Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2American Society of Mechanical Engineers, 2001 - Arctic regions |
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Page 123
Substituting the above expression into equation ( 9 ) and performing the appropriate numerical evaluation results in ... and / or no inspection was undertaken can be evaluated by equating Oh and / or PoD ( a ) to zero , respectively .
Substituting the above expression into equation ( 9 ) and performing the appropriate numerical evaluation results in ... and / or no inspection was undertaken can be evaluated by equating Oh and / or PoD ( a ) to zero , respectively .
Page 167
Appendix - Vertex Method As an example , the evaluation of the fuzzy function Y in equation ( 13 ) is considered . The foregoing function can be evaluated at each a - cut . For example , at a = 0 , assume that , X = ( 6,8 ) C = ( 600 ...
Appendix - Vertex Method As an example , the evaluation of the fuzzy function Y in equation ( 13 ) is considered . The foregoing function can be evaluated at each a - cut . For example , at a = 0 , assume that , X = ( 6,8 ) C = ( 600 ...
Page 394
... to arrive at design loads , distribution of load ranges , for fatigue analysis lines , is made , and the dynamic response of the whole system is evaluated by time domain simulation . thus resolving the above mentioned issues .
... to arrive at design loads , distribution of load ranges , for fatigue analysis lines , is made , and the dynamic response of the whole system is evaluated by time domain simulation . thus resolving the above mentioned issues .
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acceptable analysis applied approach assessment associated assumed calculated coefficient combined components considered corresponding corrosion cost crack criteria damage dependent depth determined developed directional distribution dynamic effect element Engineering environmental equation estimate evaluated example expected expressed extreme factor failure fatigue Figure force frequency function fuzzy given important increase initial inspection limit load loss maintenance marine maximum mean measures Mechanics method motion normal observed obtained offshore operations parameters peak performed period pipe pipeline platform possible prediction present probability procedure production random range relative reliability represented response return period riser risk safety ship shown shows significant simulation spectral spectrum statistical steel storm strength stress structure surface Table theory typical uncertainty variables wave height wind
Bibliographic information
| Title | Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2 Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, American Society of Mechanical Engineers. Offshore Mechanics and Arctic Engineering Division |
| Contributor | American Society of Mechanical Engineers. Offshore Mechanics and Arctic Engineering Division |
| Publisher | American Society of Mechanical Engineers, 2001 |
| Original from | the University of Michigan |
| Digitized | 4 Dec 2007 |
| Export Citation | BiBTeX EndNote RefMan |