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Дата изменения: Mon Nov 21 19:27:34 2005
Дата индексирования: Mon Oct 1 21:02:02 2012
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Bibliography
198 5 - 2005
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6. D.I.Sidelnikov, O.V.Gritsenko, A.P.Simonova, A.A.Polezhaev, D.S.Chernavskii, N.G.Rambidi, Nonlinear dynamics of the distributed biochemical systems functioning in the dissipative structure mode, Biol. Cybern., v.68, 53-62, 1992.
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9. N.G.Rambidi, A.V.Maximychev, A.V.Usatov, Nonlinear dynamics in a nondiscrete molecular systems for neural pattern recognition devices, Optical Memory and Neural Networks, v.1, 177-187, 1992.
10. Н.Г.Рамбиди, Д.С.Чернавский, В.И.Кринский, В.М.Николаенко, О.В.Гриценко, Д.И.Сидельников, А.П.Симонова, Недискретные биомолекулярные информационно-логические устройства: физические принципыи возможные пути построения, Итоги науки и техники, Физические и математические модели нейронных сетей, т.5, ВИНИТИ, МОСКВА, 1992.
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16. N.G.Rambidi, A.V.Maximychev, Implementation of image processing operations using light-sensitive chemical dynamic media, Proceedings SPIE, v.2430, 90-99, 1994.
17. N.G.Rambidi, A.V. Maximychev, Molecular image processing devices based on Chemical Reaction Systems. 3. Some operational characteristics of excitable light-sensitive media used for image processing, Advanced Materials for Optics and Electronics, v.5, 223-231, 1995.
18. N.G.Rambidi, A.V. Maximychev, Molecular image processing devices based on Chemical Reaction Systems. 4. Image-processing operations performed by active media functioning in oscillation mode, Advanced Materials for Optics and Electronics, v.5, 233-241, 1995.
19. N.G.Rambidi, A.V. Maximychev, A.V. Usatov, Implementation of image processing operations using light-sensitive chemical dynamic media, Optical Memory and Neural Networks, v.4, 99-109, 1995.
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21. N.G.Rambidi, A.V. Maximychev, Molecular image processing devices based on chemical reaction systems. 5. Processing images with several levels of brightness and some application potentialities, Advanced Materials for Optics and Electronics, v.7, 161-170, 1997.
22. N.G.Rambidi, A.V. Maximychev, Molecular image processing devices based on Chemical Reaction Systems. 6. Processing half-tone images and neural network architecture of excitable media, Advanced Materials for Optics and Electronics, v.7, 171-182, 1997.
23 . N.G.Rambidi, A.V. Maximychev, Optical neural networks based on nonlinear dynamic media: state of art and some potentialities, Proceedings of SPIE, v.3402, 434-440, 1998.
24. N.G.Rambidi, T.O.-O. Kuular, E.E. Machaeva, Information processing capabilities of chemical reaction-diffusion systems. 1. Belousov-Zhabotinsky media in hydrogel matrices and on solid supports, Advanced Materials for Optics and Electronics, v.8, 163-171, 1998.
25. N.G.Rambidi, D. Yakovenchuk, Information processing capabilities of chemical reaction-diffusion systems. 2. Finding paths in a labyrinth based on reaction-diffusion media, Advanced Materials for Optics and Electronics, v.9, 27-34, 1999.
26. N.G.Rambidi, Biomolecular nonlinear dynamic mechanisms as a foundation for human traits of information processing machine, Discrete Dynamics in Nature and Society, v.6, 263-279, 2001.
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28. N.Rambidi, Roots and promises of chemical-based computing, BioSystems, v.64, 169-178,2002.
29. N.G.Rambidi, K.E.Shamayaev, G.Yu.Peshkov, Information processing using light-sensitive chemical waves, Phys. Lett. A, v.298, 375-382, 2002.
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34. N.G.Rambidi, Chemical based computing and problems of high computational complexity: the reaction-diffusion paradigm, in: Molecular computing, , Sienko Tanya, Adamatzky Andrew, Rambidi Nicholas G., Conrad Michael, Eds., The MIT Press, Cambridge Massachusetts, London, England, 2003.
35. N.G.Rambidi, Lure of molecular electronics - from molecular switches to distributed molecular information processing media, Microelectronic Engineering, v.69, 485-500, 2003.
37. N.G.Rambidi, Biologically inspired information processing technologies: reaction-diffusion paradigm, International Journal of Unconventional Computing, v.1, 101-121, 2005.
38. N.G.Rambidi, S.G.Ulyakhin, A.S.Tsvetkov. Several remarks on practical implementation of image processing by chemical reaction-diffusion media, Workshop on Unconventional Computing, ECAL2005, September 2005, pp.59-69