Abstract:
From the estimation of the Hurst exponent and the multifractality degree we discriminate the security levels of two typical encoding schemes usually applied in chaos-based communication systems. We also analyze the effects that the sampling period and the message amplitude have on the goodness of these techniques. We compare our results with those obtained by considering an information theory approach [O.A. Rosso, R. Vicente, C.R. Mirasso, Phys. Lett. A 372 (2007) 1018]. The Hurst exponent seems to be a sensitive and powerful tool for discriminating the presence of a message embedded in a chaotic carrier. © 2009 Elsevier B.V. All rights reserved.
Registro:
Documento: |
Artículo
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Título: | Performance of encryption schemes in chaotic optical communication: A multifractal approach |
Autor: | Zunino, L.; Soriano, M.C.; Figliola, A.; Pérez, D.G.; Garavaglia, M.; Mirasso, C.R.; Rosso, O.A. |
Filiación: | Centro de Investigaciones Ópticas, C.C. 3, 1897 Gonnet, Argentina Departamento de Ciencias Básicas, Facultad de Ingeniería, Universidad Nacional de La Plata (UNLP), 1900 La Plata, Argentina Departamento de Física, Facultad de Ciencias Exactas, Universidad Nacional de La Plata, 1900 La Plata, Argentina Instituto de Física Interdisciplinar y Sistemas Complejos (IFISC) CSIC-UIB, Campus Universitat les Illes Balears, E-07122 Palma de Mallorca, Spain Chaos and Biology Group, Instituto de Desarrollo Humano, Universidad Nacional de General Sarmiento, Campus Universitario, Modulo 5, Juan Maria Gutierrez 1150, Los Polvorines, Provincia de Buenos Aires, Argentina Instituto de Física, Pontificia Universidad Católica de Valparaíso (PUCV), 23-40025 Valparaíso, Chile Centre for Bioinformatics, Biomarker Discovery and Information-Based Medicine, Hunter Medical Research Institute, School of Electrical Engineering and Computer Science, The University of Newcastle, University Drive, Callaghan NSW 2308, Australia Chaos and Biology Group, Instituto de Cálculo, Facultad de Ciencias Exactas y Naturales, Pabellon II, Ciudad Universitaria, 1428 Ciudad de Buenos Aires, Argentina
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Palabras clave: | Chaos; Hurst exponent; Multifractal detrended fluctuation analysis; Multifractality degree; Semiconductor laser; Signal encryption; Chaos; Hurst exponent; Multifractal detrended fluctuation analysis; Multifractality degree; Signal encryption; Chaotic systems; Communication systems; Fractals; Information theory; Lasers; Optical communication; Semiconductor lasers; Cryptography |
Año: | 2009
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Volumen: | 282
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Número: | 23
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Página de inicio: | 4587
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Página de fin: | 4594
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DOI: |
http://dx.doi.org/10.1016/j.optcom.2009.08.047 |
Título revista: | Optics Communications
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Título revista abreviado: | Opt Commun
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ISSN: | 00304018
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CODEN: | OPCOB
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Registro: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00304018_v282_n23_p4587_Zunino |
Referencias:
- Wang, Y., Zhang, G., Wang, A., (2007) Opt. Commun., 277, p. 156
- Bogris, A., Chlouverakis, K.E., Argyris, A., Syvridis, D., (2007) Opt. Lett., 32, p. 2134
- Li, Y., Wang, Y., Wang, A., (2008) Opt. Commun., 281, p. 2656
- Tronciu, V., Ermakov, I., Colet, P., Mirasso, C.R., (2008) Opt. Commun., 281, p. 4747
- Rueda, E., Vera, C.A., Rodríguez, B., Torroba, R., (2008) Opt. Commun., 281, p. 5750
- Xia, G.-Q., Wu, Z.-M., Liao, J.-F., (2009) Opt. Commun., 282, p. 1009
- Argyris, A., Syvridis, D., Larger, L., Annovazzi-Lodi, V., Colet, P., Fischer, I., Garcfa-Ojalvo, J., Shore, K.A., (2005) Nature, 438, p. 343
- Soriano, M.C., Colet, P., Mirasso, C.R., (2009) IEEE Photon. Technol. Lett., 21, p. 426
- (2002) IEEE J. Quantum Electron., 38, p. 1138. , Donati S., and Mirasso C.R. (Eds)
- (2004) C.R. Phys., 5, p. 609. , Larger L., and Goedgebuer J.P. (Eds)
- Uchida, A., Rogister, F., García-Ojalvo, J., Roy, R., (2005) Prog. Optics, 48, p. 203
- Lang, R., Kobayashi, K., (1980) IEEE J. Quantum Electron., 16, p. 347
- Castro e Silva, A., Moreira, J.G., (1997) Physica A, 235, p. 327
- Kantelhardt, J.W., Zschiegner, S.A., Koscielny-Bunde, E., Havlin, S., Bunde, A., Stanley, H.E., (2002) Physica A, 316, p. 87
- Telesca, L., Colangelo, G., Lapenna, V., Macchiato, M., (2004) Phys. Lett. A, 332, p. 398
- Vitanov, N.K., Yankulova, E.D., (2006) Chaos, Solitons Fract., 28, p. 768
- Movahed, M.S., Jafari, G.R., Ghasemi, F., Rahvar, S., Reza Rahimi Tabar, M., (2006) J. Stat. Mech., pp. P02003
- Barille, R., LaPenna, P., (2006) Appl. Opt., 45, p. 3331
- Jafari, G.R., Pedram, P., Hedayatifar, L., (2007) J. Stat. Mech., pp. P04012
- Figliola, A., Serrano, E., Rosso, O.A., (2007) Eur. Phys. J. Special Topics, 143, p. 117
- Lin, G., Fu, Z., (2008) Physica A, 387, p. 573
- Shang, P., Lu, Y., Kamae, S., (2008) Chaos, Solitons Fract., 36, p. 82
- Pedram, P., Jafari, G.R., (2008) Int. J. Mod. Phys. C, 19, p. 855
- Kumar, S., Deo, N., (2009) Physica A, 388, p. 1593
- Zhang, Q., Xu, C.-Y., Yu, Z., Liu, C.-L., Chen, Y.D., (2009) Physica A, 388, p. 927
- Silva, L.B.M., Vermelho, M.V.D., Lyra, M.L., Viswanathan, G.M., (2009) Chaos, Solitons Fract., 41, p. 2806
- Wang, J., Ning, X., Chen, Y., (2003) Physica A, 323, p. 561
- Federico, A., Kaufmann, G.H., (2007) Appl. Opt., 46, p. 1979
- Sen, A.K., (2007) Solar Phys., 241, p. 67
- Wang, G., Huang, H., Xie, H., Wang, Z., Hu, X., (2007) Med. Eng. Phys., 29, p. 375
- Yang, X., Ning, X., Wang, J., (2007) Physica A, 384, p. 413
- Sen, A.K., Litak, G., Kaminski, T., Wendeker, M., (2008) Chaos, 18, p. 033115
- Rodrigues Neto, C., Guimarães-Filho, Z.O., Caldas, I.L., Nascimento, I.C., Kuznetsov, Y.K., (2008) Phys. Plasmas, 15, p. 082311
- Zunino, L., Tabak, B.M., Figliola, A., Pérez, D.G., Garavaglia, M., Rosso, O.A., (2008) Physica A, 387, p. 6558
- Rosso, O.A., Vicente, R., Mirasso, C.R., (2007) Phys. Lett. A, 372, p. 1018
- Feder, J., (1988) Fractals, , Plenum Press, New York
- Muzy, J.F., Bacry, E., Arneodo, A., (1991) Phys. Rev. Lett., 67, p. 3515
- Peng, C.-K., Buldyrev, S.V., Havlin, S., Simons, M., Stanley, H.E., Goldberger, A.L., (1994) Phys. Rev. E, 49, p. 1685
- Oświȩcimka, P., Kwapień, J., Drozdz, S., (2006) Phys. Rev. E, 74, p. 016103
- Hurst, H.E., (1951) Trans. Am. Soc. Civ. Eng., 116, p. 770
- Mandelbrot, B.B., Ness, J.W.V., (1968) SIAM Rev., 10, p. 422
- Figliola, A., Serrano, E., Paccosi, G., Rosenblatt, M., Int. J. Bifurcat. Chaos, , in press
- Chlouverakis, K.E., Argyris, A., Bogris, A., Syvridis, D., (2008) Phys. Rev. E, 78, p. 066215
- Lam, W.-S., Ray, W., Guzdar, P.N., Roy, R., (2005) Phys. Rev. Lett., 94, p. 010602
- Vicente, R., Daudén, J., Colet, P., Toral, R., (2005) IEEE J. Quantum Electron., 41, p. 541
- Annovazzi-Lodi, V., Benedetti, M., Merlo, S., Perez, T., Colet, P., Mirasso, C.R., (2007) IEEE Photon. Technol. Lett., 19, p. 76
- Ursini, L., Santagiustina, M., Annovazzi-Lodi, V., (2008) IEEE Photon. Technol. Lett., 20, p. 401
- Mirasso, C.R., Mulet, J., Masoller, C., (2002) IEEE Photon. Technol. Lett., 14, p. 456
- Tukey, J.W., (1977) Exploratory Data Analysis, , Addison Wesley
- Benjamini, Y., (1988) Am. Stat., 42, p. 257
- Peil, M., Heil, T., Fischer, I., Elsäßer, W., (2002) Phys. Rev. Lett., 88, p. 174101
Citas:
---------- APA ----------
Zunino, L., Soriano, M.C., Figliola, A., Pérez, D.G., Garavaglia, M., Mirasso, C.R. & Rosso, O.A.
(2009)
. Performance of encryption schemes in chaotic optical communication: A multifractal approach. Optics Communications, 282(23), 4587-4594.
http://dx.doi.org/10.1016/j.optcom.2009.08.047---------- CHICAGO ----------
Zunino, L., Soriano, M.C., Figliola, A., Pérez, D.G., Garavaglia, M., Mirasso, C.R., et al.
"Performance of encryption schemes in chaotic optical communication: A multifractal approach"
. Optics Communications 282, no. 23
(2009) : 4587-4594.
http://dx.doi.org/10.1016/j.optcom.2009.08.047---------- MLA ----------
Zunino, L., Soriano, M.C., Figliola, A., Pérez, D.G., Garavaglia, M., Mirasso, C.R., et al.
"Performance of encryption schemes in chaotic optical communication: A multifractal approach"
. Optics Communications, vol. 282, no. 23, 2009, pp. 4587-4594.
http://dx.doi.org/10.1016/j.optcom.2009.08.047---------- VANCOUVER ----------
Zunino, L., Soriano, M.C., Figliola, A., Pérez, D.G., Garavaglia, M., Mirasso, C.R., et al. Performance of encryption schemes in chaotic optical communication: A multifractal approach. Opt Commun. 2009;282(23):4587-4594.
http://dx.doi.org/10.1016/j.optcom.2009.08.047