A methodology for assessing the effect of different sources of uncertainty on the calculation of load effect on offshore structures is presented. A consistent classification of uncertainties was adopted and used as a basis to develop models to estimate the effect of different uncertainties on specified design loads. It is shown that distribution parameter uncertainties arising from limitations on the quantity of statistical data are not likely to have a significant effect on design loads. By contrast, model uncertainties can greatly increase the design loads, and the increase is sensitive to the probabilistic models used to describe model error. The methodology and results can be used by design engineers to take model uncertainties into account in estimating specified loads. They also form the basis for developing and calibrating a new information-sensitive code format.

1.
Bea, R. G., 1991, “Loading and Load Effects Uncertainties, Verification Program for CSA Code for the Design, Construction, and Installation of Fixed Offshore Structures,” Canadian Standard Association, Rexdale, Ontario, Canada.
2.
Cardone, V. J., Szabo, D., and Dello Stritto, F. J., 1989, “Development of Extreme Wind and Wave Criteria for Hibernia,” Proceedings of 2nd International Workshop on Wave Hindcast and Forecasting, Vancouver, B.C., Canada.
3.
Castillo, E., 1988, Extreme Value Theory in Engineering, Academic Press, Inc., London, U.K.
4.
Chakrabarti, S. K., 1987, Hydrodynamics of Offshore Structures, Computational Mechanics Publications, and Springer-Verlag, Great Britain.
5.
CSA Standard CAN/CSA-S471-92, 1992, “General Requirements, Design Criteria, the Environment, and Loads,” Canadian Standards Association, Rexdale, Ontario, Canada.
6.
Der Kiureghian
 
A.
,
1989
, “
Measures of Structural Safety Under Imperfect States of Knowledge
,”
Journal of Structural Engineering
, Vol.
115
, No.
5
, May, pp.
119
1140
.
7.
Ditlevsen
 
O.
,
1982
, “
Model Uncertainty in Structural Reliability
,”
Structural Safety
, Vol.
1
, pp.
73
86
.
8.
Faulkner, D., Guedes Soares, C., and Warwick, D. M., 1988, “Modelling Requirements for Structural Design and Assessment,” Integrity of Offshore Structure—3, Elsevier Science Publishing Co., Inc., pp. 25–54.
9.
Gollwitzer, S., Abado, T., and Rackwitz, R., 1988, “First Order Reliability Method (FORM),” RCP GmbH, Munich, West Germany.
10.
Harring, R. E., Olsen, O. A., and Johansson, P. I., 1979, “Total Wave Force and Moment vs. Design Practice,” Proceedings, Civil Engineering in the Ocean, San Francisco, CA, pp. 805–819.
11.
Jordaan
 
I. J.
, and
Maes
 
M. A.
,
1991
, “
Rationale for Load Specifications and Load Factors in the New CSA Code for Fixed Offshore Structures
,”
Canadian Journal of Civil Engineering
, Vol.
18
, pp.
454
464
.
12.
Lloyd, J. R., 1985, “Sensitivity of Design to Uncertainties in Environmental Loading,” Journal of Underwater Technology.
13.
Maes, M. A., 1986, “A Study of a Calibration of the New CSA Code for Fixed Offshore Structures,” Environmental Protection Branch Canada Oil and Gas Lands Administration Technical Report No. 7, Mar.
14.
Maes
 
M. A.
,
1990
, “
The Influence of Uncertainties on the Selection of Extreme Values of Environmental Loads and Events
,”
Civil Engineering System
, Vol.
7
, No.
2
, pp.
115
124
.
15.
Maes
 
M. A.
,
1991
, “
Codification of Design Load Criteria Subject to Modeling Uncertainty
,”
Journal of Structural Engineering
, Vol.
117
, No.
10
, Oct., pp.
2988
3007
.
16.
Manners, W., 1990, “Classification and Analysis of Uncertainty in Structural Systems,” Reliability and Optimization of Structural Systems ’90, Proceedings of the 3rd IRIP WG 7.5 Conference, Berkeley, CA, March 26–28, pp. 251–260.
17.
Nessim
 
M. A.
,
Hong
 
H. P.
,
Swail
 
V. R.
, and
Henderson
 
C. A.
,
1995
, “
Design Criteria for Offshore Structures Under Combined Wind and Wave Loading
,”
ASME JOURNAL OF OFFSHORE MECHANICS AND ARCTIC ENGINEERING
, Vol.
117
, Feb., pp.
1
11
.
18.
Rosenblueth
 
E.
,
1975
, “
Point Estimates for Probability Moments
,”
Proceedings, National Academy of Sciences of United States of America
, Vol.
7
, No.
10
, Oct., pp.
3812
3814
.
19.
Rosenblueth
 
E.
,
1981
, “
Point Estimation for Probability
,”
Applied Mathematical Modelling
, Vol.
5
, pp.
229
235
.
20.
Stuart, A., and Ord, J. K., 1987, Kendall’s Advanced Theory of Statistics, Vol. I, Oxford University Press, New York, NY.
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