The System Identification Analysis of the Rolling Motion Model for the Unmanned Boat

Wang Lin Yang; Song Lin Yang; Sheng Zhang; Tian Yu Ma

doi:10.4028/www.scientific.net/AMR.1037.288

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1037The System Identification Analysis of the Rolling...

The System Identification Analysis of the Rolling Motion Model for the Unmanned Boat

Abstract:

In this paper, the author took an unmanned planting boat as the object of study and conducted a series of roll decay test on condition that the ship model was in different drafts and tilt angle. The author established eight kinds of mathematical model of roll decay motion model system identification by making a cross combination of linear or nonlinear righting moment and linear or nonlinear damping. Based on the principle of system identification, the author established the optimization calculation of the objective function. Then the author adapted the genetic algorithm of system identification program based on Visual Basic 6.0 and got eight kinds of identification programs. By identifying respectively the test data of the roll motion of the unmanned planting boat, the author confirmed the feasibility of the adapted program. Comparing large drafts and tilt angle identification results, the author found a reasonable hydrostatic roll motion equation of the unmanned planing boat in the case of large drafts and tilt angle, and made a preliminary analysis.

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Periodical:

Advanced Materials Research (Volume 1037)

Pages:

288-293

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1037.288

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Online since:

October 2014

Authors:

Wang Lin Yang*, Song Lin Yang, Sheng Zhang, Tian Yu Ma

Keywords:

Roll Motion Mode, Ship Model Test, System Identification, Unmanned Planing Boat

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* - Corresponding Author

References

[1] Huilei LI, Feng ZHU, Songlin YANG. Primary Analysis on Rolling Motion of Trimaran[A]. Procedings of 2011Asia-Pacific Youth Conference on Communication (2011APYCC) [C], Hangzhou, (2011).

Google Scholar

[2] Cui Jian, Wen Yiyan, Yang Songlin, a preliminary study on a new composite trisomy unmanned ram wing vehicles. The Sixteenth Academic Report China International Boat and Technical Equipment Exhibition and High Performance Marine Vessels, in Shanghai, (2011).

Google Scholar

[3] Ma Tianyu, Cui Jian, Yang Songlin, Trimaran manipulation and roll coupling exercise test analysis [J]. Ship Science and Technology, 2012, 34(11): 24-26, 36.

Google Scholar

[4] Jin Hongzhang, Wang Longjin, Li Dongsong, Huang Shaobo, Naval Architecture and Ocean Engineering [J] . 2009, 31(1): 31-34.

Google Scholar

[5] B.H. Yan*, L Yu. Theoretical model of laminar flow in tubes in rolling motion[J] . Applied Mathematical Modelling[C], 2012, 36: 2452-2465.

DOI: 10.1016/j.apm.2011.09.003

Google Scholar

[6] Ming-Chung Fang* , Young-Zoung, Zhuo, Zi-Yi Lee. The application of the self-tuning neural network PID controller on the ship roll reduction in random waves[J] . 2010, 37: 529-538.

DOI: 10.1016/j.oceaneng.2010.02.013

Google Scholar

[7] Zhao Lianen, Xie Yonghe. Principle and design of high performance ships [M], Beijing: National Defense Industry Press, (2009).

Google Scholar