Automatic Diagnostics (FSI-VAD-K)

Academic year 2021/2022
Supervisor: Ing. František Vdoleček, CSc.  
Supervising institute: ÚAI all courses guaranted by this institute
Teaching language: Czech
Aims of the course unit:
Students will have an overall view of methods and devices of technical diagnostics and selecting a suitable version for condition monitoring appropriate equipment.
Learning outcomes and competences:
General overview of methods and devices of technical diagnostics and applying the acquired knowledge for solving a specific assignment. The ability to select the appropriate diagnostics and locates failure and cause in elementary cases, ability to evaluate basic parameters of reliability of systems.
Prerequisites:
Basic knowledge of physics, mathematics, theory of probability and measurement of technical quantities
Course contents:
The course is concerned with problems technical diagnostics in mechanical and automatic application. Students are acquainted with basic methods and instrumentation of technical non- removal diagnostics and of the special condition monitoring system with fully automated function. Special attention is paid to diagnostics of individual components of control loop and diagnostics in modern control systems. A self-diagnostics mode system in automatic control and relations of the diagnostics to reliability and maintenance of systems are also dealt.
Teaching methods and criteria:
The course is taught through lectures explaining the basic principles and theory of the discipline. Teaching is suplemented by practical laboratory work.
Assesment methods and criteria linked to learning outcomes:
Course - unit credit: attendance in laboratory exercises and presenting the results of selected measurements. Resulting evaluation up to 30 points is included in the result of the examination, provided credit is to obtain at least 15 points.
Exam: written test of all problems the subject (0 - 40 points), oral exam with written preparation (0 - 30 points). Total the student receives up to 100 points, condition passing of the exam at least 51 points. Classification: excellent (91-100 points), very good (81-90 points), good (71-80 points), satisfactory (61-70 points), sufficient (51-60 points), failed (0-50 points).
Controlled participation in lessons:
Attendance in laboratory exercises is monitored ; one absence can be compensated for by attending a seminar with another group; next absence is compensated by solving an individual assignment.
Type of course unit:
    Guided consultation in combined form of studies  1 × 9 hrs. compulsory                  
    Guided consultation  1 × 34 hrs. optionally                  
    Laboratory exercise  1 × 9 hrs. compulsory                  
Course curriculum:
    Guided consultation in combined form of studies 1. The importance of technical diagnostics
2. Basic definitions and terminology
3. Faults sources and principles of maintenance
4. Reliability of components and systems, backup
5. Distribution of diagnostics, operating and less removal diagnostics
6. Diagnostics models, methods and devices
7. Functional and physical diagnostics methods
8. Vibration and acoustic diagnostics
9. Basics of frequency analysis
10.Thermo-diagnostics, tribology-diagnostics, and electro-diagnostics
11.Automatic monitoring systems
12.Diagnostics in control loops
13.Current trends in diagnostics
    Guided consultation 1. The importance of technical diagnostics
2. Basic definitions and terminology
3. Faults sources and principles of maintenance
4. Reliability of components and systems, backup
5. Distribution of diagnostics, operating and less removal diagnostics
6. Diagnostics models, methods and devices
7. Functional and physical diagnostics methods
8. Vibration and acoustic diagnostics
9. Basics of frequency analysis
10.Thermo-diagnostics, tribology-diagnostics, and electro-diagnostics
11.Automatic monitoring systems
12.Diagnostics in control loops
13.Current trends in diagnostics
    Laboratory exercise 1. Introduction to the course
2. Reliability of components and systems
3. Function diagnostics and diagnostics models
4. Temperature in diagnostics
5. Noncontact temperature measurement and thermal cameras in diagnostics
6. Measurement of vibration
7. Base of frequency analysis
8. Defects and troubles of bearings
9. Machine alignment and balancing
10. Condition monitoring systems
11. Diagnostics in control loop
12. Exhibitions of modern diagnostics systems
13. The final exercise, evaluation, credit
Literature - fundamental:
1. Ushakov, I., A. et al, Handbook of Reliability Engineering : New York : John Wiley and sons, Inc. 1994.
2. Broch, J., T., et al, Mechanical Vibration and Shock Measurements : Naerum : Bruel Kjaer 1984.
3. Lipovsky, G., a kol., Vibration Testing of Machines and their Maintenance : Amsterdam: Elsevier 1990.
Literature - recommended:
1. Kreidl, M., a kol., Diagnostické systémy : Praha : Vydavatelství ČVUT v Praze 2001.
2. Liška, M., Sládek, Z., Spolehlivost a technická diagnostika : Brno : Ediční středisko VUT v Brně, 1989.
3. Janoušek, I., a kol., Technická diagnostika : Praha : SNTL 1990.
The study programmes with the given course:
Programme Study form Branch Spec. Final classification   Course-unit credits     Obligation     Level     Year     Semester  
B3S-K combined study B-AIŘ Applied Computer Science and Control -- Cr,Ex 5 Compulsory 1 3 S