Name
Khisamov F. G.
Scholastic degree
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Academic rank
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Honorary rank
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Organization, job position
Krasnodar Military Institute. SM Shtemenko
Web site url
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Articles count: 9
The goal of the study is to research time characteristics
of pseudo-noise sequence acquisition method for
multicarrier communication systems of MC-DSCDMA,
that allows low hardware requirements and
able to operate in low quality channels. The way of
achieving this lies in using a mathematical model of
algorithm. The achieved results show suitability of
MC-DS-CDMA-signals optimization for pseudo-noise
sequence acquisition efficiency increase. The achieved
results can be applied in MC-DS-CDMA
communication systems development
The aim of the article is to analyze existing quantum
distribution systems, their facilities, physical bases of
quantum objects behavior used in quantum distribution
systems and protocols of quantum keys distribution
The goal of the study is to analyze the existing
quantum distribution systems, their probable
applications, as well as the issues with their practical
implementation
The goal of the study is to research experimentally a
pseudo-noise sequence acquisition method for
multicarrier communication systems of MC-DSCDMA,
that allows low hardware requirements and
able to operate in low quality channels. The way of
achieving this lies in using a specially developed
computer model of algorithm in Simulink. The
achieved results have shown high efficiency of the
considered acquisition method in contrast to sequential
search method. The proposed algorithm can be used in
multicarrier systems for acquisition of aperiodic
pseudo-noise sequences in wireless public networks
and in military communication networks
The goal of the study is to research a noise-immunity
of pseudo-noise sequence acquisition method for
multicarrier communication systems MC-CDMA,
using a segment of the pseudo-noise sequence. The
goal was achieved by running a simulation developed
in MATLAB. By analyzing the results, we can show
that the developed mathematical model produces the
lower bound for pseudo-noise sequence acquisition
probability. The resulting analytical estimations might
be used during the design phrase for pseudo-noise
sequence acquisition systems for MC-CDMA based
military communication networks
It is necessary to know exact value of the full
dispersion of waveguides, which leads to broadening
and reduction of pulse amplitude for modeling laser
radiation passage in quantum cryptography systems.
The operation purpose was obtaining of dependences
on a wavelength of various dispersion types according
to the Sellmeier’ sequationand optical pulse radiation
modelling in quantum communication systems.
Dependences of the material, waveguide and
chromatic dispersions on length of a wave according to
the Sellmeier’s equation which allows to consider an
optical fiber’s material are received. Distribution of a
cryptographic impulse through fiber-optical
communication lines of various extent is simulated
The technique relates to the area of distribution of key
information in cryptographic communication systems.
The purpose of the work was to solve the problem of
increasing the speed of distribution of key information
for special bodies of federal bodies of critical facilities
in the conditions of network-centric management and
creating alternative options for the distribution of key
information when key documents are compromised to
special equipment. By applying the methodology, a
solution to this problem is achieved by applying a key
distribution method based on asymmetric
cryptography using symmetric polynomials
In the work we have developed a structural modeling
of the optimal choice of information security devices
in the design of automated systems in the protected
execution in the transition to network centric methods
of control of troops and weapons