñas-Mir J.
AU - Muller M.
AU - Lamberti R.
AU - Gimenes C.
PY - 2011
SP - 87
EP - 94
DO - 10.5220/0003509000870094