Theory of transport systems

Description: The discipline considers the concept of a system, the classification of systems: natural, artificial, technical, human-machine. Basic properties of systems. Properties of transport products in the system of public production and distribution. The content of the transport process, its elements.

Amount of credits: 5

Пререквизиты:

• Managing freight transportation

Course Workload:

Component: Component by selection

Cycle: Base disciplines

Goal

• The purpose of teaching the discipline is to familiarize future specialists with the basics and methods of the theory of transport processes and systems; formation of the basics of the transport worldview among students; study and calculation of queuing system parameters; methodological foundations for building and optimizing network planning.

Objective

• Introduction: to the essence of the theory of transport systems; to methods of optimization of transport systems. The study of the classification and features of the functioning of transport systems; the features of the transport process as a system with a discrete state; Knowledge of the main characteristics of the transport node and the processes occurring in it; the study of queuing systems and the composition and methods of optimization of network planning and management systems.

Learning outcome: knowledge and understanding

• To know the basics of the theory of transport systems, concepts and characteristics of types of systems, methods of application of queuing systems and network planning

Learning outcome: applying knowledge and understanding

• Be able to determine the types of transport systems and their features, properties and features of transport products, classify transport systems. Apply: factor study of car performance; methods of linear programming and network planning in solving practical problems.

Learning outcome: formation of judgments

• Using the acquired knowledge, be able to use them to optimize transport processes and systems.

Learning outcome: communicative abilities

• Acquisition of skills to analyze and improve the efficiency of transport systems

Learning outcome: learning skills or learning abilities

• Achieving the level of requirements for the qualification characteristics of a master in the field of services

Teaching methods

Classes are held in active and creative forms that contribute to the involvement of students in the search and management of knowledge, the acquisition of experience in solving problems independently, including: - technologies of educational and research activities; - communication technologies (discussion, educational debates); - information and communication (including distance education) technologies.

Topics of lectures

• Transport as a branch of material production
• Components of motor transport; means of communication, - rolling stock, communication routes - highways and enterprises that ensure the operation of rolling stock
• The main types and classification of rolling stock of motor transport
• Operational properties of rolling stock, cargo capacity and ease of use
• Loading and unloading operations as an integral part of the transport process and their impact on the performance of rolling stock and the cost of transportation
• Theoretical and methodological foundations of the organization of transport systems
• Principles of cargo transportation planning
• Modeling of transport networks and calculation of shortest distances
• Taking into account random factors by stochastic modeling methods on the example of calculating the optimal structure of the fleet of a motor vehicle system
• Modeling the operation of PBX and loading and unloading facilities as a queuing system
• Bus transportation, their classification and characteristics
• The route network of bus transport, route classification, route density coefficient and route coefficient
• The transport process as a system with a discrete state
• Management of transport processes
• Basic concepts of transport system modeling

Key reading

• 1.Горев А. Э. Теория транспортных процессов и систем. Учебник. М. : Изд-во Юрайт, 2017. - 217 с. 2. Витвицкий Е. Е. Теория транспортных процессов и систем (Грузовые автомобильные перевозки). Учебник. Омск : СибАДИ, 2014. 216 с. 3. Горев А. Э. Основы теории транспортных систем: учеб. пособие; СПбГАСУ. – СПб., 2010. – 214 с. 4. Гершвальд А.С., Еловиков А.В., Басыров М.А. Теория транспортных процессов и систем: уч.-метод. пос. - М.: МГУПС, 2015. 220 с. 5. Основы теории транспортных процессов и систем : учебное пособие./ А. А. Михальченко, Б. Б. Парфенов, А. А. Сафроненко, А. Н. Старовойтов ; Гомель : БелГУТ, 2017. - 379 с.

Further reading

• 1.Бачурин, А.А. Планирование и прогнозирование деятельности автотранспортных организаций / А.А. Бачурин. - Вологда: Инфра-Инженерия, 2011. - 272 c. 2.Воркут А.И. Грузовые автомобильные перевозки.– Киев. Вища шк, 1986 3.Горев А.Э. Грузовые автомобильные перевозки. – М. «Академия», 2004 4.Савин В.И. Перевозки грузов автомобильным транспортом. – М. «Дело и сервис», 2002 5.Савин В. И., Щур Д. Л. Перевозки грузов автомобильным транспортом; Дело и Сервис - 2007. - 544 c 6.Ходош М.С., Дасковский Б.А. Организация и управление перевозками грузов автомобильным транспортом. – М., Транспорт, 1989