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Risk and Reliability of offshore structures. Considering the importance of offshore structures, one has to recognize that there are other intrinsic uncertainties such as material properties, analysis methods, design procedures etc, which are addressed rationally....
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Risk and Reliability of offshore structures. Considering the importance of offshore structures, one has to recognize that there are other intrinsic uncertainties such as material properties, analysis methods, design procedures etc, which are addressed rationally....
Lecture1 - Introduction
47m
Lecture 2 - Uncertainties
43m
Lecture 3 - Uncertainties II
25m
Lecture 4 - Probability and Plausibility
35m
Lecture 5 - Rules of Probability
46m
Lecture 6 - Plausible Reasoning - I
38m
Lecture 7 - Plausible Reasoning - Quantitative rules
37m
Lecture 8 - Quantitative Rules
40m
Lecture 9 - Probability Distribution
40m
Lecture 10 - Random Variables
40m
Lecture 11 - Random Variables II
32m
Lecture 12 - Sampling Estimates
43m
Lecture 13 - Modelling of Environmental Loads
43m
Lecture 14 - Exercises I
40m
Lecture 1 - Introduction
40m
Lecture 2 - Components of Reliability analysis
44m
Lecture 3 - Levels of Reliability
38m
Lecture 4 - Error Estimation
40m
Lecture 5 - Reliability methods - I
44m
Lecture 6 - Reliability methods - II
35m
Lecture 7 - Reliability methods - III
37m
Lecture 8 - Reliability methods - IV
41m
Lecture 9 - System Reliability - I
37m
Lecture 10 - System Reliability II
40m
Lecture 11 - System Reliability - III
35m
Lecture 12 - Failure domains
45m
Lecture 13- Failure domains II
23m
Lecture 14 - Application Problem - I
45m
Lecture 15 - Application Problem - I continued
38m
Lecture 16 - Application Problem II
44m
Lecture 17 - Application Problem II continued
37m
Lecture 18 - Application Problem II continued
48m
Lecture 19 - Risk and Reliability
42m
Lecture 20 - Reliability analysis of structural systems
42m
Lecture 21- Codes on structural reliability
39m
Lecture 22 - Variables in Reliability analysis
40m
Lecture 23 - Mechanical models in Reliability analysis
48m
Lecture 24 - Mechanical modes in Reliability analysis II
38m
Lecture 25 - Stochastic Process I
45m
Lecture 26 - Stochastic Process II
45m
Lecture 1 - Fatigue Reliability
42m
Lecture 2 - Design SN curve
46m
Lecture 3 - Simplified Fatigue Assessment
38m
Lecture 4 - Short term fatigue damage
33m
Lecture 5 - Behaviour of tubular joints
50m
Lecture 6 - Tubular Joints - Experimental studies on T-Joints
47m
Lecture 7 - Risk Assessment
37m
Lecture 8 - Logical Risk analysis
41m
Lecture 9 - Risk analysis of Mechanical Systems
37m
Lecture 10 - FMEA II
38m
Lecture 11 - Design FMEA for Offshore Triceratops
41m
Lecture 12 - Fault Tree Analysis
41m
Lecture 13 - Event Tree Analysis
31m
Lecture 14 - Consequence Analysis
31m
Lecture 15 - Risk Acceptability
30m
Lecture 16 - Risk and Hazard assessment
46m
Lecture 17 - Risk Picture
33m
Lecture 18 - Risk Management
31m
Live Session
46m
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