Ing. Pavel Hrabec, Ph.D.

Institute of Mathematics

Knowledge of basic and advanced methods of probability theory and mathematical statistics is assumed (statistical hypothesis testing, maximum likelihood estimation).

Credit conditions: active participation during classes
Conditions for passing the exam: mastering practical examples on a PC, meaning adequate (oral) discussion of software otputs.
Attendance at seminars is controlled and the teacher decides on the compensation for absences.

English

The aim of the course is to familiarize Mathematical Engineering majors with reliability theory methods for modeling and evaluating the reliability of technical systems, with mathematical statistics methods for process quality control. Students will gain essential knowledge in the crucial fields of reliability theory and quality control, empowering them to use computer modeling to identify significant quality attributes of technical systems and processes using statistical data.

Programme N-MAI-A: Mathematical Engineering, Master's
branch ---: no specialisation, 4 credits, compulsory-optional

Programme N-AIM-A: Applied and Interdisciplinary Mathematics, Master's
branch ---: no specialisation, 4 credits, elective

13 hours, compulsory

MSA for continuous data
MSA for attributes
Process stability (control charts)
Process capability
Process capability for nonnormally distributed data
Functional and numerical characteristics of reliability
Censoring, nonaprametric reliability analysis (Kaplan-Meier)
Probability distribution of time to failure and their likelihood.
Parametric analysis of reliability, likelihood ratio test
Competing failure mode model for reliability
Demostration and estimation test plans
Accelerated life testing.