Course: Modeling and simulation II

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Course title Modeling and simulation II
Course code KVM/MS2*
Organizational form of instruction Lecture + Lesson
Level of course Master
Year of study not specified
Semester Winter
Number of ECTS credits 4
Language of instruction Czech
Status of course Compulsory
Form of instruction Face-to-face
Work placements Course does not contain work placement
Recommended optional programme components None
  • Brabec Pavel, Ing. Ph.D.
  • Voženílek Robert, Ing. Ph.D.
Course content
Main topics of lectures and exercises 1) Modelling in engineering practice: models in the system concept (system, model and modelling, computational, mathematical and computer model), classification of models, dynamic system and its identification. 2) Matlab/Simulink system - modelling of horizontal and vertical vehicle dynamics, modelling of vehicle braking. 3) Matlab/Simulink system - modelling of actuators for pneumatic and hydraulic mechanisms, modelling the mechanisms in the Simscape module. 4) Wave system - modelling of the vehicle's internal combustion engine. 5) IGNITE system - modelling of the whole powertrain of the vehicle. Exercises: 1. - 14. practice in a computer laboratory, separate work following up on individual topics.

Learning activities and teaching methods
Monological explanation (lecture, presentation,briefing), Self-study (text study, reading, problematic tasks, practical tasks, experiments, research, written assignments), Active metods (simulation, situational contingency methods, drama,acting, namagerial acting )
Learning outcomes
The subject is focused on the issue of modelling and simulation of events in motor vehicle systems. Students will become familiar with methods of modelling linear and non-linear dynamic systems, dimensional analysis and modelling of flow and heat events in hydrostatic and pneumatic mechanisms. The tasks for the separate work of students are focused on the application of methods to analyse the running characteristics of vehicles and the characteristics of internal combustion engines.
Students obtain knowledge in given course in accordance with requirements and course programme.
Theory of vehicles Driving Units I Driving Units II Vehicles I KMS

Assessment methods and criteria
Oral exam, Practical exam

Credit: min. 80% of active participation in seminars Exam: written and oral
Recommended literature
  • Brabec, Pavel. Počítačová simulace spalovacího motoru / software Wave. Prezentace InTECH2, TUL, 2011.
  • Brabec, Pavel. SI Engine, výtah z helpu softwaru Wave. TUL, Liberec, 2007.
  • CERHA Josef. Hydraulické a pneumatické systémy I. TUL, Liberec, 2006.
  • help a tutorials softwarů. Matlab/Simulink, WAVE.
  • ISERMANN, Rolf. Engine Modeling and Control - Modeling and Electronic Management of Internal Combustion Engines. Berlín, 2014. ISBN 978-3-642-39933-6.
  • Macek, Jan. Základy modelování oběhu motoru / Matematické modelování oběhu motoru. prezentace, ČVUT Praha.
  • MERKER, Günter P., Christian SCHWARZ, and Rüdiger TEICHMANN. Combustion Engines Development - Mixture Formation, Combustion, Emissions and Simulation. Springer-Verlag Berlin, 2012. ISBN 978-3-642-02951-6.
  • NOSKIEVIČ, Petr. Modelování a identifikace systémů. Ostrava: MONTANEX, 1999.
  • Páv, Karel. Základy 0-D modelování PSM, podklady k přednáškám předmětu POJ I. TUL, Liberec.
  • VLK, František. Úlohy z dynamiky motorových vozidel. Brno, 2001.

Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester