An Analysis Nomoto Gain and Norbin Parameter on Ship Turning Maneuver

Aulia Siti Aisjah

Abstract


First order approach of maneuvering ship model developed by Nomoto, that has commonly underpinned researchers on mathematical models of ship maneuvering, is employed by the present research in order to describe the results of Nomoto validation gain value from some type of ships. In this present study, the controls are designated using FLC, while the rules are derived from FLC; furthermore, the reference is the LQG/LTR. On the other pole, Norbin parameters are obtained under the bases of the gain and time constant output control response. Validation of Nomoto gain value is obtained through the calculation of the value of a constant gain, settling time of the first order response, and approach value toward damping ratio and natural frequency response of the system used to control the output of the second order pattern. Validation is employed on 20 types of ships with a length between 40-350 meters; as a result, it is figured out that at the Low Speed General Cargo ship, Mariner, RO/RO, and Barge Carrier have good maneuverability compared to the other 17 types of ships.

Keywords


FLC; maneuver; fuzzy; LQG/LTR; Nomo-to; Norbin

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References


Mirosław Tomera, 2009, “Nonlinear controller design of a ship autopilot”, Int. J. Appl. Math. Comput. Sci., 2010, Vol. 20, No. 2, pp. 271–280 DOI: 10.2478/v10006-010-0020-8

Yaohua Hu, Suwu Xu, 2010, “Generalized predictive controller design for ship track keeping”, ICCSNS International Journal of Computer Science and Network Security, May, Vol 9. No. 5.

Fossen, T.I, 1992, “Guidance and controehicle”, John Wiley and Sons, 1994, pp. 79–81.

Lewis. E., 1989, “Priciples of naval architecture: second revision,. motion and waves and controllability”, The Society ofNaval Architecturs and Marine Engineers 601 Pavonia Avenue, Vol. III, pp. 27.

Aisjah, A.S, et al, 2011, “Analisa performansi MCST-

(Monitoring and Control in Sea Transportation) pada kondisi kepadatan lalu lintas pelayaran di Alur Barat Tanjung Perak, Proposal Penelitian Kompetitif ITS.

Aisjah, A.S., Soegiono, Masroeri, AA., Djatmiko, E.B., Wasis dan Sutantra, I.N., 2004, “Tracking linier wahana laut berbasis logika fuzzy”, Seminar Nasional Pasca Sarjana ITS, Agustus.

Aisjah, A.S., Soegiono, Masroeri, AA., Djatmiko, E.B., Wasis, Sutantra, I.N dan Buda, K., 2005, “Pengembangan kontrol tracking wahana laut berbasis logika fuzzy”, Seminar Nasional Fakultas Teknologi Industri ITS, Maret.

Aisjah, A.S., Soegiono, Masroeri, A.A., Djatmiko, E.B. ,Wasis, Sutantra I.N. dan Buda, K., 2005, “A study of extended fuzzy logic control for ship maneuvering based on LQG/LTR control”, Seminar Nasional Fakultas Teknologi Industri ITS, Maret.

Aisjah, A.S., Masroeri, AA., 2005 , “Maneuvering sea vehicle using lqr control”, Proceeding Seminar Pasca Sarjana ITS, Agustus.

Aisjah, A.S., Masroeri, A.A. 2005, “Extended fuzzy logic control for ship maneuvering based on LQG/LTR control”, International Seminar ISME – Japan, October.

Aisjah, A.S., Soegiono, Masroeri, A.A., Djatmiko, E.B., Wasis, D.A, dan Sutantra, I.N , 2007, “Strategi kontrol robust LQG/LTR dalam mengatasi gangguan gelombang dan arus laut pada kapal”, Jurnal GEMATEK STIKOM Surabaya, Maret.

T.I Fossen, 1993, “High perfromance ship autopilot with wave filter”, 10’th Ship Control System Symposium (SCSS), Cannada,.

K. Ogata, 1998. “Modern control engineering”, M.G Hill,

B. Kuo, 1995, “Otomatic control”, Mc. Graw Hill, pp. 278.

Aisjah, A.S, 2007, “Pengembangan sistem kontrol logika fuzzy dengan model referensi kontrol LQG/LTR untuk membangun wahana tanpa awak”, Disertasi S3, Teknik Pengendalian Kelautan, FTK, ITS.

Wen-Hsien Ho, Chen-Huei Hsieh and Jyh-Horng Chou, 2010, “Optimal course handling control for nonlinear ship maneuvering systems”, International Journal of Innovative Computing, Information and Control ICIC, International 2010 ISSN 1349-4198, October, Vol. 6, No. 10.

Lozowicki, A.dan Tiano, A., 2000, “On the design of a high precission ship track keeping system”, 5th IFAC Conference on Maneuvering and Control of Marine Craft, MCMC 2000, Aalborg, Denmark.

Nejim, S., 1998, “Design of limited authority adaptive ship steering autopilots”, IFAC Conference CAM’S 98, 27–30 October, Fukuoka Japan.

Bertin, D., 1998, “Track Keeping Controller for a Precission Manoeuvring Autopilot”, IFAC Conference CAMS’98, Fukoka, Japan.

Kijima, K. dan Murata, K., (1998), “Design of a Dynamic Positioning System for Self – Propulsive Barge under External Disturbances”, IFAC Conference CAM’s ’98, Fukuoka Japan.

Strand, M. F. , Jann, P., dan Fossen, TI., 1998, “Nonlinear Vectorial Observer Backstepping with Integral Action and Wave filtering for Ships”, IFAC Conference CAM’S 98, Fukuoka Japan.

Strand, M.F, Jann, P. dan Fossen, T. I., 1998, “Nonliear output feedback and Locally Optimal Control of Dynamically Positioned Ships : Experimental Results”, IFAC Conference CAM’S 98, Fukuoka Japan.

Consegliere, A. dan Lopez, M.J., 2000, “H∞ Controller Tuning Method for Ship Autopilot”, 5th IFAC Conference on Manoeuverring and Control of Marine Craft, MCMC , Aalborg, Denmark.

Omerdick, E., dan Roberts, G.N., 2004, “A fuzzy track – keeping autopilot for ship steering’, Journal of Marine Engineering and Technology, Vol. A2.

Clarke, D., Gedling, P., and Hine, G., 1982, “The application of maneuvering criteria in hull design using linear theory”, Trans. Rina.




DOI: http://dx.doi.org/10.12962/j20882033.v21i2.31

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