Research on Low-Cost Design Method of Offshore Platform DPS before Construction

Ikuo Yamamoto; Shuichi Ishida; Takayuki Asanuma; Katsuya Maeda; René Nuijten; Hugo T. Grimmelius

doi:10.4028/www.scientific.net/AMM.271-272.1402

Paper Titles

Parametric Vibration Responses of Electromechanical Integrated Toroidal Drive
p.1383

Pressure Drop Coefficient Identification of Steam Network Model Based on Genetic Algorithm
p.1388

Research on Arrangement and Vision of Vehicle Rear View Mirror
p.1393

Research on Dimension Synthesis of Straight-Lines Mechanism for Rigid-Body Guidance by Using Numerical Atlas Method
p.1397

Research on Low-Cost Design Method of Offshore Platform DPS before Construction
p.1402

Research on Triangular Mesh Simplification Algorithm of Virtual Object Model
p.1410

Stress Performance Analysis on New Type of Concrete-Filled Steel Tube Pre-Stressed Truss Continuous Beam Bridge
p.1415

Structural Design Optimization of the Rotary Table of a Floor Type Boring Machine for Minimum Weight and Compliance by Using GA
p.1421

Study of the Model and Algorithm in Linear Programming of Maintainability Growth Project
p.1427

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 271-272Research on Low-Cost Design Method of Offshore...

Research on Low-Cost Design Method of Offshore Platform DPS before Construction

Abstract:

In this paper a description is given about the implementation of the Dynamic positioning system in the Seabex (special model ship) software of ship. The effectiveness of DPS is confirmed by numerical simulation and tank test using a model ship. This research is an effective approach to design an offshore platform DPS at one-tenth of cost of conventional method.

You might also be interested in these eBooks

Frontiers of Manufacturing and Design Science III

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 271-272)

Pages:

1402-1409

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.271-272.1402

Citation:

Cite this paper

Online since:

December 2012

Authors:

Ikuo Yamamoto, Shuichi Ishida, Takayuki Asanuma, Katsuya Maeda, René Nuijten, Hugo T. Grimmelius

Keywords:

Dynamic Positioning System, Fuzzy Control, Low-Cost Design, Offshore Platform, Oil Field, PID Control, Tank Test

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] I. Yamamoto, Y. Terada, K. Yokokura: An application of a position keeping control system to floating offshore platform, Proc. IEEE IECON, Vol. 3 (1991).

DOI: 10.1109/iecon.1991.239057

Google Scholar

[2] I. Yamamoto, M. Matsumoto, Y. Yamaguchi, A. Tanabe, K. Shimazaki: Dynamic Positioning System Based on Nonlinear Programming for Offshore Platform, Proc. 7th ISOPE, Vol. 4 (1997), pp.51-56.

Google Scholar

[3] Y. Terada, T. Ohiwa, I. Yamamoto, S. Ohnaka: Development of Advanced Dynamic Positioning Systems for Bridge Construction Support Vessel, Proc. IFAC CAMS (1998), pp.95-98.

DOI: 10.1016/s1474-6670(17)38422-7

Google Scholar

[4] I. Yamamoto, M. Matsuura, N. Okamoto: Dynamic positioning system of offshore platform by advanced control, Proc. OMAE, OFT-5102, ASME, Vol. 3, No. 1 (2001), pp.43-50.

Google Scholar

[5] I. Yamamoto: Robust and non-linear control of marine system, Int J Robust and Nonlinear Control, Vol. 11, No. 13, (2001), pp.1285-1341.

DOI: 10.1002/rnc.606

Google Scholar

[6] I. Yamamoto, M. Ihara, N. Okamoto, M. Matsuura, E. Kobayashi: Improvement of Position Keeping Performance and Its Effect on the Operation Rate in FPSO Tandem Offloading, Proc. ISOPE (2002), pp.124-131.

Google Scholar

[7] I. Yamamoto: Fault-Tolerance Design of Motion Control for Offshore Platform, Proc. ATMA (2008).

Google Scholar

[8] I. Yamamoto, K. Maeda, T. Asanuma: Research on the next generation dynamic positioning system of offshore platform in Japan, Proc. IFAC CAMS (2010), pp.351-356.

DOI: 10.3182/20100915-3-de-3008.00083

Google Scholar

[9] A. Tjallema, H. Brugts: FPSO Operations on Dynamic Positioning, Proc. ASME 2011 30th Int. Conf. Ocean, Offshore and Arctic Eng. (OMAE2011), paper no. OMAE2011-50108 (2011), pp.929-940.

Google Scholar