Name
Ivanova Elena Alexandrovna
Scholastic degree
—
Academic rank
—
Honorary rank
—
Organization, job position
Kuban State Agrarian University
Web site url
—
—
Articles count: 6
The article presents the architecture of decision
support system for the adequacy of the level of lending
to small agricultural companies, which implements in
its functionality the complex of models: the
optimization of selling price of products, the efficiency
mark for using of credit funds of single-product and
multi-product companies by determined and fuzzy
methods, assessment of the system stability of the
enterprise. The system has the ability to work remotely
using cloud computing, in which computing resources
provided by the Internet users in the form of "online
service". The article substantiates the need for the
development of decision support systems for the
adequacy of the level of lending to small agricultural
enterprises. We have compiled requirements for the
development of an appropriate system and identified a
set of models to be implemented in the DSS ,
described the relationship between them and the
technique of working with them. We have also defined
names of the input and output data at various stages of
working with the DSS as well as the generalized
algorithm of the system. Based on the above, the
article proposes and describes the architecture of
decision support system. It is concluded, that the DSS
is an interactive automated system that uses a model of
decision-making, providing users with efficient access
to data and provides them with a variety of
opportunities to display information
This article describes the opportunities and prospects
for the deployment of decision support system for the
adequacy of the level of lending to small agricultural
enterprises in the cloud environment. It reveals the
shortcomings in the existing automation of small
businesses, and therefore the necessity of developing a
system to enable managers to quickly and correctly
calculate the amount of required loan funds. The
developed system has the ability to work remotely due
to the lack of binding the user to a specific personal
computer. It is implemented through the development
of a DSS using cloud computing, in which computer
resources are provided to the Internet users in the form
of "online service". The article describes the
architecture of popular models and cloud Webapplications;
after that, it was concluded to use the
Saas model with Multi-Tenant-mode support in the
model development. The study provides an overview
of the DSS functioning in the cloud. It has noted the
main features of the software implementation of the
system relating to the use of cloud technologies. We
have calculated the cost of placing an application in
the cloud via the online cost calculator called
Microsoft Azure. We have also performed a
preliminary assessment of the payback period of the
project implementation of DSS. It is concluded, that
this technology would be competitive at the software
market
The article describes the structure, the algorithm, and
the example of using the automated system of work
with clients. This system makes it possible to generate
documents of almost any kind based on predetermined
templates and tags. The article considers the
technology to solve this problem, it has proposed the
structure of the source data for developing system, the
set of its automated functions, criteria and restrictions;
it determines the algorithms for constructing the
system of work with clients and their software
implementation. In addition, we have presented the
results of the work of the program and the analysis for
the “Kairos” Ltd
The article describes the structure and the example of
using automated subsystems, which can be used in
telecommunication companies for the most efficient
process of automation of office staff related to budget
planning, which includes monitoring and planning of
incomes, earned whereby customers of various
branches and segments. After analyzing the business
processes of the research object - groups of operational
planning of the Stavropol branch, as well as the evaluation
of existing approaches to solving the problem of
income planning, it was concluded that it’s necessary
to develop an automated subsystem. According to the
instructions of the corporate center, while planning the
budget, the staff must use a technique of planning and
control of budget revenues, implying a partition total
planned revenue for each branch income from different
segments, followed by separation of each group income
by services and articles, as well as a formulation
of the work plans for managers who deals with large
and small customers. The results can also be used to
make recommendations on the formulation of individual
plans for sale-managers, on further areas of cooperation
with customers, the MRB and the CC based on
the analysis and evaluation of divisions of the organization’s
KPI
The article describes the structure, the algorithm and
the example of using of an automated subsystem for
advertising campaign budget planning. This subsystem
enables automated distribution of funds allocated for
the advertising budget, by types and items of
promotional activities, taking into account the
effectiveness of a particular kind of advertising, as
well as the seasonal changes on individual expenses
items. The article substantiates the relevance and the
need for the development and testing of the subsystem
described by the example of "Kairos" Ltd
Sustainability of enterprises plays an important role in the economic and social life of all industrially developed countries. Despite numerous publications devoted to the analysis of the sustainability of organizations, there are still ambiguous approaches to the methods of analysis for different authors. In addition, for companies of different industries, forms of ownership, geographically located in different regions of the border, the methods and indicators for assessing sustainability can vary considerably. In this connection, there is a need to develop a decision support system that would allow the most efficient assessment of the sustainability of the largest possible range of enterprises, with the possibility of adjusting and flexibly tuning as many parameters as possible. The article describes the architecture and algorithm of the DSS, which implements the following model of initial data generation in its functional; Model of formation of a tree-like structure of groups of indicators on the basis of which the stability is assessed; Model for specifying the fuzzy sets belonging to the recommended values of the indicators; Model for calculating the values of groups of indicators and their fuzzy estimates; The model of graphical interpretation of the organization's sustainability assessment. The developed system was tested on the basis of the company called Antey LLC