This work is licensed under the Creative Commons Attribution 4.0 International License.
Qais H Alsafasfeh and Mohammad S Al-Arni. A new chaotic behavior from lorenz and rossler systems and its electronic circuit implementation. Circuits and Systems, 2(02):101, 2011.AlsafasfehQais HAl-ArniMohammad SA new chaotic behavior from lorenz and rossler systems and its electronic circuit implementation202101201110.4236/cs.2011.22015Search in Google Scholar
Soumitro Banerjee, James A Yorke, and Celso Grebogi. Robust chaos. Physical Review Letters, 80(14):3049, 1998.BanerjeeSoumitroYorkeJames AGrebogiCelsoRobust chaos80143049199810.1103/PhysRevLett.80.3049Search in Google Scholar
MS Baptista. Cryptography with chaos. Physics letters A, 240(1–2):50–54, 1998.BaptistaMSCryptography with chaos2401–25054199810.1016/S0375-9601(98)00086-3Search in Google Scholar
Mauricio Zapateiro De la Hoz, Leonardo Acho, and Yolanda Vidal. A modified chua chaotic oscillator and its application to secure communications. Applied Mathematics and Computation, 247:712–722, 2014.De la HozMauricio ZapateiroAchoLeonardoVidalYolandaA modified chua chaotic oscillator and its application to secure communications247712722201410.1016/j.amc.2014.09.031Search in Google Scholar
Jonathan HB Deane and David C Hamill. Improvement of power supply emc by chaos. Electronics letters, 32(12):1046, 1996.DeaneJonathan HBHamillDavid CImprovement of power supply emc by chaos32121046199610.1049/el:19960716Search in Google Scholar
Manuel Delgado-Restituto and Ángel Rodríguez-Vázquez. Integrated chaos generators. Proceedings of the IEEE, 90(5):747–767, 2002.Delgado-RestitutoManuelRodríguez-VázquezÁngelIntegrated chaos generators905747767200210.1109/JPROC.2002.1015005Search in Google Scholar
P Dudek and VD Juncu. Compact discrete-time chaos generator circuit. Electronics Letters, 39(20):1431–1432, 2003.DudekPJuncuVDCompact discrete-time chaos generator circuit392014311432200310.1049/el:20030881Search in Google Scholar
Scott Hayes, Celso Grebogi, and Edward Ott. Communicating with chaos. Physical review letters, 70(20):3031, 1993.HayesScottGrebogiCelsoOttEdwardCommunicating with chaos70203031199310.1103/PhysRevLett.70.303110053758Search in Google Scholar
David A Hsieh. Chaos and nonlinear dynamics: application to financial markets. The journal of finance, 46(5):1839–1877, 1991.HsiehDavid AChaos and nonlinear dynamics: application to financial markets46518391877199110.1111/j.1540-6261.1991.tb04646.xSearch in Google Scholar
VD Juncu, M Rafiei-Naeini, and P Dudek. Integrated circuit implementation of a compact discrete-time chaos generator. Analog Integrated Circuits and Signal Processing, 46(3):275–280, 2006.JuncuVDRafiei-NaeiniMDudekPIntegrated circuit implementation of a compact discrete-time chaos generator463275280200610.1007/s10470-006-1432-0Search in Google Scholar
Georges Kaddoum. Design and performance analysis of a multiuser ofdm based differential chaos shift keying communication system. IEEE Transactions on Communications, 64(1):249–260, 2015.KaddoumGeorgesDesign and performance analysis of a multiuser ofdm based differential chaos shift keying communication system641249260201510.1109/TCOMM.2015.2502259Search in Google Scholar
Ali Kanso and Nejib Smaoui. Logistic chaotic maps for binary numbers generations. Chaos, Solitons & Fractals, 40(5):2557–2568, 2009.KansoAliSmaouiNejibLogistic chaotic maps for binary numbers generations40525572568200910.1016/j.chaos.2007.10.049Search in Google Scholar
Tomasz Kapitaniak. Chaos for engineers: theory, applications, and control. Springer Science & Business Media, 2012.KapitaniakTomaszSpringer Science & Business Media2012Search in Google Scholar
Ljupco Kocarev. Chaos-based cryptography: a brief overview. IEEE Circuits and Systems Magazine, 1(3):6–21, 2001.KocarevLjupcoChaos-based cryptography: a brief overview13621200110.1109/7384.963463Search in Google Scholar
Laurent Larger, Jean-Pierre Goedgebuer, and Vladimir Udaltsov. Ikeda-based nonlinear delayed dynamics for application to secure optical transmission systems using chaos. Comptes Rendus Physique, 5(6):669–681, 2004.LargerLaurentGoedgebuerJean-PierreUdaltsovVladimirIkeda-based nonlinear delayed dynamics for application to secure optical transmission systems using chaos56669681200410.1016/j.crhy.2004.05.003Search in Google Scholar
Hong Ge Li, Si Di Gong, Jian Wei Liu, and Dong Lin Su. Cmos-based chaotic pwm generator for emi reduction. IEEE Transactions on Electromagnetic Compatibility, 59(4):1224–1231, 2017.LiHong GeGongSi DiLiuJian WeiSuDong LinCmos-based chaotic pwm generator for emi reduction59412241231201710.1109/TEMC.2016.2645784Search in Google Scholar
Yang Li-Jiang and Chen Tian-Lun. Application of chaos in genetic algorithms. Communications in Theoretical Physics, 38(2):168, 2002.YangLi-JiangChenTian-LunApplication of chaos in genetic algorithms382168200210.1088/0253-6102/38/2/168Search in Google Scholar
Soumyajit Mandal and Soumitro Banerjee. An integrated cmos chaos generator. In Proc. 1st Indian National Conf. Nonlinear Systems & Dynamics (NCNSD’03), pages 313–316, 2003.MandalSoumyajitBanerjeeSoumitroInProc. 1st Indian National Conf. Nonlinear Systems & Dynamics (NCNSD’03)3133162003Search in Google Scholar
Naoki Masuda and Kazuyuki Aihara. Cryptosystems with discretized chaotic maps. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 49(1):28–40, 2002.MasudaNaokiAiharaKazuyukiCryptosystems with discretized chaotic maps4912840200210.1109/81.974872Search in Google Scholar
Takashi Morie, Souta Sakabayashi, Makoto Nagata, and Atsushi Iwata. Cmos circuits generating arbitrary chaos by using pulsewidth modulation techniques. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 47(11):1652–1657, 2000.MorieTakashiSakabayashiSoutaNagataMakotoIwataAtsushiCmos circuits generating arbitrary chaos by using pulsewidth modulation techniques471116521657200010.1109/81.895335Search in Google Scholar
Van Ha Nguyen, Sandeep Kumar, and Hanjung Song. A family of fully integrated cmos chaos generators with strictly 1-d linear-piecewise chaos maps. Journal of Computational Electronics, 17(3):1343–1355, 2018.NguyenVan HaKumarSandeepSongHanjungA family of fully integrated cmos chaos generators with strictly 1-d linear-piecewise chaos maps17313431355201810.1007/s10825-018-1203-zSearch in Google Scholar