Name
Muntyan Evgenia Rostislavna
Scholastic degree
—
Academic rank
—
Honorary rank
—
Organization, job position
South Federal University
Web site url
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Articles count: 5
This article describes the purpose of SmartHouse
systems, noting their advantages and disadvantages.
We have identified sustainable trends in the
implementation of such systems in the life of modern
people, and there has been a substantiation of the
need for their development. The article provides a
detailed description of a SmartHouse system and the
generalized structure of the system. Existing
approaches to management systems implementation
SmartHouse was consider. The subsystem of lighting
control was considered as an example. The structural
diagram of this subsystem was developed. We have
justified the choice of technical devices, hardware
and software subsystem of lighting control; we have
also given their description. As a subsystem device
we use Bluetooth module HC-05/06, four channel
relay module to connect to Arduino, Arduino Mega
2560 plate. We briefly describe the process of
programming the Arduino Mega plate. The necessity
of remote access subsystems was substantiated. We
have reviewed existing standards and technologies
for solving such problems and proposed the
implementation of remote access subsystem via a
mobile communication system using the Bluetooth
standard. The developed mobile application that
allows you to control devices on the example of the
lighting subsystem was described. We have
performed testing of the model of a subsystem of
lighting control and the developed software. The
proposal for the development of this work was given.
The further development of the subsystems of the
SmartHouse and realizing of remote access system
through the Internet were offered
The article is devoted to methods of training
specialists in universities that meet the current
qualification and professional requirements of the
employers. The work formulates requirements to
graduates of educational institutions, which include
not only training high-level, but also personal
qualities, which together allows the graduate to
become a competitive specialist. As a possible
method of preparation of such experts we justified
the introduction of elements of project activity in
educational process of universities. The proposed
nested structure of the typical educational program,
identifies the modules that are part of it, specify the
purposes and functions of each module in the
implementation of the project methods. Advantages
of training in case of realization of scientific design
activities were shown. The use of design methods
within the module of General subjects, organization
and implementation of interdisciplinary modules
design and science and engineering activities are
proposed. We noted the necessity of temporal and
semantic coordination between all modules of the
educational program with the aim of obtaining the
maximum effect from the implementation of project
methods in the educational process. It is proved, that
the implementation of the project activity during
training students not only develop competencies of
educational standard, but also acquire and forming
their own competencies needed for future career. The
conditions of effective implementation of scientificresearch
and design activities within universities
were formulated
This article considers the organization of neuralnetwork
interactions based on models of cellular
automata. These models are focused on improving
the efficiency of the iterative processes of
functioning of neural networks and their learning.
The models considered in this article are presented in
the form of two-level hierarchical structures. Models
of the lower level are defined as "cellular neural
element". They are based on formal descriptions of
the dynamic neurons with the additional insertion of
the state functions and the special procedures of
formation of the specified function. Also, we have
added special methods for forming patterns of
activation functions. The conception of developed
models is based on the use of the theory of graphs,
theory of neural networks and the mechanism of
cellular automata. These models will be used as the
basis for software modeling
The article discusses the implementation of a
software system to support management decisions
designed to organize the educational process in
higher educational institutions. We have completed
argumentation of the development and application of
a software system. This system was developed in the
department of the computer engineering of Institute
of computer technologies and information security,
Southern Federal University (SFeDU). The article
describes the algorithm of functioning of the system
and its structure. The software system includes
several subsystems and three external modules:
"Personal load", "Materials to the schedule", "Work
Plan of the Department". It provides basic
information about the developed modules, discusses
their purpose and functionality. Initial data for
modules were defined. The results of the work of
modules are confirmed by illustrations. The article
describes the work of the subsystems composing the
software system. These are a subsystem of data
processing, a subsystem of decision-making and a
subsystem of input/output. The structure of all
subsystems is detailed at the block level, the purpose
of blocks was determined. Resulting files of the
module work are generated in an XML-format and
can be converted into an Excel-format that
considerably facilitates a task of their subsequent use
and processing. The system and the additional
module possess the convenient functional interface
and, considering facilities on adjustment for the
concrete user, can be used in structural divisions of
various universities
The article describes realization of the software
module called "Department work plan". This module
is a part of the system of management decisions
support. The primary function of the system is the
process of generating documentation in higher
education institutions. This software system and its
additional software modules have been developed
and tested at the Department of Computer
Engineering of computer technologies and
information security Institute of Southern Federal
University (SFedU). The software module allows you
to generate the work plan for the university’s
subdivision, such as department. List of initial data
for the work of software module is described in this
article. The main algorithm distribution of
department's workload for the academic year was
described. The article describes the organization of
work of the software module. The main stages of the
generation of the work plan for the university
subdivision were enumerated. The described process
of generation of the work plan of the university
subdivision was supplemented by illustrative
material. The implemented software module has a
convenient and functional user interface, which
allows significantly facilitating the input and editing
of data. The generated data can be exported in
Microsoft Excel format. Considering the available
opportunity to customize the module to fit the
requirements of a particular user, it can be
implemented in subdivisions of various universities