Course Information

Course Unit Title	:	RELIABILITY AND RISK ANALYSIS
Course Unit Code	:	01INS5190
Type of Course Unit	:	Optional
Level of Course Unit	:	Second Cycle
Year of Study	:	Preb
Semester	:	255.Semester
Number of ECTS Credits Allocated	:	6,00
Name of Lecturer(s)	:	---
Course Assistants	:
Learning Outcomes of The Course Unit	:	1) Freely use the language of engineering systems reliability analysis 2) Use analytical models for power system reliability analysis 3) Calculus-based engineering systems analysis methods 4) Probability theory.
Mode of Delivery	:	Face-To-Face
Prerequisities and Co-requisities Courses	:	Unavailable
Recommended Optional Programme Components	:	Unavailable
Course Contents	:	Basic reliability mathematics : review of probability and statistics, Commonly Used Probability Distributions, Common distrubitions in component reliability, Hypothesis tests and Confidence intervals, Basic Concept of Reliability, Introduction to Reliability Engineering, Fundamentals of Reliability Analysis, Elements of risk assessment, Probabilistic risk assessment, Representation of risk values and risk acceptance criteria, Identifying, ranking, and predicting contributors to risk, Decision making techniques using risk information, Probabilistic Optimisation, Applications of Reliability Based Design ? Procedures and Examples.
Languages of Instruction	:	Turkish
Course Goals	:	This course addressed applications related to the reliability theory in analysing engineering systems. The probabilistic concepts of structural reliability were re-examined and their significance for improving system performance or obtaining design solutions for situations not readily provided for in design for in design standards were discussed.
Course Aims	:	This course addressed applications related to the reliability theory in analysing engineering systems. The probabilistic concepts of structural reliability were re-examined and their significance for improving system performance or obtaining design solutions for situations not readily provided for in design standards were discussed.
WorkPlacement		Not Available

Recommended or Required Reading

Textbook	:
Additional Resources	:	Beyaz�t, M., ?M�hendislikte G�venilirlik ve Risk Analizi?, Birsen Yay�nevi, 2007. Haldar, A., Mahadevan, S.,? Probability, Reliability, and Statistical Methods in Engineering Design?, Wiley, John & Sons, Incorporated, 1999. Modarres, M., Kaminskiy, M., Krivtsov, V., ?Reliability engineering and risk analysis: a practical guide?, Marcel Dekker Inc, 1999. Modarres, M., ?Risk Analysis in Engineering: Techniques, Tools, and Trends?, Wiley, John & Sons, Incorporated, 2006. Smith, N., ?Appraisal, Risk and Uncertainty?, Thomas Telford Ltd., 2003.

Material Sharing

Documents	:
Assignments	:	Practice about units
Exams	:	Questions and solutions
Additional Material	:

Planned Learning Activities and Teaching Methods

Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)

ECTS / Table Of Workload (Number of ECTS credits allocated)

Student workload surveys utilized to determine ECTS credits.

Activity

Number

Duration

Total

Course Duration (Excluding Exam Week)

Time Of Studying Out Of Class

Homeworks

Presentation

Project

Lab Study

Field Study

Visas

Finals

Workload Hour (30)

Total Work Charge / Hour

179

Course's ECTS Credit

Assessment Methods and Criteria

Studies During Halfterm

Number

Co-Effient

Visa

Quiz

Homework

Attendance

Application

Lab

Project

Workshop

Seminary

Field study

TOTAL

100

The ratio of the term to success

The ratio of final to success

TOTAL

100

Weekly Detailed Course Content

Week	Topics
1	Review of Probability and Statistics.

2	Commonly Used Probability Distributions

3	Common Distrubitions in Component Reliability

4	Hypothesis Tests and Concept of Confidence �nterval.

5	Basic Concept of Reliability

6	Introduction to Reliability Engineering

7	Introduction to Reliability Engineering (Continue).

8	Elements of Risk Assessment

9	Probabilistic Risk Assessment

10	Representation of Risk Values and Risk Acceptance Criteria

11	Identifying, Ranking, And Predicting Contributors to Risk

12	Decision Making Techniques Using Risk �nformation

13	Probabilistic Optimisation

14	Applications of Reliability Based Design.