Guennadi Kouzaev
Guennadi A. Kouzaev is a Professor at the Department of Electronic Systems of the Norwegian University of Science and Technology - NTNU. He has a PhD Degree in Physics and Mathematics from the Kotelnikov’s Institute of Radio Engineering and Electronics, USSR Academy of Science, Moscow. Professor Kouzaev also has a Doctor of Sciences Degree in Electrical Engineering from the Moscow State Institute of Electronics and Mathematics - a branch of Higher School of Economics.
His research interests are in Computational Electromagnetics and Microwave Techniques, Microwave-assisted Heating and Chemistry, Quantum Physics and Quantum Electronics, Cold Matter and Molecular Modelling, High-speed Electronics, and Computers.
In 2012, he was with the European Laboratory for Nonlinear Sciences - LENS as a Sabbatical Professor in Cold Atom Physics Theory and Modelling. Earlier, he spent several years at the McMaster University, Hamilton, Canada working in Electromagnetics.
Professor Kouzaev has published more than 200 papers, abstracts, inventions, and a Springer book on advanced electromagnetics.
He is an International Expert at the Russian Science Fund and German Aerospace Centre (DLR-PT) and a Member of the IEEE Society and Faculty Row (USA). He served many international conferences and reviewed journal papers and book manuscripts.
Professor Kouzaev is a Russia Government Prize Winner (1997) and a Young USSR Science Award Winner (1990).
His research interests are in Computational Electromagnetics and Microwave Techniques, Microwave-assisted Heating and Chemistry, Quantum Physics and Quantum Electronics, Cold Matter and Molecular Modelling, High-speed Electronics, and Computers.
In 2012, he was with the European Laboratory for Nonlinear Sciences - LENS as a Sabbatical Professor in Cold Atom Physics Theory and Modelling. Earlier, he spent several years at the McMaster University, Hamilton, Canada working in Electromagnetics.
Professor Kouzaev has published more than 200 papers, abstracts, inventions, and a Springer book on advanced electromagnetics.
He is an International Expert at the Russian Science Fund and German Aerospace Centre (DLR-PT) and a Member of the IEEE Society and Faculty Row (USA). He served many international conferences and reviewed journal papers and book manuscripts.
Professor Kouzaev is a Russia Government Prize Winner (1997) and a Young USSR Science Award Winner (1990).
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of virus RNAs (ribonucleic acid) using DNA (deoxyribonucleic acid)
walks. The complicated nature and physicochemical properties of
these nucleotide chains hinder the development of a universal method
of numerical mapping and plotting of RNAs, and many algorithms
that exist are reviewed here, including 2-D and 3-D DNA walks, walks
in complex space, multi-dimensional dynamic representations of
DNAs, etc. A detailed analysis is performed for a recently proposed
query-walk algorithm and multi-level graphical representation of thetraces of repeated patterns in RNA chains. They are represented by
binary strings and compared with a sought query, calculating the
Hamming distance in every comparison step. The coordinates of the
found patterns or queries are defined, and a walk is composed of a set
of consecutive numbers of these queries along the studied RNA. The
primary attention of this review is paid to ATG triplets, which are
starting nucleotides of codons (words) in most cases. As follows
from the analyzed papers, the severe mutations of viruses touch the
compactness of ATG curve sets of viruses and de-cluster the fractal
dimension values of word-length distributions. The material of this
review is helpful in the digital and visual studies of viruses.
of virus RNAs (ribonucleic acid) using DNA (deoxyribonucleic acid)
walks. The complicated nature and physicochemical properties of
these nucleotide chains hinder the development of a universal method
of numerical mapping and plotting of RNAs, and many algorithms
that exist are reviewed here, including 2-D and 3-D DNA walks, walks
in complex space, multi-dimensional dynamic representations of
DNAs, etc. A detailed analysis is performed for a recently proposed
query-walk algorithm and multi-level graphical representation of thetraces of repeated patterns in RNA chains. They are represented by
binary strings and compared with a sought query, calculating the
Hamming distance in every comparison step. The coordinates of the
found patterns or queries are defined, and a walk is composed of a set
of consecutive numbers of these queries along the studied RNA. The
primary attention of this review is paid to ATG triplets, which are
starting nucleotides of codons (words) in most cases. As follows
from the analyzed papers, the severe mutations of viruses touch the
compactness of ATG curve sets of viruses and de-cluster the fractal
dimension values of word-length distributions. The material of this
review is helpful in the digital and visual studies of viruses.