. .. Introduction,

. Marine and . .. Impacts,

. .. Conclusions,

. .. References,

, Guidance Notes on the Application of Fiber Rope for Offshore Mooring, 2014.

, API-RP-2SM. Design, Manufacture, Installation, and Maintenance of Synthetic Fiber Ropes for Offshore Mooring, 2014.

, API-RP-2SK. Design and Analysis of Stationkeeping Systems for Floating Structures, 2005.

V. Arnal, T. Soulard, C. E. Berhault, and . De, Sensibilite Aux Chargements Hydrodynamiques Et Aerodynamique Pour Les Eoliennes Offshores Flottantes, Dans Des Conditions Extremes. 15eme journée d'hydrodynamique, pp.22-24, 2016.

S. Banfield and I. M. Ridge, Fatigue durability of nylon rope for permanent mooring design, pp.19-22, 2017.

S. J. Banfield and N. Casey, FATIGUE MECHANISMS AND RESIDUAL PROPERTIES OF POLYESTER ROPES

C. Berhault and . Sem-rev, Corrosion et Usure

C. Berhault, L. Crom, I. , L. Bihan, G. Rousset et al., du projet au site opérationnel: retour d'expérience. 14èmes Journées Nationales Génie Côtier -Génie Civil, 2007.

K. R. Bitting, The dynamic behavior of nylon and polyester line, Apr, 1980.

R. L. Bosman and J. Hooker, The Elastic Modulus Characteristics of Polyester Mooring Ropes, OTC, vol.10779, pp.2-6, 1999.

M. G. Brown, T. D. Hall, D. G. Marr, M. English, and R. O. Snell, Floating Production Mooring Integrity JIP -Key Findings, Offshore Technology Conference, 2005.

, HydroStar for expert user manual, BV, 2016.

, NR-493-DT-R03-E. Classification of Mooring Systems for Permanent and Mobile Offshore Units, BV, 2015.

, Bureau Veritas Guidance Note NI-604-DT-R00-E. Fatigue of Top Chain of Mooring Lines due to In-plane and Out-of-plane bending, BV, 2014.

, Guidance Note NI 432 DTO R01E, Certification of Fibre Ropes for Deepwater Offshore Services, BV, 2007.

Y. Chevillotte, Y. Marco, P. Davies, G. Bles, and M. Arhant, Fatigue of polyamide mooring ropes for floating wind turbines. MATEC Web of Conferences165, p.10002
URL : https://hal.archives-ouvertes.fr/hal-01811174

D. Vecchio and C. J. , Light Weight Material for Deepwater Mooring, 1992.

. Dnv and . Dnv, Offshore Standard -Position Mooring. DNV-OS-E301, 2010.

. Dnvgl and . Rp-e305, Design, testing and analysis of offshore fibre ropes, 2015.

. Ecole-centrale-de-nantes, . Floatgen, and F. La-première-Éolienne-en-mer-en, , p.29, 2018.

, Floatgen, la première éolienne en mer en France

E. Falkenberg, V. Ahiem, L. Yang, and . Dnvgl, Best Practice for Analysis of Polyester Rope Mooring Systems, Offshore Technology Conference. OTC-27761-MS, 2017.

E. Falkenberg, L. Yang, and V. Ahiem, The Syrope Method for Stiffness Testing Of Polyester Ropes, Proceedings of the ASME 2018 37th International Conference on Ocean, pp.3782-3787, 2018.

A. C. Fernandes, D. Vecchio, C. J. Castro, and G. A. , Mechanical properties of polyester mooring cables, International Journal of Offshore and Polar Engineering, vol.9, pp.208-213, 1999.

J. Fernández and W. Storesund, Fatigue Performance of Grade R4 and R5 Mooring Chains in Seawater, pp.1-6, 2014.

J. Flory, V. Ahjem, and S. J. Bandfield, A New Method of Testing for Change-in-Length Properties of Large Fiber-Rope Deepwater Mooring Lines, Offshore Technology Conference, 2007.

J. Flory and S. J. Banfield, Durability of polyester ropes used as deepwater mooring lines. 0197-7385 OCEANS, pp.18-21, 2006.

J. Flory, M. Parsey, and C. Leech, A method of predicting rope life and residual strength. OCEAN 1989, pp.18-21, 1989.

J. F. Flory, S. J. Banfield, I. M. Ridge, B. Yeats, T. Mackay et al., Mooring systems for marine energy converters, pp.19-23, 2016.

M. François and P. Davies, Fibre rope for Deepwater Mooring: A Practical Model for The Analysis of Polyester Mooring Systems, Proc. of Rio O&G conf, 2000.

M. François, P. Davies, F. Grosjean, and F. Legerstee, Modelling fibre rope loadelongation properties -polyester and other fibres. OTC 20846, 2010.

W. Huang, H. Liu, Y. Lian, and L. Li, Modeling nonlinear creep and recovery behaviors of synthetic fiber ropes for deepwater moorings, Appl. Ocean Res, vol.39, pp.113-120, 2013.

J. W. Hearle, M. R. Parsey, M. S. Overington, and S. J. Bandfield, Modelling the long-term fatigue performance of fibre rope, Proceedings of the Third International Offshore and Polar Engineering Conference, pp.6-11, 1993.

M. B. Huntley, Fatigue and Modulus Characteristics of Wire-Lay Nylon Rope

, MTS/IEEE Oceans Conference Proceedings, 2016.

Y. Kim, M. Kim, and M. Park, Fatigue analysis on the mooring chain of a spread moored FPSO considering the OPB and IPB, International Journal of Naval Architecture and Ocean Engineering, p.96, 2017.

M. Kim, D. Yu, and . Zhang-jun, Dynamic simulation of Polyester Mooring Lines

, Deepwater Mooring Systems Concepts, Design, Analysis, and Material, pp.101-114, 2003.

J. Lardier and T. Moan, Fatigue Reliability of Catenary Mooring Lines Under Corrosion Effect, Proceedings of the ASME 27th International Conference on Offshore Mechanics and Arctic Engineering OMAE2008, 2008.

C. Lechat, . Comportement, E. De-fibres, and . Offshore, , 2007.

Z. Lin and P. Sayer, An enhanced stiffness model for elastic lines and its application to the analysis of a moored floating offshore wind turbine, Ocean Eng, vol.109, pp.444-453, 2015.

H. Liu, Y. Lian, L. Li, and Y. Zhang, Experimental Investigation on Dynamic Stiffness of Damaged Synthetic Fiber Ropes for Deepwater Moorings, J. Offshore Mech. Arct. Eng, vol.137, p.61401, 2015.

H. Liu, W. Huang, Y. Lian, and L. Li, An experimental investigation on nonlinear behaviors of synthetic fiber ropes for deepwater moorings under cyclic loading, Appl. Ocean Res, vol.45, pp.22-32, 2014.

K. Ma, C. Energy, T. Company, A. Duggal, P. Smedley et al., A Historical Review on Integrity Issues of Permanent Mooring Systems. OTC 24025, 2013.

J. Mandell, Modelling of marine rope fatigue behavior, Textile Research Journal, pp.318-330, 1987.

J. Mandell, M. G. Steckel, . Chung-s.-s, and . Kenney-m.c, Fatigue and environmental resistance of polyester and nylon fibers, POLYMER ENGINEERING AND SCIENCE, vol.27, issue.75, 1987.

H. A. Mckenna, J. W. Hearle, and N. O'hear, Handbook for fiber rope technology, 2004.

R. E. Melchers, T. Moan, and Z. Gao, Corrosion of working chains continuously immersed in seawater, Journal of Marine Science and Technology

. Ocimf and . Ocimf, Guidelines for The Purchasing and Testing of SPM Hawsers, p.97, 2000.

. Orcina, User Manual Online

M. Parsey, Fatigue of SPM Mooring Hawsers, Proceedings of Offshore Technology Conference, vol.4307, 1982.

H. D. Pham, P. Cartraud, F. Schoefs, T. Soulard, and C. Berhault, Dynamic Modeling of Nylon Mooring Lines for a Floating Wind Turbine, Appl. Ocean Res, vol.87, pp.1-8, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02075046

, Ramnäs. Quality Chains and Accessories, 2013.

I. M. Ridge, S. J. Banfield, and J. Mackay, Nylon Fibre Rope Moorings for Wave Energy Converters, OCEANS 2010. Royal IHC. UNDERWATER FAIRLEAD

F. Schoefs, A. Clément, and A. Nouy, Assessment of ROC curves for inspection of random fields, Struct. Saf, vol.31, pp.409-419, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01005279

C. Spraul, H. D. Pham, V. Reynaud, and M. , Effect of Marine Growth on Floating Wind Turbines Mooring Lines Responses, AFM 2017 23ème Congrès Français de Mécanique, 2017.

A. Tahar and M. H. Kim, Coupled-dynamic analysis of floating structures with polyester mooring lines, Ocean Eng, vol.35, pp.1676-1685, 2008.

A. Varney, R. Taylor, and W. Seelig, Evaluation of Wire-Lay Mooring Lines in a Wave Energy Device Field Trial, MTS/IEEE Oceans 2013 Conference Proceedings, 2013.

S. D. Weller, L. Johanning, P. Davies, and S. J. Banfield, Synthetic mooring ropes for marine renewable energy applications, Renew. Energy, vol.83, pp.1268-1278, 2015.

S. D. Weller, L. Johanning, P. Davies, and S. J. Banfield, Synthetic mooring ropes for marine renewable energy applications, Renewable Energy, vol.83, pp.1268-1278, 2015.

S. D. Weller, P. Davies, A. W. Vickers, and L. Johanning, Synthetic rope responses in the context of load history: The influence of aging, Ocean Eng, vol.96, pp.192-204, 2015.

. .. Introduction, 105 2.3 Comparison of fatigue damage calculated by spectral fatigue approaches and time domain analysis

. Methodology, . Service, . Of, and . .. Lines, 114 4.3 Reliability assessment for the case study

. Simulation, . Non-gaussian, . Based, . Artificial, and . .. Network, 123 5.1 Artificial Neural Network (ANN) for simulation of nonlinear mooring response

. .. Conclusions,

. .. References,

, Figure 3-19to DNV-OS-E301 (DNV, 2010) and the safety factor approach according to API RP 2SK, 2005.

. Api and . American, Petroleum Institute. API-RP-2SK. Design and Analysis of

, Stationkeeping Systems for Floating Structures, 2005.

H. R. Aqdam, M. M. Ettefagh, and R. Hassannejad, Health monitoring of mooring lines in floating structures using artificial neural networks, Ocean Eng, vol.164, pp.284-297, 2018.

E. Ayala-uraga and T. Moan, Time-variant reliability assessment of FPSO hull girder with long cracks, Journal of Offshore Mechanics and Arctic Engineering, vol.129, pp.81-89, 2007.

D. Benasciutti and R. Tovo, Comparison of spectral methods for fatigue damage assessment in bimodal random processes, pp.3181-3188, 2005.

D. Benasciutti and R. Tovo, Spectral methods for lifetime prediction under wideband stationary random processes, Int. J. Fatigue, 2004.

J. S. Bendat and A. G. Piersol, Random data: analysis and measurement procedures, 2000.

E. M. Bitner-gregersen, E. H. Cramer, and R. Løseth, Uncertainties of load characteristics and fatigue damage of ship structures, Mar. Struct, vol.8, pp.97-117, 1995.

C. Braccesi, F. Cianetti, G. Lori, and D. Pioli, The frequency domain approach in virtual fatigue estimation of non-linear systems: The problem of non-Gaussian states of stress, International Journal of Fatigue, vol.31, pp.766-775, 2009.

K. Breitung, Asymptotic approximations for multinormal integrals, J Eng Mech, vol.110, issue.3, pp.357-66, 1984.

W. Brindley and A. Comley, North Sea Mooring Systems: How Reliabile Are They? In: ASME 2014 33rd International Conference on Ocean, Offshore and Arctic Engineering 1AT01A025, 2014.

, Guidance Note NI 604 DT R00 E. Fatigue of Top Chain of Mooring Lines due to In-plane and Out-of-plane bending, 2014.

, NR 493 DT R03 E. Classification of Mooring Systems for Permanent and Mobile Offshore Units, BV, 2015.

N. H. Christiansen, P. E. Voie, and J. Høgsberg, Artificial Neural Networks for Reducing Computational Effort in Active Truncated Model Testing of Mooring Lines, Proceedings of the ASME 2015 34th International Conference on Ocean, Offshore and Arctic Engineering, 2015.

L. Christensen, E. Friis-madsen, and J. P. Kofoed, The wave energy challenge, 2005.

, The Wave Dragon case, Proceedings of PowerGen, 2005.

F. Cianetti, M. Palmieri, C. Braccesi, and G. Morettini, Correction formula approach to evaluate fatigue damage induced by non-Gaussian stress state, 2017.

, International Conference on Stress Analysis, vol.2017, pp.6-9, 2017.

A. Der-kiureghian, H. Lin, and S. Hwang, Second-order reliability approximations, J Eng Mech, vol.113, issue.8, pp.1208-1233, 1987.

, DNV. Offshore Standard -Position Mooring. DNV OS-E301, 2010.

B. Fiessler, R. Rackwitz, and H. Neumann, Quadratic limit states in structural reliability

D. Eng-mech, , vol.105, pp.661-76, 1979.

M. Finucane, Details of Gryphon incident of 4th February 2011 and lessons learned, 2012.

Z. Gao, T. Moan, and S. E. Heggelund, Time Variant Reliability of Mooring System Considering Corrosion Deterioration, 24th Int, Conf. Offshore Mech. Arct. Eng, vol.2, pp.203-210, 2005.

Z. Gao, Stochastic Response Analysis of Mooring Systems with Emphasis on Frequency-domain Analysis of Fatigue due to Wide-band Response Processes, 2008.

Z. Gao and T. Moan, Frequency domain multi-modal formulation for fatigue analysis of Gaussian and non-Gaussian wide-band process. Centre for Ship and Ocean Structure, 2010.

R. Guarize, N. A. Matos, L. V. Sagrilo, and E. C. Lima, , 2007.

K. Gurley, A. Kareem, and M. Tognarelli, Simulation of a Class of Non-Normal Random Processes, International Journal of Nonlinear Mechanics, vol.31, issue.5, p.601617, 1996.

O. Hagen and L. Tvedt, Vector process out-crossing as a parallel system sensitivity measure, Journal of Engineering Mechanics

V. Harnois, P. R. Thies, and L. Johanning, On Peak Mooring Loads and the Influence of Environmental Conditions for Marine Energy Converters, J. Mar. Sci. Eng, 2016.

A. M. Hasofer and N. C. Lind, An exact and invariant first-order reliability format, J Eng Mech Div, vol.100, pp.111-132, 1974.

J. Hertz, A. Krogh, and A. G. Palmer, Introduction to the Theory of Neural Computation, 1991.

S. Haykin, Neural Networks: A Comprehensive Foundation, 1999.

J. T. Horn, J. R. Krokstad, and B. J. Leira, Impact of model uncertainties on the fatigue reliability of offshore wind turbines, Mar. Struct, vol.64, pp.174-185, 2019.

T. Hørte, H. Lie, and J. Mathisen, Calibration of an ultimate limit state for mooring lines 17th Conference of Mechanics and Artic Engineering, pp.98-1457, 1998.

G. Jiao and T. Moan, Probabilistic analysis of fatigue due to Gaussian load processes, Probabilistic Engineering Mechanics, vol.5, issue.2, pp.76-83, 1990.

R. Kalra, M. C. Deo, R. Kumar, and V. K. Agarwal, Artificial neural network to translate offshore satellite wave data to coastal locations, Ocean Eng, vol.32, pp.1917-1932, 2005.

Y. Kim, H. Kim, and I. G. Ahn, A study on the fatigue damage model for Gaussian wideband process of two peaks by an artificial neural network, Ocean Eng, vol.111, 2016.

K. Larsen and J. Mathisen, Reliability-based mooring design for a drilling semisubmersible, Proceedings of the 6th International Offshore and Polar Engineering Conference, vol.IV, pp.457-466, 1996.

C. B. Li and J. Choung, Fatigue damage analysis for a floating offshore wind turbine mooring line using the artificial neural network approach, Ships Offshore Struct, vol.12, pp.288-295, 2017.

W. Luo and R. V. Ahilan, Mooring safety assessment using reliability techniques, Proceedings of the Offshore Technology Conference, 1991.

H. Liu, Y. Lian, L. Li, and Y. Zhang, Experimental Investigation on Dynamic Stiffness of Damaged Synthetic Fiber Ropes for Deepwater Moorings, J. Offshore Mech. Arct

. Eng, , vol.137, p.61401, 2015.

P. Liu, Der Kiureghian A. Optimization algorithms for structural reliability, Struct Saf, vol.9, issue.3, pp.161-77, 1991.

K. Ma, C. Energy, T. Company, A. Duggal, P. Smedley et al., A Historical Review on Integrity Issues of Permanent Mooring Systems. OTC 24025, 2013.

H. O. Madsen, S. Krenk, and N. C. Lind, Methods for Structural Safety, 1986.

M. J. Marley and T. Moan, Time variant formulation for fatigue reliability, Proceedings of the 11th International Conference on Offshore Mechanics and Arctic Engineering, 1992.

J. Mathisen, K. Larsen, T. Hørte, and H. Lie, Calibration of Progressive Collapse Limit State for Mooring Lines. 17th Conference of Mechanics and Artic Engineering

J. Mathisen and T. Hørte, Calibration of a Fatigue Limit State for Mooring Lines, International Conference on Computational Methods in Marine Engineering. MARINE 2005, 2005.

. Matlab, Fit Data with a Shallow Neural Network

R. E. Melchers, T. Moan, and Z. Gao, Corrosion of working chains continuously immersed in seawater, Journal of Marine Science and Technology

R. E. Melchers, Structural Reliability: Analysis and Prediction

M. Mr?nik, J. Slavi?, and M. Boltezar, Frequency-domain methods for a vibration fatiguelife estimation -Application to real data, International Journal of Fatigue, vol.47, pp.8-17, 2013.

H. D. Pham, P. Cartraud, F. Schoefs, T. Soulard, and C. Berhault, Dynamic Modeling of Nylon Mooring Lines for a Floating Wind Turbine, Appl. Ocean Res, vol.87, pp.1-8
URL : https://hal.archives-ouvertes.fr/hal-02075046

H. Pham, F. Schoefs, T. Soulard, P. Cartraud, H. Pham et al., Methodology for modeling and service life monitoring of mooring lines of floating wind turbines

H. Pham, FPSO -Fiabilité des lignes d'ancrage avec prise en compte de fatigue: Evaluation de la fiabilité des lignes d'ancrage des FPSO au Vietnam avec prise en compte du dommage accumulé de fatigue, 2010.

H. H. Pham, Methodology for total reliability evaluation of the mooring lines of floating offshore structures, The Vietnam Symposium on Advances in Offshore Engineering (VSOE), 2018.

K. H. Pham, Q. C. Dinh, H. Q. Mai, and V. Nguyen, Estimation of the Total Reliability of Offshore Structures in Vietnam Sea Conditions Combining the Ultimate State and Fatigue Limit States. Proceeding of OCEANS'04 MTS, pp.176-185, 2004.

A. C. Pina, A. A. Pina, A. C. Lima, B. S. Jacob, and B. P. , ANN-based surrogate models for the analysis of mooring lines and risers, Appl Ocean Res, vol.41, p.76, 2013.

A. Preumont, Random vibration and spectral analysis, 1994.

R. Rackwitz and B. Flessler, Structural reliability under combined random load sequences

, Comput Struct, vol.9, issue.5, pp.486-94, 1978.

C. Rendón-conde and E. Heredia-zavoni, Reliability assessment of mooring lines for floating structures considering statistical parameter uncertainties, Appl. Ocean Res, vol.52, pp.295-308, 2015.

I. Rychlik, A new definition of the rainflow cycle counting method, International Journal of Fatigue, vol.9, issue.2, pp.119-121, 1987.

S. Sarkani, D. P. Kihl, and J. E. Beach, Fatigue of welded joints under narrowband non-Gaussian loadings, Probabilist. Eng. Mech, vol.9, pp.179-190, 1994.

F. Schoefs, A. Clément, and A. Nouy, Assessment of ROC curves for inspection of random fields, Struct. Saf, vol.31, pp.409-419, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01005279

D. E. Sidarta, J. O. Sullivan, J. Kyoung, and K. F. Lambrakos, Prediction of Offshore Platform Mooring Line Tensions Using Artificial Neural Network, Proceedings of the ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering. OMAE2017, 2017.

R. Snell, R. V. Ahilan, and T. Versavel, Reliability of mooring systems: Applications to polyester moorings, Proceedings of the Offshore Technology Conference, 1999.

C. Spraul, H. D. Pham, V. Reynaud, and M. , Effect of Marine Growth on Floating Wind Turbines Mooring Lines Responses, AFM 2017 23ème Congrès Français de

. Mécanique, , 2017.

P. R. Thies, L. Johanning, V. Harnois, H. C. Smith, and D. N. Parish, Mooring line fatigue damage evaluation for floating marine energy converters: Field measurements and prediction, Renew. Energy, vol.63, pp.133-144, 2014.

P. Thoft-christensen and M. J. Baker, Structural Reliability Theory and its Applications

R. Tovo, Cycle distribution and fatigue damage under broad-band random loading, Int. J. Fatigue, vol.24, issue.11, pp.1137-1147, 2002.

L. Tvedt, Distribution of quadratic forms in normal space-application to structural reliability, J Eng Mech, vol.116, issue.6, pp.1183-97, 1990.

A. O. Vazquez-hernandez, G. B. Ellwanger, and L. V. Sagrilo, Reliability-based comparative study for mooring lines design criteria, Appl. Ocean Res, vol.28, p.398, 2006.

S. D. Weller, L. Johanning, and P. Davies,

S. R. Winterstein, Nonlinear vibration models for extremes and fatigue, J Eng Mech, vol.114, pp.1772-89, 1988.

C. Wright, V. Pakrashi, and J. Murphy, The dynamic effects of marine growth on a tension moored floating wind turbine, Proceedings of Renew 2016, 2nd International Conference on Renewable Energies Offshore, 2016.

Y. Wu, T. Wang, Ø. Eide, and K. Haverty, Governing factors and locations of fatigue damage on mooring lines of floating structures, vol.96, pp.109-124, 2015.

X. Xue, N. Z. Chen, Y. Wu, Y. Xiong, and Y. Guo, Mooring system fatigue analysis for a semi-submersible, vol.156, pp.550-563, 2018.

S. Yang, J. W. Ringsberga, E. Johnsona, and Z. Huc,

S. F. Yasseri, H. Bahai, H. Bazargan, and A. Aminzadeh, Prediction of safe sea-state using finite element method and artificial neural network, Ocean Eng, vol.37, pp.200-207, 2010.

L. Yu, P. K. Das, and D. P. Barltrop, A new look at the effect of bandwidth and nonnormality on fatigue damage, Fatigue Fract Eng Mater Struct, vol.27, pp.51-59, 2003.

H. D. Pham, F. Schoefs, T. Soulard, P. Cartraud, H. H. Pham et al., Methodology for modeling and service life monitoring of mooring lines of floating wind turbines, Ocean Eng, vol.193, p.1

C. Spraul, H. D. Pham, V. Reynaud, and M. , Effect of Marine Growth on Floating Wind Turbines Mooring Lines Responses, AFM 2017 23ème Congrès Français de Mécanique, 2001.

, Presenting author), pp.1-17, 2017.

, Presentation 1

H. D. Pham, P. Cartraud, F. Schoefs, and T. Soulard, Mooring lines for Floating Wind Turbines, modeling and monitoring issues. Blue day -Les Ancrages pour les EMR: Du Chaumard à L'Ancre, 2019.

, Presentation 2

H. D. Pham, P. Cartraud, F. Schoefs, and T. Soulard, Methodology for modeling and service life monitoring of mooring lines of floating wind turbines, 2nd International Conference on Health Monitoring of Civil & Maritime Structures -HeaMES, pp.23-24, 2019.

H. D. Pham, P. Cartraud, F. Schoefs, and T. Soulard, Modeling and service life monitoring of mooring lines for floating wind turbines

, French American Innovation Day -FAID, vol.2019, 2019.