[1. K. T. Ma, A. Duggal, P. Smedley, D. L'Hostis, and H. B. Shu, A historical review on integrity issues of permanent mooring systems, in Ofshore Technology Conference, Houston, TX, USA, 2013.]Search in Google Scholar
[2. J. Mohanraj, S. Cawthorne, S. Alverley, S. L. Fletcher, and J. Verwaayen, Development of a new generation of innovative synthetic wire mooring ropes, in Ofshore Technology Conference Brazil, Rio de Janeiro, Brazil, 2011.10.4043/22494-MS]Search in Google Scholar
[3. J. W. Beck and N. J. Vandenworm, “Mooring system design for a circular hull shape FPSO foater with spar like responses, in Ofshore Technology Conference Brazil, Rio de Janeiro, Brazil, 2011.10.4043/22715-MS]Search in Google Scholar
[4. P. Barusco, Mooring and anchoring systems developed in Marlin Field, in Ofshore Technology Conference, Houston, Texas, 1999.10.4043/10720-MS]Search in Google Scholar
[5. ISO, Petroleum and Natural Gas Industries-Specifc Requirements for Ofshore Structures-Part 7: Station Keeping Systems for Floating Ofshore Structures and Mobile Ofshore Units, 2005.]Search in Google Scholar
[6. American Petroleum Institute-API, Recommended Practice for Design and Analysis of Station Keeping Systems for Floating Structures-API RECOMMENDED PRACTICE 2SK, 2005.]Search in Google Scholar
[7. Det Norske Veritas-DNV, Ofshore Standard-Position Mooring-DNV OS-E301, 2004.]Search in Google Scholar
[8. J. Mathisen and K. Larsen, Risk-based inspection planning for mooring chain, Journal of Ofshore Mechanics and Arctic Engineering, vol. 126, no. 3, pp. 250-257, 2004.10.1115/1.1782644]Search in Google Scholar
[9. T. Lassen, J. L. Arana, L. Canada, J. Henriksen, and N. K. Holthe, Crack growth in high strength chain steel subjected to fatigue loading in a corrosive environment, in Proceedings of the 24th International Conference on Ofshore Mechanics and Arctic Engineering, Halkidiki, Greece, 2005.10.1115/OMAE2005-67242]Search in Google Scholar
[10. J. Mathisen, T. Hørte, V. Moe, and W. Lian, DEEPMOOR-design methods for deep water mooring systems, calibration of a fatigue limit state-DNV Report, No. 98-3110,1999.]Search in Google Scholar
[11. V. A. Omar, E. G. Bruno, and S. L. V. Sudati, Fatigue analysis and reliability of foating production systems mooring lines in deepwater, in Proceedings of the 17th International Conference on Ocean, Ofshore and Arctic Engineering, Lisbon, Portugal, 1998.]Search in Google Scholar
[12. Z. Gao and T. Moan, Wave-induced fatigue damage of mooring chain under combined non-gaussian low and wave frequency loads, in Proceedings of 25th International Conference on Ofshore Mechanics and Arctic Engineering, Hamburg, Germany, 2006.10.1115/OMAE2006-92389]Search in Google Scholar
[13. J. S. Han, Y. H. Kim, Y. J. Son, and H. S. Choi, A comparative study on the fatigue life of mooring systems with diferent composition, in 9th International Conference on Hydrodynamics, Shanghai, China, 2010.]Search in Google Scholar
[14. D. S. Qiao and J. P. Ou, Calculation on fatigue damage of deepwater catenary hybrid mooring line, Journal of Ship Mechanics, vol. 16, no. 4, pp. 422-432, 2012.POLISH MARITIME RESEARCH, No 3/2014 7515.]Search in Google Scholar
[15. W. Huang, H. X. Liu, G. M. Shan, and C. Hu, Fatigue analysis of the taut-wire mooring system applied for deep waters, China Ocean Engineering, vol. 25, no. 3, pp. 413-426, 2011.10.1007/s13344-011-0034-5]Search in Google Scholar
[16. Z. Gao, T. Moan, and S. E. Heggelund, Time variant reliability of mooring system considering corrosion deterioration, in Proceedings of the 24th International Conference on Offshore Mechanics and Arctic Engineering, Halkidiki, Greece, 2005.10.1115/OMAE2005-67429]Search in Google Scholar
[17. J. Lardier, T. Moan, and Z. Gao, Fatigue reliability of catenary mooring lines under corrosion efect, in Proceedings of the 27th International Conference on Ofshore Mechanics and Arctic Engineering, Estoril, Portugal, 2008.10.1115/OMAE2008-57360]Search in Google Scholar
[18. American Petroleum Institute-API, Recommended Practice for Design, Manufacture, Installation, and Maintenance of Synthetic Fiber Ropes for Ofshore Mooring Upstream Segment-API RECOMMENDED PRACTICE 2SM, 2001.]Search in Google Scholar
[19. R. E. Melchers, T. Moan, and Z. Gao, Corrosion of working chains continuously immersed in seawater, Journal of Marine Science and Technology, vol. 12, no. 2, pp. 102-110, 2007.10.1007/s00773-006-0227-4]Search in Google Scholar
[20. S. K. Chakrabarti, Handbook of Ofshore Engineering, Elsevier, the Boulevard, Langford Lane, Kidlington, Oxford OX5 IGB, UK, 2005.]Search in Google Scholar
[21. W. E. Cummins, Te Impulse Response Function and Ship Motions, Washington DC, DTMB, Report No. 1661, 1962.]Search in Google Scholar
[22. AQWA User Manual, AQWA-LINE Manual, Horsham, Century Dynamics Limited, 2006.]Search in Google Scholar
[23. D. S. Qiao and J. P. Ou, Global responses analysis of a semi-submersible platform with diferent mooring models in South China Sea, Ships and Offshore Structures, vol. 8, no. 5, pp. 441-456, 2013.10.1080/17445302.2012.718971]Search in Google Scholar
[24. N. E. Dowling, Fatigue failure predictions for complicated stress-strain histories, Journal of Materials, vol. 7, no. 1, pp. 71-87, 1972.10.21236/AD0736583]Search in Google Scholar