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http://dx.doi.org/10.13000/JFMSE.2014.26.4.686

A Study on the Improvement of MSI by Ship Hull Form Modification of the Training Ship  

Han, Seung-Jae (Pukyong National University)
Lee, Seung-Chul (Pukyong National University)
Ha, Young-Rok (Koje College)
Jeong, Iee-Gyu (Korea Institute of Maritime and Fisheries Technology)
Kim, In-Chul (Pukyong National University)
Publication Information
Journal of Fisheries and Marine Sciences Education / v.26, no.4, 2014 , pp. 686-694 More about this Journal
Abstract
Research on ship motion and seasickness is recognized as the important research area to ensure the pleasant operative environment in addition to the research of operation safety of ship. In this paper, The motion performance in waves for the training ship Kaya of Pukyong National University is obtained by using the computer program based on Strip method. To guarantee the pleasant seafaring in ocean, the vertical acceleration of ship motion is calculated according to the hull form modification. The results of calculation by changes of hull form are compared with the guideline of MSI(Motion Sickness Incidence). The degree of motion sickness is shown and discussed through the comparison between calculated vertical acceleration spectrum and MSI guideline.
Keywords
Training ship; Vertical acceleration; MSI(Motion Sickness Incidence); Hull Form Modification;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 Yoon, H. K.. Lee, G. J. and Lee, D. K.(2008). Development of the Monitoring System of a Ship. Journal of Navigation and Port Research, 32(1). 15-22.   DOI
2 ITTC. 1957. Canal de Experiencias Hidrodinamicas, Proceedings of the 8th ITTC, Madrid, Spain.
3 Han, Seung-Jae et al.(2014)(2). A Study on Motion Sickness Incidence due to Changes in the Speed of the Training Ship Kaya. Journal of The Korean Society of Marine Environment and Safety, 20(2).   과학기술학회마을   DOI
4 ISO 2631-1(1997). Mechanical Vibration and Shock - Evaluation of Human Exposure to Whole-body Vibration-Part 1 : General requirement.
5 ISO 2631-3(1985). Evaluation of Human Exposure to Whole-body Vibration - Part 3 : Evaluation of Exposure to Whole-body Z-axis Vertical Vibration in the Frequency Range 0.1 to 0.63Hz.
6 ITTC. 1978. The Netherands Ship Model Basin, Proceedings of 15th ITTC, The Hague, The Netherlands.
7 Jung, Ch. H. and Lee, Y. S.(2008). A Study on the Ship's Performance of T.S HANBADA(II). Journal of Navigation and Port Research, 32(5), 333-339.   DOI
8 Ku, Youn-Kyoung(2012). Analysis for Motion Sickness Incidence(MSI) of the Changing Factors of the Ship Operational Environment, Mokpo National Maritime University of Graduate School, Master Thesis.
9 Han, Seung-Jae et al.(2014)(1). A Study on the Motion Sickness Incidence due to Sea State and Location of the Training Ship Kaya. Journal of Fisheries and Marine Science Education, 26(1). 126-133.   과학기술학회마을   DOI
10 Lawther, A. and Griffin, M. J.(1986). The Motion of a Ship at Sea and the Consequent Motion Sickness amongst Passengers. Ergonomics 29(4), 535-552.   DOI   ScienceOn
11 Maxsurf Seakeeper Version 11.0 User Manual(2004). 65-66.
12 O'Hanlon, J. F..Michael, E. and McCauley, M. E.(1973). Motion Sickness Incidence as a Function of the Frequency and Acceleration of Vertical Sinusoidal Motion, Human Factors Research, Incorporated.
13 O'Hanlon, J. F. and McCauley, M. E.(1974). Motion Sickness Incidence as a Function of the Frequency and Acceleration of Vertical Sinusoidal Motion. Aerospace Medicine, 45, 366-369.
14 BS 6841(1987). Human Exposure to Whole Body Mechanical Vibration Measurement and Evaluation.
15 Han, Seung-Jae(2013). A Study on the Motion Characteristics and Motion Sickness of the Training Ship for Preliminary Design. Pukyong National University of Graduate School, Doctor Thesis.