GÜVENİLİR HABERLEŞMEDE AÇIK KAPALI KAOTİK ANAHTARLAMA SİSTEMİNİN FPGA KULLANILARAK GERÇEKLEŞTİRİLMESİ
Bu çalışmada kaotik tabanlı sayısal haberleşme örneği olan Açık Kapalı Kaotik Anahtarlama (AKKA) (Chaotic On Off Keying-COOK) haberleşme sisteminin bilgisayar benzetimleri gerçekleştirilmiştir. Bunun yanı sıra Alanda Programlanabilir Kapı Dizileri( Field Programming Gate Array-FPGA) kullanılarak deneysel uygulaması incelenmiştir. Ayrıca çalışmada Hücresel Sinir Ağı (HSA) (Cellular Neural Network –CNN) tabanlı bir kaos üreteci ve Sprott kaos üreteci kullanılarak AKKA haberleşme sisteminin BER (bit error rate - BER) ve SNR (signal to noise ratio - SNR) karşılaştırmalı olarak ortaya konmuştur.
FPGA Implementation of Chaotic On-Off Keying for Secure Communication
In this study, one of the example of the Chaotic based digital communication which is Chaotic On Off Keying-COOK is simulated by using computer. In addition to this, by using Field Programming Gate Array-FPGA experimental application is done. Also, in the scope of the study, BER (bit error rate - BER) and SNR (signal to noise ratio - SNR) comparison of COOK communication system is done by using Cellular Neural Network –CNN and Sprott based chaos generator.
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- Abdullah, H., Valenzuela, A., “Efficient Chaotic Communications System for Wireless Sensing
Applications”, 9
th International Multi-Conference on Systems, Signals and Devices(SSD), Chemnitz,
Germany, pp.1-5, 20-23 March 2012.
- Abdullah, H., Valenzuela, A., 2011, “Performance Evaluation of FM-COOK Chaotic Communication
system”, Journal of Signal and Information Processing (JSIP), Vol. 2(3), pp. 175-177.
- Albassam, N.N., Sumesh, E.P., “Enhancing of Chaotic on-off Keying Scheme”, Proceedings of the 8th IEEE
GCC Conference and Exhibition, Muscat, Oman, pp.1-6, 1-4 February 2015.
- Arena, P.,Baglio, S., Fortuna, L., Manganaro, G., 1995, “Chua’s Circuit can be Generated by CNN Cells,”
IEEE Trans. Circuits Syst., Vol. I42, pp. 123–125, 1995.
- Azzaz, M. S., Tanougast, C., Sadoudi, S., Bouridane, A., Dandache, A., “An FPGA Implementation of a
Feedback Chaotic Synchronization for Secure Communications”, Communication Systems
Networks and Digital Signal Processing, 2010.
- Azzaz, M.S., Tanougast, C., Sadoudi, S., Fellah, R., Dandache, A., 2012, “A new Auto-Switched Chaotic
System and its FPGA Implementation”, Communications in Nonlinear Science and Numerical
Simulation, 2012.
- Butusov, D. N., Karimov, T. I., Lizunova, I. A., Soldatkina, A. A., & Popova, E. N. "Synchronization of
Analog and Discrete Rössler Chaotic Systems", Young Researchers in Electrical and Electronic
Engineering (EIConRus), 2017 IEEE Conference of Russian. IEEE, St. Petersburg, Russia, 1-3
February 2017.
- Chua, L.O., 1998, “CNN: A Paradigm for Complexity, World Scientific Series on Nonlinear Science”,
Series A- Vol. 31, World Scientific Publishing.
- Chua, L.O., Yang, L., 1988, “Cellular Neural Networks: Theory”, IEEE Trans. Circuits Syst., Vol. 35, pp.
732–745.
- Chua, L.O., Yang, L., 1988, “Cellular Neural Networks: Applications”, IEEE Transaction on Circuits and
Systems, Vol 35, No. 10, pp.1273-1290.
- Chua, L.O., Roska, T., 1993, “The CNN Paradigm”, IEEE Transactions on Circuits and Systems -I., Vol.
40, pp.147-156.
- Çiçek, S., Ferikoğlu, A., Pehlivan, İ., “A Chaotic Communication System Design with Chaotic on-off
Keying (COOK) Modulation Method”, Signal Processing and Communications Applications
Conference (SIU), Malatya, Turkey, pp. 431-434, 16-19 May 2015.
- Dedieu, H., Kennedy, M., Hasler, M., 1993, “Chaos Shift Keying: Modulation and Demodulation of a
Chaotic Carrier Using Self-Synchronizing Chua’s Circuits”, IEEE Transactions on Circuits and
Systems II, Vol. 40(10), pp. 634-643.
- Galias, Z., Maggio, M., 2001, “Quadrature Chaos-Shift Keying: Theory and Performance Analysis”, IEEE
Transactions on Circuit and Systems I, Vol. 48(12), pp. 1510-1518.
- Kolumbán, G., Kennedy, M.P., Kis, G., “Performance Improvement of Chaotic Communications
Systems” - Proc. ECCTD'97, 1997.
- Günay, E., Altun, K., "HSA Tabanlı Kaos Üreteci ile Açık Kapalı Kaotik Anahtarlama Haberleşme
Sisteminin FPGA Kullanılarak Gerçekleştirilmesi", Elektrik - Elektronik ve Biyomedikal
Mühendisliği Konferansı -Eleco 2016, Bursa, Türkiye, 1-3 Aralık 2016.
- Günay, E., 2012, "A New Autonomous Chaos Generator from State Controlled Cellular Neural
Networks", Int. J. Bifurcation & Chaos, Vol.22, No.3.
Günay, E., 2010, “MLC Circuit in the Frame of CNN”, Int. J. Bifurcation and Chaos, Vol. 20, pp. 3267–3274.
- Kharel, R., Busawon, K., Aggoune, W., Ghassemlooy, Z., “Implementation of a Secure Digital Chaotic
Communication Scheme on a DSP Board”, Communication systems networks and digital signal
processing (CSNDSP), 7 th International Symposium on, 2010, Newcastle upon Tyne, UK, 21-23
July 2010
- Kılıç, R., Alçı, M., Günay, E., 2004, “A SC-CNN Based Chaotic Masking System with Feedback”, Int. J.
Bifurcation and Chaos, Vol. 14, pp. 245–256.
- Lau F. C. M., Tse C. K., 2003, Chaos-Based Digital Communication Systems, Springer.
Liu, Z., Jinhua Z., Hanyu L., 2014, "Design of the Differential Chaos Shift Keying Communication System
based on DSP builder", Computer Modelling & New Technologies, pp. 138-143.
- Majeed, M., 2014, “Implementation of Differential Chaos Shift Keying Communication System Using
Matlab-Simulink”, Journal of American Science, Vol. 10(10), pp. 240-244.
- Sushchik, M., Tsimring, L. S., Volkovskii, A. R., 2000, “Performance Analysis of Correlation-Based
Communication Schemes Utilizing Chaos”, IEEE Trans. Circuits and Systems, vol. 47, pp. 1684–
1691.
- Pecora, L. M., Carroll, T. L., 1990, “Synchronization in Chaotic Systems”, Physical Review Letters, Vol.
64, pp. 821-824, Feb., 1990.
- Sprott, J.C., 1994, “Some Simple Chaotic Flows”,
Physical Review E, Vol. 50(2), pp. 647-650.
Stavroulakis, P., 2006, Chaos Applications in Telecommunications, CRC Press, pp.125-169, USA.
- Tam, W., Lau, F., Tse, C., 2006, Digital Communications with Chaos, Elsevier.
- Tam, W.M., Lau, F.C.M. Tse, C.K., 2007, Digital Communications with Chaos: Multiple Access Techniques and
Performance, Elsevier Ltd., pp.11-31.
- Saidani, T., Atri, M., Dia, D., Tourki, R., 2010, “Using Xilinx System Generator for Real Time Hardware
Co-simulation of Video Processing System” Electronic Engineering and Computing Technology
Volume 60 of the series Lecture Notes in Electrical Engineering, pp 227-236.
The Math Works and Xilinx Plans web page: http://www.mathworks.com/
- Wang, G., Zhang, X., Zheng, Y., Li, Y., 2006, “A New Modified Hyperchaotic Lii System (J)”, Physic A:
Statistical Mechanics and its Apptications, Vol. 371 (2), pp. 260-272.
- Wang, G., Shi, X., Qiu, S., Li, Z. 2005, “A Chaotic System and Its Circuitry Implementation(C)”,
Piscataway, Nj 088855-1331, United States: Institute of Electrical and Electronics Engineers
Computer Society, pp. 1162-1164.
- Yiwei, Z., Zexiang, L., Xinjian, Z., “A Chaos-Based Image Encryption ASIC Using Reconfigurable Logic”,
Circuits and Systems IEEE Asia Pacific Conference on, Macao, China,30 Nov.-3 Dec. 2008.