上海交通大学 海洋工程国家重点实验室;高新船舶与深海开发装备协同创新中心,上海 200240
收稿日期:
2019-03-28出版日期:
2021-01-01发布日期:
2021-01-19通讯作者:
张新曙E-mail:xinshuz@sjtu.edu.cn作者简介:
丘文桢(1993-),男,福建省龙岩市人,硕士生,从事海洋平台多目标优化研究.Multi-Objective Optimization of Three-Column Semi-Submersible Platforms Based on Surrogate Models
QIU Wenzhen, SONG Xingyu, ZHANG Xinshu()State Key Laboratory of Ocean Engineering; Collaborative Innovation Center for Advanced Ship and Deep-Sea Exploration, Shanghai Jiao Tong University, Shanghai 200240, China
Received:
2019-03-28Online:
2021-01-01Published:
2021-01-19Contact:
ZHANG Xinshu E-mail:xinshuz@sjtu.edu.cn摘要/Abstract
摘要: 在半潜平台初始设计阶段,平台主尺度是影响平台水动力性能和建造成本的关键性因素.因此,对半潜平台主尺度进行多目标优化是一项极具工程意义的研究工作.首先,采用试验设计法确定平台的设计变量和样本数据库.其次,对半潜平台采用面元法和莫里森公式结合的方法进行水动力特性分析.同时在静水面上布置波面升高监测点,计算平台气隙值.根据数值模拟得到的数据库建立基于径向基函数的代理模型,并通过缺一交叉验证法得到径向基函数中的形参数值.所建立的代理模型可以极大提高优化效率.最后,采用多目标粒子群优化算法,以平台安全性和经济性作为两个优化目标,以平台稳性、气隙高度、水平方向运动性能作为约束条件,得到半潜平台的优化方案.通过对半潜平台多目标优化方案的分析,最终提出三立柱半潜平台最高效的优化策略.
关键词: 多目标粒子群优化算法, 代理模型, 缺一交叉验证法, 径向基函数
Abstract: In the initial design stage of a semi-submersible platform, the main particulars of the platform are the key factor affecting the hydrodynamic performance and construction cost. Therefore, multi-objective optimization of the main particulars of the semi-submersible platform is of great engineering significance. First, the design variables of each platform and sample database are determined by design of experiments. Then, the hydrodynamic performances of the semi-submersible platform are analyzed by using the panel method and Morison’s equation. The distribution of probes for estimating the wave elevations on the calm water surface is arranged, and the airgap can be computed. Based on the database obtained by numerical simulation, the surrogate models based on radial basis function (RBF) are established. Next, the formal parameters in RBF are obtained by using the leave-one-out cross validation method. The surrogate model can greatly improve the optimization efficiency. Finally, by using the multi-objective particle swarm optimization (MOPSO) method, taking safety and economy of offshore platforms as two optimization objectives, and taking platform stability, airgap and horizontal motion performance as constraints, the optimization program for the semi-submersible platform can be obtained. Through the detailed analyses of the optimization program for the semi-submersible platform, the most efficient design strategy for the three-column semi-submersible platform is proposed.
Key words: multi-objective particle swarm optimization (MOPSO), surrogate model, leave-one-out cross validation, radial basis function
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