Title :
Optimum design methods for WPC shipform
Author :
Ying, Yeju ; Zhao, Lianen
Author_Institution :
Dept. Ship Eng, Zhejiang Ocean Univ., Zhoushan, China
Abstract :
Wave-piercing catamaran (WPC) is a efficiency ship form which combined various navigating requirements such as good sea-keeping performance, speeding, stability and rotation. In this paper, based on the catamaran `slender ship´ wave making resistance formula, some introduction and discussion are given on how to use the methods of `quadratic-mathematical programmer´ and `tent function´ to presented the optimum formula, established the calculating programmer with MATLAB engineering software to make optimization of the minimum total resistance WPC ship form, compared with model experimental results, its identified that this method should be used for ship form design of high-speed catamaran and WPC.
Keywords :
design engineering; marine engineering; mathematical programming; quadratic programming; shipbuilding industry; ships; MATLAB engineering software; WPC shipform; calculating programmer; catamaran slender ship wave making resistance formula; efficiency ship form; high-speed catamaran; minimum total resistance WPC ship form; navigating requirements; optimization; optimum design methods; quadratic-mathematical programmer; sea-keeping performance; ship form design; tent function; wave-piercing catamaran; Fluctuations; Linear matrix inequalities; Marine vehicles; Mathematical model; Planning; Resistance; Vectors; WPC; design methods; shipform optimumd;
Conference_Titel :
Remote Sensing, Environment and Transportation Engineering (RSETE), 2011 International Conference on
Conference_Location :
Nanjing
Print_ISBN :
978-1-4244-9172-8
DOI :
10.1109/RSETE.2011.5965019
