N_VRS Virtual reality of machine design

Institute of Technology and Business in České Budějovice
winter 2024
Extent and Intensity
2/2/0. 5 credit(s). Type of Completion: zk (examination).
Teacher(s)
doc. Ing. Petr Hrubý, CSc. (seminar tutor)
Guaranteed by
doc. Ing. Petr Hrubý, CSc.
The Department of Mechanical Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Supplier department: The Department of Mechanical Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Timetable of Seminar Groups
N_VRS/P01: Tue 18:10–19:40 B3, P. Hrubý
N_VRS/S01: Wed 18:10–19:40 D516, P. Hrubý
N_VRS/S02: Thu 9:40–11:10 D516, P. Hrubý
Course Enrolment Limitations
The course is offered to students of any study field.
Course objectives supported by learning outcomes
The aim of the course is to acquaint students with the nature and manifestations of virtual reality reflecting the value chain in the field of mechanical design, architecture and carriers of modules of mechanical properties, with applications supporting the process of creating a valid model of the assembly unit, with methods of creating own applications.
Learning outcomes
The student will get acquainted with the structure, selected modules and individual types of virtual twins of the assembly unit; understand the principles and procedures of creating production documentation; can work with professional, free and corporate applications; is able to create their own applications supporting the process of creating a structural design of the assembly unit; learn methods of validation of used virtual reality modules; will gain a comprehensive view of the process of creating a 3D model of machine construction.
Syllabus
  • 1. Explicit and implicit virtual structures of machine structures. 2. Virtual reality of power systems of machine structures. 3. Virtual reality of strength and stiffness characteristics of machine structures. 4. Graphic carriers of virtual reality of machine structures. 5. Analytical description of virtual reality. 6. Digital twin in the machine construction design segment. 7. Physical discretization of parts of mechanical structures. 8. Mathematical discretization of mechanical structures of machine structures. 9. Hybrid virtual reality models of basic assembly units. 10. Systems for 2D imaging. 11. Systems for 3D modeling. 12. Computing systems supporting the creation of digital twins. 13. Interfaces and Limitations of Digitized Virtual Reality
Literature
    required literature
  • HRUBÝ, Petr a Lenka KLEISNEROVÁ. Kritické otáčky hřídelů. In MMK 2014: sborník příspěvků. 1. vyd. Hradec Králové: Magnanimitas, 2014. s. 3923-3931. ISBN 978-80-87952-07-8.
  • MAŘÍK, V., a kol.: Umělá inteligence, AKADEMIA Praha 2013, ISBN 978-80-200-2276-9
  • HRUBÝ, Petr a Lenka KLEISNEROVÁ. Ustálená odezva kloubového hřídele cardanova mechanismu na rotující momentové buzení. In MMK 2015: sborník příspěvků. 1. vyd. Hradec Králové: Magnanimitas, 2015. s. 2490-2500. ISBN 978-80-87952-12-2.
  • MAŘÍK, V, a kol.: Průmysl 4.0. MANAGEMNT PRESS, Praha 2016. ISBN 978-807261-440-0.
  • BREPTA, R., PŮST, L., TUREK, F. Mechanické kmitání. Technický průvodce 71. Praha: Sobotáles, 1994.
  • HÖSCHL, C. Fyzikální a matematické modely v mechanice deformovatelných těles. In: Stavba strojů. Praha: Dům techniky ČSVTS Praha, 1988. 128 s.
  • JULIŠ, K., BREPTA, R. Mechanika II. díl – Dynamika. Technický průvodce 66. Praha: SNTL, 1987.
  • HRUBÝ, Petr, Zdeněk HLAVÁČ a Pavla ŽIDKOVÁ. Aplikace metody konečných prvků při stanovení modálních a spektrálních vlastností ohybových kmitů kloubového hřídele. In MMK 2015 : sborník příspěvků. 1. vyd. Hradec Králové: Magnanimitas, 2015. s. 2555-2564, 1
    recommended literature
  • https://www.systemonline.cz/casopis-it-systems/aktualni-vydani.htm
  • https://www.cad.cz/
  • HÖSCHL, C. Užití malých počítačů v dynamice soustav. In: Stavba strojů 86. Praha: Dům techniky ČSVTS Praha, 1983. 106 s.
  • Časopis pro automatizační techniku AUTOMA dostupný z: automa.cz.
  • JULIŠ, K., BREPTA, R., 1986. Mechanika I. díl: Statika a kinematika. Praha: SNTL. 480 s., 04-224-86.
  • FOŘT, P., KLETEČKA,J.: Autodesk Inventor 3. aktualizované vydání. Computer Press, Brno 2012. ISBN 978-80-251-3728-4.
  • https://www.erpforum.cz/
  • ŠPAČEK, J., SPIELMANN, M.: AutoCAD: Názorný průvodce pro verze 2019 a 2020. COMPUTER PRESS 2020. EAN 9788025149942.
  • https://www.controlengcesko.com/
Forms of Teaching
Lecture
Seminar
Consultation
Teaching Methods
Frontal Teaching
Brainstorming
Critical Thinking
Individual Work– Individual or Individualized Activity
Teaching Supported by Multimedia Technologies
Student Workload
ActivitiesNumber of Hours of Study Workload
Daily StudyCombined Study
Preparation for Lectures13 
Preparation for Seminars, Exercises, Tutorial13 
Preparation for the Final Test26 
Seminar work26 
Attendance on Lectures26 
Attendance on Seminars/Exercises/Tutorial/Excursion26 
Total:1300
Assessment Methods and Assesment Rate
Test – final 70 %
Seminary Work 30 %
Exam conditions
Overall classification of the subject, i.e. points for the test (70 - 0) + points from the ~continuous assessment (30 - 0); 100 – 70 counted; possibility to repeat the test 69.99 – 30; not included 29.99 - 0. Qualification scale of examination: A (90 b) - excellent performance with only minor errors, B (84 b) - above average performance, but with certain errors, C (77 b) - overall good performance with a number of significant errors, D (73 b) - acceptable performance, but with significant shortcomings, E (70 b) - performance meets the minimum requirements, F, X (29.99-0) - a significant amount of additional work is required.
Language of instruction
Czech
Teacher's information
Participation in classes in all forms is dealt with by a separate VŠTE internal standard (Student Attendance Records at VŠTE). For full-time students, 70% participation in contact classes, i.e. everything except lectures, is mandatory.
The course is also listed under the following terms winter 2021, winter 2022, winter 2023.
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