Journal on Communications ›› 2020, Vol. 41 ›› Issue (3): 168-181.doi: 10.11959/j.issn.1000-436x.2020008
• Distinguished and Excellent Young Scholar • Previous Articles Next Articles
Lilin YI,Junxiang KE
Revised:
2019-11-22
Online:
2020-03-25
Published:
2020-03-31
Supported by:
CLC Number:
Lilin YI,Junxiang KE. Research progress of chaotic secure optical communication[J]. Journal on Communications, 2020, 41(3): 168-181.
[1] | ZHANG Q , XU F , CHEN Y A ,et al. Large scale quantum key distribution:challenges and solutions[J]. Optics Express, 2018,26(18): 24260-24273. |
[2] | MAIMAN T H . Optical and microwave-optical experiments in ruby[J]. Physical Review Letters, 1960,4(11):564. |
[3] | LORENZ E N . Deterministic nonperiodic flow[J]. Journal of the Atmospheric Sciences, 1963,20(2): 130-141. |
[4] | HAKEN H . Analogy between higher instabilities in fluids and lasers[J]. Physics Letters A, 1975,53(1): 77-78. |
[5] | PECORA L M , CARROLL T L . Synchronization in chaotic systems[J]. Physical Review Letters, 1990,64(8):821. |
[6] | ARGYRIS A , SYVRIDIS D , LARGER L ,et al. Chaos-based communications at high bit rates using commercial fibre-optic links[J]. Nature, 2005,438(7066): 343-346. |
[7] | LAVROV R , JACQUOT M , LARGER L . Nonlocal nonlinear electro-optic phase dynamics demonstrating 10 Gbit/s chaos communications[J]. IEEE Journal of Quantum Electronics, 2010,46(10): 1430-1435. |
[8] | ORTIN S , PESQUERA L , GUTIERREZ J M ,et al. Nonlinear dynamics reconstruction with neural networks of chaotic time-delay communication systems[C]// AIP Conference Proceedings.[S.n.:s.l]. 2007:887. |
[9] | WU Y , WANG Y C , LI P ,et al. Can fixed time delay signature be concealed in chaotic semiconductor laser with optical feedback[J]. IEEE Journal of Quantum Electronics, 2012,48(11): 1371-1379. |
[10] | RONTANI D , LOCQUET A , SCIAMANNA M ,et al. Time-delay identification in a chaotic semiconductor laser with optical feedback:a dynamical point of view[J]. IEEE Journal of Quantum Electronics, 2009,45(7): 879-1891. |
[11] | RONTANI D , LOCQUET A , SCIAMANNA M ,et al. Loss of time-delay signature in the chaotic output of a semiconductor laser with optical feedback[J]. Optics Letters, 2007,32(20): 2960-2962. |
[12] | UCHIDA A . Optical communication with chaotic lasers[M]. Weinheim: Wiley-VCH Verlag GmbHPress, 2012. |
[13] | GOEDGEBUER J P , LEVY P , LARGER L ,et al. Optical communication with synchronized hyperchaos generated electrooptically[J]. IEEE Journal of Quantum Electronics, 2002,38(9): 1178-1183. |
[14] | NGUIMDO R M . Chaos and synchronization in opto-electronic devices with delayed feedback[D]. Illes Balears:Universitat de les Illes Balears, 2011. |
[15] | NOURINE M , CHEMBO Y K , LARGER L . Wideband chaos generation using a delayed oscillator and a two-dimensional nonlinearity induced by a quadrature phase-shift-keying electro-optic modulator[J]. Optics Letters, 2011,36(15): 2833-2835. |
[16] | LAVROV R , PEIL M , JACQUOT M ,et al. Electro-optic delay oscillator with nonlocal nonlinearity:optical phase dynamics,chaos,and synchronization[J]. Physical Review E, 2009,80(2):026207. |
[17] | YI L L , KE J X , XIA G Q ,et al. Phase chaos generation and security enhancement by introducing fine-controllable dispersion[J]. Journal of Optics, 2018,20(2):24004. |
[18] | ORTíN S , GUTIERREZ J M , PESQUERA L ,et al. Nonlinear dynamics extraction for time-delay systems using modular neural networks synchronization and prediction[J]. Physica A:Statistical Mechanics and its Applications, 2005,351(1): 133-141. |
[19] | NGUIMDO R M , SORIANO M C , COLET P . Role of the phase in the identification of delay time in semiconductor lasers with optical feedback[J]. Optics Letters, 2011,36(22): 4332-4334. |
[20] | NGUIMDO R M , VERSCHAFFELT G , DANCKAERT J ,et al. Loss of time-delay signature in chaotic semiconductor ring lasers[J]. Optics Letters, 2012,37(13): 2541-2543. |
[21] | WU J G , XIA G Q , WU Z M . Suppression of time delay signatures of chaotic output in a semiconductor laser with double optical feedback[J]. Optics Express, 2009,17: 20124-20133. |
[22] | WU J G , XIA G Q , CAO L P ,et al. Experimental investigations on the external cavity time signature in chaotic output of an incoherent optical feedback external cavity semiconductor laser[J]. Optics Communications, 2009,282: 3153-3156. |
[23] | LI S S , LIU Q , CHAN S C . Distributed feedbacks for time-delay signature suppression of chaos generated from a semiconductor laser[J]. IEEE Photonics Journal, 2012,4(5): 1930-1935. |
[24] | WANG D M , WANG L S , ZHAO T ,et al. Time delay signature elimination of chaos in a semiconductor laser by dispersive feedback from a chirped FBG[J]. Optics Express, 201725(10):10911. |
[25] | WANG D M , WANG L S , GUO Y Y ,et al. Key space enhancement of optical chaos secure communication:chirped FBG feedback semiconductor laser[J]. Optics Express, 2019,27(3):3065. |
[26] | KE J X , YI L L , HOU T T ,et al. Time delay concealment in feedback chaotic systems with dispersion in loop[J]. IEEE Photonics Journal, 2017,9(2): 1-8. |
[27] | HIZANIDIS J , DELIGIANNIDIS S , BOGRIS A ,et al. Enhancement of chaos encryption potential by combining all-optical and electrooptical chaos generators[J]. IEEE Journal of Quantum Electronics, 2010,46(11): 1642-1649. |
[28] | NGUIMDO R M , COLET P , LARGER L ,et al. Digital key for chaos communication performing time delay concealment[J]. Physical Review Letters, 2011,107(3):034103. |
[29] | NGUIMDO R M , COLET P . Electro-optic phase chaos systems with an internal variable and a digital key[J]. Optics Express, 2012,20(23): 25333-25344. |
[30] | HOU T T , YI L L , YANG X L ,et al. Maximizing the security of chaotic optical communications[J]. Optics Express, 2016,24(20): 23439-23449. |
[31] | AROMATARIS G , ANNOVAZZI-LODI V . Enhancing privacy of chaotic communications by double masking[J]. IEEE Journal of Quantum Electronics, 2013,49(11): 955-959. |
[32] | URSINI L , SANTAGIUSTINA M , ANNOVAZZI-LODI V . Enhancing chaotic communication performances by Manchester coding[J]. IEEE Photonics Technology Letters, 2008,20(6): 401-403. |
[33] | VANWIGGEREN G D , ROY R . Communication with chaotic lasers[J]. Science, 1998,279(5354): 1198-1200. |
[34] | LI M , ZHANG X , HONG Y ,et al. Confidentiality-enhanced chaotic optical communication system with variable RF amplifier gain[J]. Optics Express, 2019,27(18): 25953-25963. |
[35] | TANG S , LIU J M . Message encoding-decoding at 2.5 Gbit/s through synchronization of chaotic pulsing semiconductor lasers[J]. Optics Letters, 2001,26(23): 1843-1845. |
[36] | KUSUMOTO K , OHTSUBO J . 1.5-GHz message transmission based on synchronization of chaos in semiconductor lasers[J]. Optics Letters, 2002,27(12): 989-991. |
[37] | GASTAUD N , POINSOT S , LARGER L ,et al. Electro-optical chaos for multi-10 Gbit/s optical transmissions[J]. Electronics Letters, 2004,40(14): 898-899. |
[38] | ANNOVAZZI-LODI V , BENEDETTI M , MERLO S ,et al. Optical chaos masking of video signals[J]. IEEE Photonics Technology Letters, 2005,17(9): 1995-1997. |
[39] | ARGYRIS A , GRIVAS E , HAMACHER M ,et al. Chaos-on-a-chip secures data transmission in optical fiber links[J]. Optics Express, 2010,18(5): 5188-5198. |
[40] | ANISHCHENKO V S , VADIVASOVA T E , POSTNOV D E ,et al. Synchronization of chaos[J]. International Journal of Bifurcation and Chaos, 1992,2(3): 633-644. |
[41] | COLET P , ROY R . Digital communication with synchronized chaotic lasers[J]. Optics Letters, 1994,19(24): 2056-2058. |
[42] | LARGER L , GOEDGEBUER J , UDALTSOV V . Ikeda-based nonlinear delayed dynamics for application to secure optical transmission systems using chaos[J]. Comptes Rendus Physique, 2004,5(6): 669-681. |
[43] | ANNOVAZZILODI V , DONATI S , SCIRE A . Synchronization of chaotic lasers by optical feedback for cryptographic applications[J]. IEEE Journal of Quantum Electronics, 1997,33(9): 1449-1454. |
[44] | GOEDGEBUER J P , LARGER L , PORTE H . Optical cryptosystem based on synchronization of hyperchaos generated by a delayed feedback tunable laser diode[J]. Physical Review Letters, 1998,80(10): 2249-2252. |
[45] | MIRASSO C R , COLET P , GARCIA-FERNANDEZ P . Synchronization of chaotic semiconductor lasers:application to encoded communications[J]. IEEE Photonics Technology Letters, 1996,8(2): 299-301. |
[46] | FISCHER I , YUN L , DAVIS P . Synchronization of chaotic semiconductor laser dynamics on subnanosecond time scales and its potential for chaos communication[J]. Physical Review A (Atomic,Molecular,and Optical Physics), 2000,62(1): 1-4. |
[47] | SIVAPRAKASAM S , SHORE K A . Message encoding and decoding using chaotic external-cavity diode lasers[J]. IEEE Journal of Quantum Electronics, 2000,36(1): 35-39. |
[48] | ABARBANEL H , KENNEL M , ILLING L ,et al. Synchronization and communication using semiconductor lasers with optoelectronic feedback[J]. IEEE Journal of Quantum Electronics, 2001,37(10): 1301-1311. |
[49] | ARGYRIS A , HAMACHER M , CHLOUVERAKIS K ,et al. Photonic integrated device for chaos applications in communications[J]. Physical Review Letters, 2008,100(19):194101. |
[50] | ARGYRIS A , GRIVAS E , HAMACHER M ,et al. Chaos-on-a-chip secures data transmission in optical fiber links[J]. Optics Express, 2010,18(5): 5188-5198. |
[51] | NGUIMDO R M , LAVROV R , COLET P ,et al. Effect of fiber dispersion on broadband chaos communications implemented by electro-optic nonlinear delay phase dynamics[J]. Journal of Lightwave Technology, 2010,28(18): 2688-2696. |
[52] | AI J Z , WANG L L , WANG J . Secure communications of CAP-4 and OOK signals over MMF based on electro-optic chaos[J]. Optics Letters, 2017,42(18): 3662-3665. |
[53] | ODEN J , LAVROV R , CHEMBO Y K ,et al. Multi-Gbit/s opticalphase chaos communications using a time-delayed optoelectronic oscillator with a three-wave interferometer nonlinearity[J]. Chaos, 2017,27(11):114311. |
[54] | KE J X , YI L L , XIA G Q ,et al. Chaotic optical communications over 100-km fiber transmission at 30-Gbit/s bit rate[J]. Optics Letters, 2018,43(6): 1323-1326. |
[55] | KE J X , YI L L , HU W S . Chaos synchronization error compensation by neural network[J]. IEEE Photonics Technology Letters, 2019,31(13): 1104-1107. |
[1] | Shiqi ZHAO, Xiaohong HUANG, Zhigang ZHONG. Research and implementation of reputation-based inter-domain routing selection mechanism [J]. Journal on Communications, 2023, 44(6): 47-56. |
[2] | Hui ZHAO, Jin LI, Weiwen MA, Wenchao DENG, Tianqi ZHANG, Yuanni LIU. Performance analysis of optical differential spatial modulation over atmospheric joint effect [J]. Journal on Communications, 2023, 44(6): 57-69. |
[3] | Yingze LIU, Yuanbo GUO, Chen FANG, Yongfei LI, Qingli CHEN. Intelligent planning method for cyber defense strategies based on bounded rationality [J]. Journal on Communications, 2023, 44(5): 52-63. |
[4] | Yuancheng LI, Yongtai QIN. Deep reinforcement learning based algorithm for real-time QoS optimization of software-defined security middle platform [J]. Journal on Communications, 2023, 44(5): 181-192. |
[5] | Renchao XIE, Wen WEN, Qinqin TANG, Yunlong LIU, Gaochang XIE, Tao HUANG. Survey on rail transit mobile edge computing network security [J]. Journal on Communications, 2023, 44(4): 201-215. |
[6] | Zhiyong LUO, Yu ZHANG, Qing WANG, Weiwei SONG. Study of SDN intrusion intent identification algorithm based on Bayesian attack graph [J]. Journal on Communications, 2023, 44(4): 216-225. |
[7] | Ming XU, Baojun ZHANG, Yiming WU, Chenduo YING, Ning ZHENG. Cyber attacks and privacy protection distributed consensus algorithm for multi-agent systems [J]. Journal on Communications, 2023, 44(3): 117-127. |
[8] | Haiyan KANG, Molan LONG. Research on network attack analysis method based on attack graph of absorbing Markov chain [J]. Journal on Communications, 2023, 44(2): 122-135. |
[9] | Caixia LIU, Xinsheng JI, Jiangxing WU. Endogenous security common problems and solutions of the mobile communication networks [J]. Journal on Communications, 2022, 43(9): 70-79. |
[10] | Runhua SHI, Hui YU, Weiyang KE, Xiaotong XU. Quantum anonymous one-vote veto protocol based on BB84 states [J]. Journal on Communications, 2022, 43(8): 109-120. |
[11] | Weiyu CHEN, Junshan LUO, Fanggang WANG, Haiyang DING, Shilian WANG, Guojiang XIA. Survey of capacity limits and implementation techniques in wireless covert communication [J]. Journal on Communications, 2022, 43(8): 203-218. |
[12] | Yuanbo GUO, Yongfei LI, Qingli CHEN, Chen FANG, Yangyang HU. Fusion of Focal Loss’s cyber threat intelligence entity extraction [J]. Journal on Communications, 2022, 43(7): 85-92. |
[13] | Hongbin LUO, Shan ZHANG, Zhiyuan WANG. Architecture and mechanisms for secure and efficient internetworking of heterogeneous network [J]. Journal on Communications, 2022, 43(4): 36-49. |
[14] | Huanhuan LIAN, Huiying HOU, Yunlei ZHAO. Post-quantum verifier-based three-party password authenticated key exchange protocol [J]. Journal on Communications, 2022, 43(4): 95-106. |
[15] | Yu ZHANG, Xiongwen ZHAO, Xiaoqing WANG, Suiyan GENG, Peng QIN, Zhenyu ZHOU. Robust resource allocation algorithm for multicarrier NOMA security communication system [J]. Journal on Communications, 2022, 43(3): 42-52. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
|