Ultra Wideband Transceivers Based on Chaotic Pulses and their Application to Wireless Body Area Networks

Yuri V. Andreyev; Alexander S. Dmitriev; Elena V. Efremova; Vadim A. Lazarev

Summary

Proceedings of the 2013 International Symposium on Nonlinear Theory and its Applications

2013

Session Number:B1L-C

Session:

Number:221

Ultra Wideband Transceivers Based on Chaotic Pulses and their Application to Wireless Body Area Networks

Yuri V. Andreyev, Alexander S. Dmitriev, Elena V. Efremova, Vadim A. Lazarev,

pp.221-224

Publication Date:

Online ISSN:2188-5079

DOI:10.15248/proc.2.221

PDF download (660.9KB)

Summary:

Application of chaotic oscillations to communications began in 1990s, and in the beginning of 2000s practical schemes of communications using chaotic signals were proposed, e.g., a scheme of direct chaotic communications. This scheme appeared to be practical, and ultrawideband chaotic signals were adopted in IEEE standards 802.15.4a (2007) for wireless sensor networks and 802.15.6 (2012) for wireless body area networks (WBAN). Here, we discuss design of transceivers using ultrawideband chaotic pulses and analyze requirements of WBANs on wireless communication devices, and then consider the prospects of ultrawideband chaotic transceivers in WBANs.

References:

[1] L.O. Chua, L. Kocarev, K. Eckert et al. Int. J. Bifurcation and Chaos. vol. 2, p. 705, 1992.

[2] Yu.L. Belsky, A.S. Dmitriev, "Information transmission using deterministic chaos", Radiotekhnika i electronika, vol. 38, no. 7, pp. 1310-1315, 1993 (in Russian).

[3] K. Cuomo, A. Oppenheim, Phys. Rev. Lett., vol. 71, no.1, P. 65, 1993.

[4] K.S. Halle, W.W. Chai, M. Itoh et al. Int. J. Bifurcation and Chaos, vol. 3, no. 2, P. 469, 1993.

[5] M. Hasler, H. Dedieu, M. Kennedy, J. Schweizer, Proc. Int. Symp. Nonlinear Theory and Application. Hawaii, USA, P. 87, 1993.

[6] A.R. Volkovski, N.F. Rulkov, Pis'ma v GTF, vol. 19, p. 17, 1993 (in Russian).

[7] L.M. Pecora, T.L. Carroll, Phys. Rev. Lett. vol. 64, no. 8, P. 821, 1990.

[8] G. Kolumban, M.P. Kennedy, L.O. Chua, IEEE Trans. Circuits & Systems-I. vol. CS-44, P. 927, 1997.

[9] A.S. Dmitriev, A.I. Panas, S.O. Starkov. Electronic NonLinear Science Preprint, nlin.CD/0110047.

[10] A.S. Dmitriev, A.I. Panas, S.O. Starkov, B.E. Kyarginsky, J. Communications Technology and Electronics. vol. 46, no. 2, P. 207, 2001.

[11] A.S. Dmitriev, B.E. Kyarginsky, A.I. Panas et al. Int. J. Bif. and Chaos, vol. 13, no. 6, P. 1495, 2003.

[12] Yu.V. Andreyev, A.S. Dmitriev, E.V. Efremova et al. Int. J. Bif. and Chaos, vol. 15, no. 11, 2005.

[13] Federal Communications Commission (FCC), First Report and Order. ET Docket 98-153, FCC 02-48.

[14] IEEE P802.15.4a Wireless Personal Area Networks. 2005.

[15] IEEE Standard for Local and metropolitan area networks - Part 15.6: Wireless Body Area Networks. 2012.

[16] Win M.Z., Scholtz R.A. Impulse radio: How it works, IEEE Commun. Lett. 1998. Vol. 2. No. 2. PP. 36-38.

[17] Dmitriev A.S., Efremova E.V., Panas A.I., Maksimov N.A. Generation of chaos. Moscow: Tekhnosfera, 2012, 436 p. ISBN 978-5-94836-321-9 (in Russian).

[18] C. Otto, A. Milenkovic, C. Sanders, E. Jovanov, J. Mobile Multimedia, vol. 1, no. 4, P. 307, 2006.

[19] T. Zasowski, F. Althaus, M. Stager et al. IEEE Conf. Ultra Wideband Systems and Technologies, P. 285, 2003.

[20] I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci, IEEE Communications Magazine, vol. 40, no. 8, P. 102, 2002.

[21] IEEE P802.15.6/D01. Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Wireless Personal Area Networks (WPANs) used in or around a body. 2010.