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Effective Methods and Transportation Processes Management Models at the Railway Transport. Textbook

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2023
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Effective Methods and Transportation Processes Management Models at the Railway Transport. Textbook
Pavel Minakov

Vadim Shmal

Igor Shapkin

Igor Shapkin Doctor of Technical Sciences, Professor Russian university of transport (MIIT). Pavel Minakov Ph. D. Associate Professor Russian university of transport (MIIT). Vadim Shmal Ph. D. Associate Professor Russian university of transport (MIIT).

Effective Methods and Transportation Processes Management Models at the Railway Transport

Textbook

Igor Shapkin

Vadim Shmal

Pavel Minakov

© Igor Shapkin, 2023

© Vadim Shmal, 2023

© Pavel Minakov, 2023

ISBN 978-5-0060-7671-6

Created with Ridero smart publishing system

INTRODUCTION

In the country’s transport system, rail transport occupies a leading place in the development of the Russian economy. The most important role in the strategy for the development of railway transport in Russia belongs to the process of informatization, which provides the necessary and reliable information to all areas of management related to the transportation of goods and passengers. For fundamental scientific, technical and organizational problems solvation, the Concept and Program of Informatization of Railway Transport have been developed.

In the context of large-scale reforms in railway transport informatization is carried out using information technologies, the most important elements of which are models, methods and algorithms for making control decisions.

The problem of the development of the transport complex of Russia cannot be solved without the creation and improvement of a high-tech complex of interrelated formal models, applied methods and effective decision-making algorithms in the management of the transportation process.

An analysis of the current conditions for the functioning of railway transport shows that there are often problems for which the previously developed methodological tool turned out to be poorly adapted and the creation of a new generation of models and methods for making the right management decisions is required. The developed methods and models, on the one hand, should take into account the new functional requirements for information and control systems in railway transport, on the other hand, modern trends in the construction of these models, methods and algorithms.

The implementation of control decisions made on the basis of inadequate models and methods can lead to serious consequences, and the management problem that has arisen cannot be solved, even with a large amount of information, until an adequate model, method or algorithm is developed.

Today, in railway transport, there is a significant gap between the enormous capabilities of existing computers and the machine algorithms used for control decisions. There is a need for an early transition from the information to the control mode of transport management, the development of fundamentally new, more adequate and effective models, methods and algorithms to improve the objectivity, quality and timeliness of management decisions.

A special problem associated with the adaptation of the control system to the changed conditions and requiring a mandatory solution in the development of a new generation of methods and models is the issues of improving the structure of the control system. An effective approach to its solution, which makes it possible to better adapt to transportation management and significantly reduce the complexity of management, is the development of multi-level management structures through the optimal decomposition of the transport network into landfills. Of particular relevance is the problem of transition to polygon transportation management technologies. This technology is formed on the basis of scientific and technological achievements and provides for new solutions – the transition from regional management principles to the planning and organization of train traffic on the landfill network. Based on the fact that bulk cargo is mainly formed by enterprises of the Ural-Siberian region, their networks distinguish two enlarged landfills. This is the Eastern polygon, includes the Baikal-Amur Mainline and the Trans-Siberian Railway, and the Western, where the main cargo flows are concentrated in the direction of the North-West, the center and the South of the country.

Today, these areas account for more than 80% of the network cargo turnover with their total length of 28 thousand km, which is a third of the operational length of the network.

The key principle of the landfill is the technology and infrastructure parameters unification and the existing contradictions elimination at the borders. It is this approach that will allow you to achieve the maximum effect, including from investments.

A significant problem is the adequate models and methods development of discrete combinatorial optimization, since in the context of economic reforms, the role of discrete problems of managing transport systems increases. The importance of this problem is explained by the strengthening of the quality requirements and efficiency of solving those numerous control problems that are most consistent with the mathematics of discrete sets or sets that change at discrete moments of time.

The main problem of solving discrete control problems is exacerbated by four additional problems. Firstly, many of the problems under consideration are multi-criteria, which significantly complicates the search for the optimal solution, since it requires the determination of some compromise result, which in the general case is not optimal for any criterion. Secondly, it is necessary to take into account the significantly positive nature of a number of parameters of the management tasks to be solved, which will make it possible to build adequate models and methods that take into account the real capabilities of various elements of the transport network for the passage and processing of wagons and trains. Thirdly, the variable conditions of the network required the development of adequate dynamic models that take into account the non-stationary nature of the discrete control problems to be solved. Fourthly, the complexity of the ongoing reforms, the difficulty of identifying the main parameters of new management tasks and other reasons lead to the need to develop control decisions based on inaccurate, approximate and so-called «fuzzy» initial data, for which it is enough just to indicate their possible values relative to a certain interval of reliability.

The proposed book attempts to systematize the solutions to the above management problems based on the creation of appropriate models, methods and algorithms, which are an important part of promising information technologies that require priority implementation in railway transport and transport systems.

The authors hope that the book will help developers and students specializing in the field of transportation process management based on information technology to get acquainted with the methods of building and implementing models and methods of management in railway transport.

The book is aimed at students, graduate students and specialists interested in modern ideas of applying new models and methods of management in railway transport.

1 INFORMATIZATION AS A STRATEGIC COURSE FOR THE RAILWAY TRANSPORT RESTRUCTURING

Informatization of transport is an integral part of the society informatization national process associated with the production and widespread use of information as a special type of resource based on the transition to high-tech and knowledge-intensive methods of organizing transportation.

Informatization is based on the Concept and Program of Informatization of Railway Transport, which is a system of goals, objectives and main directions of informatization for a given period, priorities, means and ways to achieve the goals of informatization.

Information environment – information implemented in a databases and knowledge system, which ensures the functioning of objects, controls and individual users associated with transport. The ultimate goal of designing an information environment is to create a single transparent information space in which all interested users can be provided with the necessary and reliable information everywhere at the right time and in a convenient form.

The transport informatization infrastructure is designed to provide living conditions for the information environment and, first of all, its physical support and maintenance.

The second level of informatization representation is determined by its applied or user role, achieved by the formation of new information technologies.

New information technologies are a systemic concept that combines new high-tech and knowledge-intensive models and methods of transport management into a single whole, and provide the level of informatization represented by the information environment and infrastructure.

The changes in the methods of automated control of technological processes accumulated in recent years in railway transport, the priorities of the goals of functioning require new modern solutions aimed at reducing costs and increasing industry revenues.

In the context of the transition to a market economy, it is impossible to ensure the operation of railway transport without the use of new technologies, which, as world experience shows, are the most important means for the formation of a competitive, sustainable production and economic model of the transport system.

The introduction of new effective technologies that provide «breakthrough» directions of informatization is hampered by the lack of adequate scientifically based models and methods for solving the problems of railway transport management in the current and future periods of the industry’s functioning.

It is possible to develop new information technologies using the SADT methodology for describing complex systems and industries.

The most important product of designing new information technologies is mathematical models that allow you to understand the structure of the future system, balance requirements and build an effective management system.

The construction of mathematical models occupies a leading place among the problems of creating new methods, their development and management.

The infiltration of new management methods into railway transport follows the path of mathematical modeling of the corresponding objects. If an adequate model of the management system is built, then its study will make it possible to identify the bottlenecks and imperfections of the existing system, develop alternative options for its development and evaluate their effectiveness in terms of achieving the goals of the system and solving its main tasks. Currently, there are a large number of works by authors devoted to the problem of constructing mathematical models for managing transport systems and production. In these works, modeling works in any local area are usually considered using specific methodological tools of mathematical modeling.

This is due to the fact that there is no urgent need to build, coordinate and update integrated management models, since the local ones coped with their tasks quite well. Local modeling, as a rule, is based on any one type of model, which makes it possible to standardize the language for describing models and methods for their analysis

However, local modeling methods are not productive enough to describe large-scale enterprise systems such as rail transport.

The expressive capabilities of any particular variety of models are limited, making it adequate only for a limited field of application. The poor scalability of the developed models does not allow to flexibly and adequately describe the variety of aspects of the activities of systems, both small and large-scale.

The study methodological basis is based on a systemological approach. The development of a comprehensive modeling methodology is based on an architectural concept, frame theory and a variety of complementary types of models and methods.

A systemological approach to the development of large-scale software areas should meet the following basic conceptual requirements:

• ensure the design and development of new information technologies in strict accordance with the requirements for the management system;

• to form an adequate system of models that are functionally interconnected and coordinated in strict accordance with the goals of management systems;
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