International Journal of Computer Network and Information Security (IJCNIS)
IJCNIS Vol. 7, No. 1, 8 Dec. 2014
Cover page and Table of Contents: PDF (size: 952KB)
Design of a Web Interface for Fractional Chaotic Systems
Full Text (PDF, 952KB), PP.46-53
Views: 0 Downloads: 0
Author(s)
Sezgin Kacar
1,*
Akgul Akgul
1
A. Turan Erguzel
1
Muhammed M. ozturk
2
Abdullah Sevin
2
Index Terms
Chaos, user interface, web design, MATLAB, .NET
Abstract
There exists a great number of work related to chaotic systems investigated by many researchers, especially about Lorenz chaotic system. If the order of differentiation of variables are fractional, the systems are called fractional chaotic systems. In this work a web-based interface is designed for fractional composition of five different chaotic systems. The interface takes initial and fractional differentiation values and yields output signals and phase portraits. The paper first introduces design tools and then provides results obtained throughout the experiments.
Cite This Paper
Sezgin Kaçar, Akgül Akgül, A. Turan Ergüzel, Muhammed M. Öztürk, Abdullah Sevin, "Design of a Web Interface for Fractional Chaotic Systems", International Journal of Computer Network and Information Security(IJCNIS), vol.7, no.1, pp.46-53, 2015. DOI:10.5815/ijcnis.2015.01.07
Reference
[1]Y. Uyaroğlu, M. Varan, “Web-based interface of chaotic swing Dynamics in electric power systems”, Scientific Research and Essays, vol. 6, No. 4, pp. 706-713, 2011.
[2]Y. Uyaroğlu, S. Gündüz, İ.H. Yığın, H. Keskin, “Simulation And Characterization Of Lorenz Equations In Matlab And Simulink Environment At Chaos Theory”, 5. International Advanced Technologies Symposium (IATS’09), pp. 476-479, 2009.
[3]J.M. Munoz-Pacheho, E. Tlelo-Cuautle, V.H. Carvajal Gomez, “A CAD-Tool for the Design of n-Scrolls Chaotic Systems from Behavioral Modelling”, 2. International Workshop Nonlinear dynamicsand Synchronization (INDS), pp. 198-202, 2009.
[4]A.G. Tomida, “Matlab Toolbox and GUI for Analyzing One-Dimensional Chaotic Maps”, International Conference on Computational Sciences and Its Applications ICCSA, pp. 321-330, 2008.
[5]A. Galvez, “Numerical-Symbolic Matlab Program for the Analysis of Three-Dimensional Chaotic Systems”, Proceedings of the 7th International Conference on Computational Science ICCS’07, Part II, 211-218 Berlin, 2007.
[6]Z. Trzaska, “Chaos in fractional order circuits”, Przegląd Elektrotechniczny, 86 (2010), nr 01,109-111.
[7]S. Kaçar, C. Bayılmış, İ. Çankaya, M. Çakıroğlu, “Design Of Asp.Net Based Web Interface With Matlab Builder Ne And Matlab Webfigure For Wireless Sensor Networks.”, E-Journal of New World Sciences Academy, vol. 4, no. 4, pp. 361-370, 2009.
[8]İ. Kırbaş, C. Bayılmış, "HealthFace: A web-based remote monitoring interface for medical healthcare systems based on a wireless body area sensor network", Turkish Journal of Electrical Engineering & Computer Sciences, Vol. 20, pp. 629 - 638, ISSN:1300-0632, DOI: 10.3906/elk-1011-934 ,2012.
[9]S. Kaçar, İ. Çankaya, “Analysis of nonlinear systems using matlab and asp.net based web interface”, Journal of the Faculty of Engineering and Architecture of Gazi University, vol. 27, no. 4, pp. 795-806, 2012.
[10]S. Kaçar, C. Bayılmış, “A web-based educational interface for an analog communication course based on matlab builder ne with webfigures”, IEEE Transactions on Education, doi:10.1109/TE.2012.2236329, submitted for publication.
[11]S. Kaçar, C. Bayılmış, Ö. Çetin, “A web laboratory for digital image processing”, Turkish Journal of Electrical Engineering & Computer Sciences, doi:10.3906/elk-1203-129, to be published.
[12]12. B. Oldham, J. Spanier, “The Fractional Calculus”, Academic Press, New York, (1974).
[13]B. (Ed.) Ross, “Fractional calculus and its applications”, Lecture Notes in Mathematics, pp. 457, Springer, Berlin 1975.
[14]P. L. Butzer, U. Westphal, “An introduction to fractional calculus”, World Scientific, Singapore, 2000.
[15]B. Srisuchinwong, “Integer-order and fractional-order chaotic oscillators”, NTC International Conference 2009, Bangkok, Thailand, pp. 27-33, March 2009.
[16]M. Luft, R. Cioc, D. Pietruszczak, “Fractional calculus in modelling of measuring transducers”, Elektronika IR Elektrotechnika, vol. 110, no 4, pp. 97-100, 2011.
[17]Y. Chen, “Fractional calculus, delay dynamics and networked control systems”, In Proceedings of the 3rd International Symposium on Resilient Control Systems, Idaho Falls, ID, U.S.A., 58-63, August 2010.
[18]A. Oustaloup, “La Dérivation Non Entiere: Theorie, Synthese et Applications”, Hermes, Paris, France, 1995.
[19]I. Podlubny, “Fractional Differential Equations”, Academic Press, San Diego, 1999.
[20]I. Petráš, “Method for simulation of the fractional order chaotic systems”, Acta Montanistica Slovaca, vol. 11, no. 4, pp.273 – 277, 2006.
[21]E.N. Lorenz, “Deterministic nonperiodic flow”, J. Atmos Sci, vol. 20, pp. 130-141, 1963.
[22]F. Motallebzadeh, S. Dadras, S. Ozgoli, “Controlling chaos in Arneodo system”, Control and Automation 17th Mediterranean Conference MED '09, pp. 14 – 19, 2009.
[23]J. Lu, S. Zhang, “Controlling Chen’s chaotic attractor using backstepping design based on parameters identification”, Phys Lett A., vol. 286, pp. 148-152, 2001.
[24]J. Guckenheimer, P. Holmes, “Nonlinear oscillations, dynamical systems, and bifurcations of vector fields”, Springer-Verlag, New York, 1983.
[25]J. Lu, G. Chen, “A new chaotic attractor coined”, I. J. Bifurcation and Chaos, 2002, 659-661.
[26]Kirbas, I; Bayilmis, C "HealthFace: A web-based remote monitoring interface for medical healthcare systems based on a wireless body area sensor network" ,Turkish Journal
Of Electrical Engineering And Computer Sciences, Vol. 20, pp. 629 - 638, ISSN:1300-0632, DOI: 10.3906/elk-1011-934, 2012
[27]Akgul, A., Cetin, O., & Akar, F. (2011, April). High secure infrared communication application. In Signal Processing and Communications Applications (SIU), 2011 IEEE 19th Conference on (pp. 474-477). IEEE.
[28]Amigó, J. M., Kocarev, L., & Szczepanski, J. (2007). Theory and practice of chaotic cryptography. Physics Letters A, 366(3), 211-216.
[29]FINDIK O.: "Şifrelemede Kaotik Sistemin Kullanlmas"; M.S. thesis, Comp. Dept., Seluk. Univ., Konya., (2004).
[30]F. E. Yardm, E. Afacan: "SIMULATION OF A COMMUNICATION SYSTEM USING LORENZ-BASED DIFFERENTIAL CHAOS SHIFT KEYING (DCSK) MODEL ": J. Fac. Eng. Arch. Gazi Univ, 25, 1, (2010) 101-110.
[31]Lian, S. (2009). Efficient image or video encryption based on spatiotemporal chaos system. Chaos, Solitons & Fractals, 40(5), 2509-2519.
[32]Özkaynak, F., Özer, A. B., & Yavuz, S. Kaos Tabanlı Yeni Bir Blok Şifreleme Algoritması. BİLDİRİLER KİTABI, 108.
[33]Sobhy, M. I., & Shehata, A. R. (2001, May). Chaotic algorithms for data encryption. In IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS SPEECH AND SIGNAL PROCESSING (Vol. 2, pp. II-997). IEEE; 1999.
[34]Ogras H., Turk M., Ogras S.: "Kaos tabanlı saysal csk ve dcsk modlasyontekniklerinin MATLAB/simulink ortamnda gerekletirilmesi"; IV. letiim Teknolojileri Ulusal Sempozyumu, (2009).
[35]G. TROULLINOS: "A SOFTWARE BASED APPROACH TO SECURE VOICE APPLICATIONS"; Proceedings of the Third IEEE International Conference on Electronics, 1, (1999) 176182.
[36]House, B., Malkin, J., & Bilmes, J. (2009, April). The VoiceBot: a voice controlled robot arm. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems (pp. 183-192). ACM.
[37]Rudžionis, A., Ratkevičius, K., Dumbliauskas, T., & Rudžionis, V. (2008). Control of computer and electric devices by voice. Elektronika ir elektrotechnika, 6, 11-16.
[38]Ferreiros, J., Pardo, J. M., De Córdoba, R., Macias-Guarasa, J., Montero, J. M., Fernández, F., & González, G. (2012). A speech interface for Air Traffic Control terminals. Aerospace Science and Technology, 21(1), 7-15.
[39]Zelditch, Steven. "On a “quantum chaos” theorem of R. Schrader and M. Taylor." Journal of functional analysis 109.1 (1992): 1-21.
[40]Akhiezer, Aleksandr Ilʹich, V. I. Truten, and N. F. Shul'Ga. "Dynamic chaos in the motion of charged particles through a crystal." Physics Reports 203.5 (1991): 289-343.
[41]Davis, Peter. "Application of optical chaos to temporal pattern search in a nonlinear optical resonator." Japanese journal of applied physics 29.7A (1990): L1238.
[42]Nozawa, Hiroshi. "A neural network model as a globally coupled map and applications based on chaos." Chaos: An Interdisciplinary Journal of Nonlinear Science 2.3 (1992): 377-386.
[43]Nara, Shigetoshi, and Peter Davis. "Chaotic wandering and search in a cycle-memory neural network." Progress of Theoretical Physics 88.5 (1992): 845-855.
[44]Fischer, I., et al. "High-dimensional chaotic dynamics of an external cavity semiconductor laser." Physical review letters 73.16 (1994): 2188.
[45]Abuhaiba, Ibrahim SI, et al. "Image Encryption Using Chaotic Map and Block Chaining." International Journal of Computer Network and Information Security (IJCNIS) 4.7 (2012): 19.
[46]Khare, Ankur A., Piyush B. Shukla, and Sanjay C. Silakari. "Secure and Fast Chaos based Encryption System using Digital Logic Circuit." International Journal of Computer Network and Information Security (IJCNIS) 6.6 (2014): 25.