2018/2019

Prerequisite/Recommended prerequisite for participation in the module

The module builds on knowledge gained in Probability Theory and Statistics

Content, progress and pedagogy of the module

Objective:

Students who complete the module:

Learning objectives

Knowledge

• Understand the concepts risk, uncertainty, reliability and safety.
• Know statistical methods for modeling physical, model, statistical and measurement uncertainties.
• Know methods for assessment of reliability of structural systems using probabilistic methods.
• Know methods for systems reliability for non-structural components and its applications in engineering.

Skills

• Be able to model physical, statistical, model and measurement uncertainties.
• Be able to use failure rates and hazard functions to model failures in systems reliability for non-structural components.
• Be able to model uncertainties for loads and strengths.
• Be able to estimate the reliability by FORM/SORM methods (reliability index method) and by simulation.
• Be able to model system behavior and estimate the reliability of series and parallel systems.
• Understand basic concepts of stochastic processes and time-variant reliability methods.
• Be able to estimate characteristic and design values for strength parameters and load bearing capacities, and for environmental loads and load effects using test data and measurements.
• Be able to calibrate partial safety factors and load combination factors.
• Be able to apply Bayesian statistical methods.
• Be able to apply  risk and reliability methods for probabilistic design of engineering structures such as buildings, bridges, offshore structures, costal structures, wind turbines etc.
• Use correct professional terminology.

Competences

• Be able to participate in a dialog on modelling of uncertainties, risk analysis and assessment of reliability of structural and non-structural components and systems.
• Be able to model, calculate and communicate risk analysis, modelling of uncertainties and assessment of reliabilities for engineering problems.

Type of instruction

Lectures, etc. supplemented with project work, workshops, presentation seminars, lab tests.

Extent and expected workload

Since it is a 5 ECTS project module, the workload is expected to be 150 hours for the student.

Exam

Exams

 Name of exam Risk and Reliability in Engineering Type of exam Written or oral exam Individual oral or written exam ECTS 5 Assessment 7-point grading scale Type of grading Internal examination Criteria of assessment As stated in the Joint Programme Regulations. http:/​/​www.engineering.aau.dk/​digitalAssets/​332/​332984_faellesbestemmelser_230617.pdf

Facts about the module

 Danish title Risiko og sikkerhed af konstruktioner Module code B-BK-K2A-9 Module type Course Duration 1 semester Semester Spring ECTS 5 Language of instruction English Location of the lecture Campus Aalborg Responsible for the module Thomas Lykke Andersen

Organisation

 Study Board Study Board of Civil Engineering Department Department of Civil Engineering Faculty Faculty of Engineering and Science