Random Binary Sequences in Telecommunications

[1] van TILBORG, H. C. A.-JAJODIA, S. (Eds.) : Encyclopedia of Cryptography and Security, Springer, 2011.10.1007/978-1-4419-5906-5Search in Google Scholar

[2] TORRIERI, D. : Principles of Spread-Spectrum Communication Systems, Springer, 2005.Search in Google Scholar

[3] GOLOMB, S. W. : Shift Register Sequences, Holden-Day Inc., San Francisco, 1967.Search in Google Scholar

[4] SARVATE, D. V.-PURSLEY, M. B. : Crosscorrelation Properties of Pseudorandom and Related Sequences, Proc. of the IEEE 68 No. 5 (May 1980), 593-619.10.1109/PROC.1980.11697Search in Google Scholar

[5] TAUSWORTHE, R. C. : Random Numbers Generated by Linear Recurrence Modulo Two, Mathematics of Computation 19 (1965), 201-209.10.1090/S0025-5718-1965-0184406-1Search in Google Scholar

[6] LEWIS, T. G.-PAYNE, W. H. : Generalized Feedback Shift Register Pseudorandom Number Algorithm, Journal of the ACM 20 (1973), 456-468.10.1145/321765.321777Search in Google Scholar

[7] LUBY, M. : Pseudorandomness and Cryptographic Applications, Princeton University Press, 1996.10.1515/9780691206844Search in Google Scholar

[8] BLACKLEDGE, J. : Cryptology, Fractals and Chaos, Woodhead Publishing, 2011.Search in Google Scholar

[9] KOHDA, T.-TSUNEDA, A. : Pseudonoise Sequences by Chaotic Nonlinear Maps and their Correlation Properties, IEICE Trans. Commun. E76-B No. 8 (1993), 855-862.Search in Google Scholar

[10] KOHDA, T.-TSUNEDA, A. : Statistics of Chaotic Binary Sequences, IEEE Trans. Inform. Theory 43 No. 1 (1997), 104-112.10.1109/18.567654Search in Google Scholar

[11] SANG, T.-WANG, R.-YAN, Y. : Constructing Chaotic Discrete Sequences for Digital Communications based on Correlation Analysis, IEEE Trans. Signal Processing 48 No. 9 (2000), 2557-2565.10.1109/78.863058Search in Google Scholar

[12] SETTI, G.-MAZZINI, G.-ROVATTI, R.-CALLEGARI, S. : Statistical Modeling of Discrete-Time Chaotic Processes-Basic Finite-Dimensional Tools and Applications, Proc. IEEE 90 No. 5 (2002), 662-690.10.1109/JPROC.2002.1015001Search in Google Scholar

[13] HEIDARI-BATENI, G.-McGILLEM, C. D. : Chaotic Sequences for Spread Spectrum: An Alternative to PN-Sequences, Proc. IEEE Int. Conf. on Selected Topics in Wireless Communications (ICWC 92), Vancouver (Canada), 1992, pp. 437-440.Search in Google Scholar

[14] HEIDARI-BATENI, G.-McGILLEM, D. : A Chaotic Direct- Sequence Spread-Spectrum Communication System, IEEE Trans. Commun. 42 No. 2/3/4 (1994), 1524-1527.10.1109/TCOMM.1994.582834Search in Google Scholar

[15] MAZZINI, G.-ROVATTI, R.-SETTI, G. : Interference Minimization by Autocorrelation Shaping in Asynchronous DSCDMA Systems: Chaos-based Spreading is Nearly Optimal, Electronics Letters 35 (1999), 1054-1055.10.1049/el:19990754Search in Google Scholar

[16] PARLITZ, U.-ERGEZINGER, S. : Robust Communication based on Chaotic Spreading Sequences, Phys. Lett. A 188 (1994), 146-150.10.1016/0375-9601(84)90009-4Search in Google Scholar

[17] HORAN, D.-GUINEE, R. A. : A Novel Stream Cipher for Cryptographic Applications, Proc. of IEEE. Military Communications Conference (IEEE MILCOM 06), Washington DC, 2006, pp. 1-5.10.1109/MILCOM.2006.302106Search in Google Scholar

[18] BLASZCZYK, M.-GUINEE, R. A. : A novel Modelled True Random Binary Number Generator for Key Stream Generation in Cryptographic Applications, Proc. of IEEE. Military Communications Conference (IEEE MILCOM 08),, San Diego, California, 2008, pp. 1-7.10.1109/MILCOM.2008.4753211Search in Google Scholar

[19] BARDIS, N. G.-MARKOVSKYI, A. P.-DOUKAS, N.-KARADIMAS, N. V. : True Random Number Generation based on Environmental Noise Measurements for Military Applications, Proc. of the 8th WSEAS International Conference on Signal Processing, Robotics and Automation (ISPRA 09), Cambridge, UK, 2009, pp. 68-73.Search in Google Scholar

[20] KANTER, I.-AVIAD, Y.-REIDLER, I.-COHEN, E.-ROSENBLUH, M. : An Optical Ultrafast Random Bit Generator, Nature Photonics 4 No. 1 (2010), 58-61.10.1038/nphoton.2009.235Search in Google Scholar

[21] YALCIN, M. E.-SUYKENS, J. A. K.-VandeWALLE, J. : True Random Bit Generation from a Double-Scroll Attractor, IEEE Transactions on Circuits and Systems I: Regular Papers 51 No. 7 (2004), 1395-1404.10.1109/TCSI.2004.830683Search in Google Scholar

[22] WILLIAMS, C. R. S.-SALEVAN, J. C.-LI, X.-ROY, R.- MURPHY, T. E. : Fast Physical Random Number Generator using Amplified Spontaneous Emission, Optics Express 18 No. 23 (2010), 23584.10.1364/OE.18.02358421164703Search in Google Scholar

[23] LI, P.-WANG, Y. C.-ZHANG, J. Z. : All-Optical Fast Random Number Generator, Optics Express 18 No. 19 (2010), 20360.10.1364/OE.18.02036020940928Search in Google Scholar

[24] LIU, Z.-PENG, D. : True Random Number Generator in RFID Systems Against Traceability, Proc. of IEEE Consumer Communications and Networking Conference (CCNC 06), Las Vegas, Nevada, 2006, pp. 620-624.Search in Google Scholar

[25] MASSEY, J. L. : Shift-Register Synthesis and BCH Decoding, IEEE Trans. Inform. Theory 15 No. 1 (Jan 1969), 122-127.10.1109/TIT.1969.1054260Search in Google Scholar

[26] GOLD, R. : Optimal Binary Sequences for Spread Spectrum Multiplexing, IEEE Trans. Inform. Theory IT-13 (1967), 619-621.10.1109/TIT.1967.1054048Search in Google Scholar

[27] GOLD, R. : Maximal Recursive Sequences with 3-Valued Recursive Cross-Correlation Functions, IEEE Trans. Inform. Theory IT-14 (1968), 154-156.10.1109/TIT.1968.1054106Search in Google Scholar

[28] KASAMI, T. : Weight Distribution Formula for some Class of Cyclic Codes, Tech. Report No. R-285, Univ. of Illinois, 1966.10.21236/AD0632574Search in Google Scholar

[29] DINAN, E. H.-JABBARI, B. : Spreading Codes for Direct Sequence CDMA and Wideband CDMA Cellular Networks, IEEE Commun. Mag. 36 No. 9 (1998), 48-54.10.1109/35.714616Search in Google Scholar

[30] GLISIC, S.-VUCETIC, B. : Spread Spectrum CDMA Systems for Wireless Communications, Artech House, Inc., Boston, 1997.Search in Google Scholar

[31] GUIZANI, M. : Wireless Communication Systems and Networks, Kluwer Academic Publishers, Boston, 2004.10.1007/b105392Search in Google Scholar

[32] DIXON, R. C. : Spread Spectrum Systems with Commercial Applications, John Wiley & Sons, Boston, 1994.Search in Google Scholar

[33] ABU-RGHEFF, M. A. : Introduction to CDMA Wireless Communications, 1st ed, Elsevier, 2007.10.1016/B978-075065252-0.50002-8Search in Google Scholar

[34] ADACHI, F.-SAWAHASHI, M.-OKAWA, O. : Three-Structured Generation of Orthogonal Spreading Codes with Different Length for Forward Link of DS-CDMA Mobile Radio, Electronic Letters 33 No. 1 (1997), 27-28.10.1049/el:19970022Search in Google Scholar

[35] KADDOUM, G.-CHARGÉ, P.-ROVIRAS, D. : A Generalized Methodology for Bit-Error-Rate Prediction in Correlation- Based Communication Schemes using Chaos, IEEE Communications Letters 13 No. 8 (Aug 2009).10.1109/LCOMM.2009.090715Search in Google Scholar

[36] MURRY, H. F. : A General Approach for Generating Natural Random Variables, IEEE Transactions on Computers (Dec 1970), 1210-1213.10.1109/T-C.1970.222860Search in Google Scholar

[37] BUCCI, M.-GERMANI, L.-LUZZI, R.-TRIFILETTI, A.- VARANOUOVO, M. : A High-Speed Oscillator-based Truly Random Number Source for Cryptographic Applications on a Smart Card IC, IEEE Transactions on Computers 52 (Apr 2003), 403-409.10.1109/TC.2003.1190581Search in Google Scholar

[38] GOV, N. C.-MIHCAK, F. K-ERGUN, S. : True Random Number Generation via Sampling From Flat Band-limited Gaussian Processes, IEEE Transactions on Circuits and Systems-I: Regular Papers 58 No. 6 (June 2011).10.1109/TCSI.2010.2089561Search in Google Scholar

[39] YALCIN, M. E.-SUYKENS, J. K.-VANDEWALLE, J. : True Random Bit Generation from a Double Scroll Attractor, IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications 51 (July 2004), 1395-1404.10.1109/TCSI.2004.830683Search in Google Scholar

[40] ŠAJIĆ, S.-TODOROVIĆ, B. M.-MALETIĆ, N. : True Random Binary Sequence Generator for Secure Communications, in Proc of 10th International Conference on Telecommunications in Modern Satellite, Cable and Broadcasting Services (TELSIKS’ 11), vol. 2, Niš, Oct 2011, pp. 723-726.10.1109/TELSKS.2011.6143213Search in Google Scholar

[41] RUKHIN, A.et al : A Statistical Test Suite for Random and Pseudorandom Number Generators for Cryptographic Applications, National Institute of Standards and Technology (NIST), Special Publication 800-22, Revision 1a, April 2010.Search in Google Scholar

[42] MARSAGLIA, G. : Diehard: a Battery of Tests of Randomness http://stat.fsu.edu/geo/diehard.html, 1996.Search in Google Scholar

[43] GUSTAFSON, H. et al : A Computer Package for Measuring Strength of Encryption Algorithms, Journal of Computers & Security 13 No. 8 (1994), 687-697.10.1016/0167-4048(94)90051-5Search in Google Scholar

[44] KNUTH, D. : The Art of Computer Programming, Seminumerical Algorithms, Vol. 2, 3rd edition, Addison Wesley, Reading, Massachusetts, 1998.Search in Google Scholar

[45] STINSON, D. R. : Cryptography - Theory and Practice, CRC Press, Boca Raton, 1995.Search in Google Scholar

[46] DIFFIE, W.-HELLMAN, M. E. : New Directions in Cryptography, IEEE Trans. Inform. Theory IT-22 (1976), 644-654.10.1109/TIT.1976.1055638Search in Google Scholar

[47] MENEZES, A.-van OORSCHOT, P.-VANSTONE, S. : Handbook of Applied Cryptography, CRC Press, 1997.Search in Google Scholar

[48] BENNETT, C. H.-BRASSARD, G. : Quantum Cryptography: Public Key Distribution and Coin Tossing, proc. IEEE International Conference on Computers, Systems and Signal Processing, Bangalore, India, 1984, pp. 175-179.Search in Google Scholar

[49] HRG, D.-BUDIN, L.-GOLUB, M. : Quantum Cryptography and Security of Information Systems, Proceedings of the 15th International Conference on Information and Intelligent Systems, IIS2004, Varaždin, Croatia, 2004. Search in Google Scholar