Modeling of self-organization of two-dimensional ordered structures. Egorov, V., Garmay, Y., Shaldzhyan, A., Lebedev, D., Vasin, A., Grudinina, N., & Kiselev, O. 2011. cited By 0![Modeling of self-organization of two-dimensional ordered structures [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex The problem of the search of biostructures capable to self-organization is quite urgent considering the prospects of application of nanostructured biomaterials as components of composite materials in transplantology and optics as well as "scaffolds" for the synthesis of nanostructured materials based on inorganic particles. The given study focuses on modeling of the growth of structures using the cellular automata with a set of states of the two values (0 and 1), with the value corresponding to the state is determined by the contribution of "the closest neighbor" (by the probability of induction of the state of the nextgeneration in the direction of the interaction) and the geometry of the field isdetermined by the vector of the direction of the particle and the direction of the interaction. © Published under licence by IOP Publishing Ltd.
@CONFERENCE{Egorov2011,
author={Egorov, V.V. and Garmay, Y.P. and Shaldzhyan, A.A. and Lebedev, D.V. and Vasin, A.V. and Grudinina, N.A. and Kiselev, O.I.},
title={Modeling of self-organization of two-dimensional ordered structures},
journal={Journal of Physics: Conference Series},
year={2011},
volume={291},
number={1},
doi={10.1088/1742-6596/291/1/012005},
art_number={012005},
note={cited By 0},
url={https://www.scopus.com/inward/record.uri?eid=2-s2.0-79959399030&doi=10.1088%2f1742-6596%2f291%2f1%2f012005&partnerID=40&md5=43c4d7b268b8f96c5c81742edd1d1e2b},
affiliation={Research Institute of Influenza, Ministry of Health and Social Development of the Russian Federation, Prof. Popova st. 15/17, St-Petersburg, Russian Federation; Department of Molecular, Radiation Biophysics Petersburg Nuclear Physics Institute, Russian Academy of Science, Orlova Roscha, Gatchina, Leningrad Region, Russian Federation; Institute of Experimental Medicine, North-Western Branch, Russian Academy of Medical Science, Akademika Pavlova st., 12, St-Petersburg, Russian Federation},
abstract={The problem of the search of biostructures capable to self-organization is quite urgent considering the prospects of application of nanostructured biomaterials as components of composite materials in transplantology and optics as well as "scaffolds" for the synthesis of nanostructured materials based on inorganic particles. The given study focuses on modeling of the growth of structures using the cellular automata with a set of states of the two values (0 and 1), with the value corresponding to the state is determined by the contribution of "the closest neighbor" (by the probability of induction of the state of the nextgeneration in the direction of the interaction) and the geometry of the field isdetermined by the vector of the direction of the particle and the direction of the interaction. © Published under licence by IOP Publishing Ltd.},
correspondence_address1={Egorov, V. V.; Research Institute of Influenza, Ministry of Health and Social Development of the Russian Federation, Prof. Popova st. 15/17, St-Petersburg, Russian Federation; email: toizeg@gmail.com},
publisher={Institute of Physics Publishing},
issn={17426588},
language={English},
abbrev_source_title={J. Phys. Conf. Ser.},
document_type={Conference Paper},
source={Scopus},
}
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