RICERCA ITALIANA     

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Classificazione scientifico-disciplinare

• Area scientifico disciplinare: Ingegneria industriale e dell'informazione
  • ELETTROTECNICA
  • ELETTRONICA

Classificazione brevettuale

• ELECTRICITY
  • BASIC ELECTRONIC CIRCUITRY
    • GENERATION OF OSCILLATIONS, DIRECTLY OR BY FREQUENCY-CHANGING, BY CIRCUITS EMPLOYING ACTIVE ELEMENTS WHICH OPERATE IN A NON-SWITCHING MANNER; GENERATION OF NOISE BY SUCH CIRCUITS (measuring, testing G01R; generators adapted for electrophonic musical instruments G10H; Speech synthesis G10L; masers, lasers H01S; dynamo-electric machines H02K; power inverter circuits H02M; by using pulse techniques H03K; automatic control of generators H03L; starting, synchronisation or stabilisation of generators where the type of generator is irrelevant or unspecified H03L; generation of oscillations in plasma H05H)

Classificazione geografica

• Regione: Emilia Romagna

Bibliografia

[1] R. N. Madan (Ed.), ``Chua's Circuit: A Paradigm for Chaos'', World Scientific, Singapore, 1993

[2] L. O. Chua (Ed.), ``Special Issue on Chaotic Systems'', Proceedings of the IEEE, vol. 75, n. 8, 1987

[3] L. M. Pecora, T. L. Carroll, ``Synchronization in chaotic systems'', Physical Review Letters vol.64, pp. 821, 1990

[4] M. P. Kennedy, R. Rovatti, G. Setti (Eds.), "Chaotic Electronics in Telecommunications,CRC Press, Boca Raton, 2000

[5] M. Hasler, "Electrical circuits with chaotic behavior", Proc. IEEE, vol.75, pp.1009-1021, 1987

[6] M. P. Kennedy, H. Dedieu, M. Hasler, ``Chaos Shift Keying: Modulation and Demodulation of a Chaotic Carrier Using Self-synchronising Chua's Circuits,'' IEEE Transactions on Circuits and Systems - II, vol. 40, pp. 634-642, 1993

[7] U. Feldmann, M. Hasler, W. Schwarz, ``Communication by chaotic signals: the inverse system approach'', International Journal on Circuit Theory and Applications, vol.24, pp.551-579, Sept.-Oct. 1996.

[8] M.Hasler, "Engineering chaos for encryption and broadband communication", Philosophical Transactions of the Royal Society of London, series A, vol. 353, pp. 115-126, October 1995.

[9] G. Kolumban, M.P. Kennedy, L.O. Chua, ``The Role of Synchronization in Digital Communication Using Chaos-Part I: Fundamentals of Digital Communications,'' IEEE Trans. Circ. Sys. - Part I, vol. 44, pp. 927-936, 1997

[10] M. Hasler, T. Schimming: "Chaos communication over noisy channels", Int. Journal of Bifurcations and Chaos, Vol. 10, pp 719-736, 2000.

[11] M. Hasler, T. Schimming, ``Optimal and Suboptimal Chaos Receiver'', Proceedings of the IEEE, Special Issue on ``Applications of Nonlinear Dynamics to Electronic and Information Engineering'', 2002, to appear

[12] M. P. Kennedy, G. Kolumban, G. Kis, Z. Jako, ``Performance Evaluation of FM-DCSK Modulation in Multipath Environments'', IEEE Transaction on Circuits and Systems - I, vol. 47, pp. 1702-1711, 2000

[13] A. Lasota, M. C. Mackey, "Chaos, Fractals and Noise", Springer Verlag, 1994

[14] M. Dellnitz, G. Froyland, S. Sertl, ``On the Isolated Spectrum of the Perron Frobenius Operator'', Nonlinearity, vol. 13, pp. 1171-1188, 2000

[15] V. Baladi, Positive Transfer Operator and Decay of Correlations, World Scientific, 2000

[16] G. Mazzini, G. Setti, R. Rovatti, "Chaotic Complex Spreading Sequences for Asynchronous DS-CDMA - Part I: System Modeling and Results", IEEE Trans. on Circuits and Systems- Part I, vol. 44, n. 10, pp. 937-947, 1997.

[17] R. Rovatti, G. Setti, G. Mazzini, "Chaotic Complex Spreading Sequences for Asynchronous DS-CDMA - Part II: Some Theoretical Performance Bounds", IEEE Tran. on Circuits and Systems- Part I, vol. 45, n. 4, pp. 496-506, 1998.

[18] G. Mazzini, R.Rovatti, G. Setti, "Interference Minimization by Auto-correlation Shaping in Asynchronous DS-CDMA Systems: Chaos-based Spreading is Nearly Optimal" IEE Elet. Lett., vol. 35, n. 13, Jun. 24 1999, pp. 1054-1055.

[19] G. Setti, R. Rovatti, G. Mazzini, "Synchronization Mechanism and Optimization of Spreading Sequences in Chaos-Based DS-CDMA Systems", IEICE Trans. on Fund., vol. 82, n. 9, pp. 1737-1746, Sept. 1999.

[20] R. Rovatti, G. Mazzini, G. Setti, ``Interference Bounds for DS-CDMA Systems Based on Chaotic Piecewise-Affine Markov Maps'', IEEE Trans. on Circuits and Systems- Part I, vol. 47, pp. 885-896, June 2000

[21] F. Lin, D. Y. Chen, "Reduction of Power Supply EMI Emission by Switching Frequency Modulation," IEEE Trans. on Power Electronics, vol. 9, pp. 132-137, 1994.

[22] K. B. Hardin, J. H. Fessler, D. R. Bush, "Spread Spectrum Clock Generation for the Reduction of Radiated Emission," Proc. EMC94, 1994.

[23] K. B. Hardin, J. H. Fessler, D. R. Bush, J. J. Booth "Spread Spectrum Clock Generator and Associated Method," U.S. Patent n. 5,488,627}, 1996.

[24] R. Rovatti, G. Setti, S. Graffi, ``Chaos-Based FM of Clock Signals for EMI Reduction'' 14th European Conference on Circuit Theory and Design (ECCTD'99), pp. 373-376, Stresa, 1999.

[25] G. Setti, M. Balestra, R. Rovatti, ``Experimental Verification of Enhanced Electromagnetic Compatibility in Chaotic FM Clock Signals'', IEEE International Symposium on Circuits and Systems (ISCAS 2000), pp. III-229-III-232, Geneva, 2000.

[26] S. Callegari, R. Rovatti, G. Setti, ``On the Spectrum of Signals Obtained by Driving FM Modulators with Chaotic Sequences,'' 15th European Conference on Circuit Theory and Design (ECCTD'01), Helsinki, 2001.

[27] A. E. Elwakil, ``A Design Methodology for Autonomous Chaotic Oscillators'', Ph.D. Thesis, Dep. of Electrical and Electronic Engineering, Dublin, 2000

[28] E. Lindberg, ``Design Principles of Chaotic Oscillators'', ECCTD01 Tutorials, 2001

[29] T. Khoda, A. Tsuneda, ``Statistics of Chaotic Binary Sequences'', IEEE Trans. on Information Theory, vol. 43, pp. 104-112, 1997

[30] T. Stojanovski, L. Kocarev, ``Chaos-based Random Number Generators - Part I: Analysis'', IEEE Transactions on Circuits and Systems - Part I, vol. 48, pp. 281-288, 2001

[31] K. S. Kundert, A. Sangiovanni-Vincentelli, ``Simulation of nonlinear circuits in the frequency domain,'' IEEE Transactions on Computer-Aided Design, pp. 521--535, 1986.

[32] A. Ushida, T. Adachi, and L. O. Chua, ``Steady-state analysis of nonlinear circuits, based on hybrid methods,'' IEEE Transactions on Circuits and Systems: I, vol. 39, pp. 649--661, 1992.

[33] R. Genesio, A. Tesi, ``A Harmonic Balance Approach for Chaos Prediction: Chua's circuit'', International Journal of Bifurcation and Chaos, vol. 2, no. 1,pp. 61--79, 1992.

[34] C. Piccardi, ``Bifurcations of limit cycles in periodically forced nonlinear systems,'' IEEE Transactions on Circuits and Systems: I, vol. 41, pp. 315--320, 1994.

[35] V. Rizzoli, A. Neri, ``State of the art and present trends in nonlinear microwave techniques,'' Transactions on Microwave Theory and Techniques, pp. 343--365, 1988.

[36] A. Suarez, J, Morales, R. Quere, ``Syncronization analysis of autonomous microwave circuits using new global-stability analysis tools,'' IEEE Transactions on Microwave Theory and Techniques, vol. 46, pp. 494-504, May 1998.

[37] D. W. Berns, J. L. Moiola, and G. Chen, ``Predicting period-doubling bifurcations and multiple oscillations in nonlinear time-delayed feedback systems,'' IEEE Transactions on Circuits and Systems: I, vol. 45, pp. 759-763, 1998.

[38] M. Gilli, G. M. Maggio, "Predicting chaos through an harmonic balance technique: an application to the time-delayed Chua's circuit'', {em IEEE Transactions on Circuits and Systems: Part I}, vol.~43, n.~10, pp..~872-874, 1996.

[39] F. Bonani, M. Gilli, ``Analysis of stability and bifurcations of limit cycles in Chua's circuit through the harmonic balance approach'', {em IEEE Transactions on Circuits and Systems: Part I.}, vol. 46, no. 8, pp.. 881-890, 1999.

[40] S. Nakagawa and T. Saito, "An RC OTA hysteresis chaos generator," IEEE Trans. Circuits and Systems-I, CAS-43, pp. 1019-1021 (1996).

[41] M. Storace, M. Parodi, and D. Robatto, "A hysteresis-based chaotic circuit: dynamics and applications," Int. J. Circuit Theory and Appl., 27, pp. 527-542 (1999).

[42] M. Storace, F. Bizzarri, "Basic bifurcation analysis of a hysteresis oscillator," Int. J. Circuit Theory and Appl., vol. 29, No. 4, pp. 343-366, Jul.-Aug. 2001.

[43] F. Bizzarri, L. Gardini, R. Lupini, M. Storace, "Bifurcation analysis of a PWL chaotic circuit based on hysteresis through a one-dimensional map," Int. Jour Bif. and Chaos, 2001

[43] A. Brambilla, A. Premoli, ``Rigorous Event-Driven (RED) Analysis of Large Scale RC Circuits, IEEE Trans. on CAS-I, Vol. 48, No. 8, Aug. 2001, pp. 938-954.

[44] S. Chialina, M. Hasler, A. Premoli: "Fast and accurate calculation of Lyapunov Exponents for piecewise-linear systems", Int. Journal of Bifurcations and Chaos, Vol. 4, pp 127-136, 1994.

Parole Chiave

caos; circuiti elettronici nonlineari e oscillatori; statistica; bilanciamento armonico; implementazione di mappe; dinamica complessa e biforcazioni