Course Details
Modern Trends in Traffic Engineering (DST)
Academic Year 2023/24
CM055 course is part of 1 study plan
N-P-C-SI (N) / K Summer Semester 1st year
Traffic flow and its characteristics, up to date traffic flow models, simulations.
Nonlinear dynamic systems.
Objectives, means and methods of transport planning.
New traffic flow control technolgies, information distribution in traffic systems - intelligent transport systems, telematics.
Nonlinear dynamic systems.
Objectives, means and methods of transport planning.
New traffic flow control technolgies, information distribution in traffic systems - intelligent transport systems, telematics.
Course Guarantor
Institute
Objective
Traffic flow theory knowledge, modelling techniques skill. Understanding of basic phenomena in traffic flow. New telematic technologies overview.
Knowledge
Students understand standard theories of traffic flo and processes in traffic flow. They get familiarized with modelling techniques and with basic phenomena in traffic flow. They gain knowledge of new telematic technologies and their objectives.
Syllabus
1. Introduction to nonlinear dynamics
2. Traffic flow theory, conservation law, fundamental diagrams
3. Microsopic models of traffic flow, car following models
4. Sensitivity of the model to parameter variance
5. Information systems, information propagation in traffic systems
6. Telematic applications, influence to traffic flow
7. Advanced control systems for vehicles
8. Accelerometrical measurements
9. Application of gyroscopes in measurement units
10. Traffic surveys with vehicle in traffic flow
11. Video for traffic research on crossings
12. Conditions for aerostat application in traffic survey
13. Critical and follow up gaps according to Siegloch on roundabout
2. Traffic flow theory, conservation law, fundamental diagrams
3. Microsopic models of traffic flow, car following models
4. Sensitivity of the model to parameter variance
5. Information systems, information propagation in traffic systems
6. Telematic applications, influence to traffic flow
7. Advanced control systems for vehicles
8. Accelerometrical measurements
9. Application of gyroscopes in measurement units
10. Traffic surveys with vehicle in traffic flow
11. Video for traffic research on crossings
12. Conditions for aerostat application in traffic survey
13. Critical and follow up gaps according to Siegloch on roundabout
Prerequisites
Common knowledge of mathematics and physics. Road design. Traffic engineering. Algorithm development in engineering work.
Language of instruction
Czech
Credits
5 credits
Semester
summer
Forms and criteria of assessment
course-unit credit and examination
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Introduction to nonlinear dynamics
2. Traffic flow theory, conservation law, fundamental diagrams
3. Microsopic models of traffic flow, car following models
4. Sensitivity of the model to parameter variance
5. Information systems, information propagation in traffic systems
6. Telematic applications, influence to traffic flow
7. Advanced control systems for vehicles
8. Accelerometrical measurements
9. Application of gyroscopes in measurement units
10. Traffic surveys with vehicle in traffic flow
11. Video for traffic research on crossings
12. Conditions for aerostat application in traffic survey
13. Critical and follow up gaps according to Siegloch on roundabout
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Introduction to nonlinear dynamics
2. Traffic flow theory, conservation law, fundamental diagrams
3. Microscopic models of traffic flow, car following models
4. Sensitivity of the model to parameter variance
5. Information systems, information propagation in traffic systems
6. Telematic applications, influence to traffic flow
7. Advanced control systems for vehicles
8. Accelerometrical measurements
9. Application of gyroscopes in measurement units
10. Traffic surveys with vehicle in traffic flow
11. Video for traffic research on crossings
12. Conditions for aerostat application in traffic survey
13. Critical and follow up gaps according to Siegloch on roundabout