三体船压浪板虚拟仿真系统

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主管单位:: 中国船舶集团有限公司

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三体船压浪板虚拟仿真系统
Development of a virtual simulation system for the wave plate of a trimaran ship

DOI:

作者:: 徐海燕^1,2
XU Hai-yan^1,2

作者单位:: 1. 河南省容错服务器工程技术研究中心，河南郑州 450046;
2. 河南职业技术学院，河南郑州 450046
1. Henan Fault-tolerant Server Engineering Technology Research Center, Zhengzhou 450046, China;
2. Henan Polytechnic, Zhengzhou 450046, China

关键词:: 三体船压浪板;虚拟仿真;系统开发
trimaran ballast board; virtual simulation; system development

摘要:: 三体船压浪板作为完善船舶结构、降低船舶阻力的重要手段，在近年来得到了广泛的关注及应用，很好解决了船体航行中较大的纵向摇荡运动。本文通过对三体船的运动及受力进行分析，建立压浪板力学模型，采用数值计算与仿真技术相结合的方法，开发基于虚拟现实技术的三体船压浪板设计与分析系统。
As an important technology for improving the structural form of ships and reducing ship resistance, the wave suppression plate of a trimaran has received widespread attention and application in recent years, and has effectively solved the large longitudinal sway motion of the ship during navigation. This article first analyzes the motion and forces of the trimaran ship, establishes a mechanical model of the pressure plate, and then uses a combination of numerical calculation and simulation technology to develop a design and analysis system for the pressure plate of a trimaran ship based on virtual reality technology.

2023,45(13): 162-165 收稿日期：2023-02-24

DOI：10.3404/j.issn.1672-7649.2023.13.033

分类号：U667.65

基金项目：2021年河南省高等教育教学改革研究与实践项目（2021SJGLX728）

作者简介：徐海燕(1983-)，女，硕士，副教授，研究方向为计算机科学与技术及网络数据库

参考文献：
[1] 黄明, 窦佩军, 王裕平, 等. 基于虚拟仿真和实船验证的恶劣天气下LNG船舶靠离泊操作分析[J]. 武汉理工大学学报(交通科学与工程版), 2022, 46(4): 743–748
HUANG Ming, DOU Pei-jun, WANG Yu-ping, et al. Analysis of berthing and unberthing operations of LNG ships in severe weather based on virtual simulation and real ship verification[J]. Journal of Wuhan University of Technology (Transportation Science and Engineering Edition), 2022, 46(4): 743–748
[2] 谢宇, 何坤金, 陈义仁, 等. 基于Unity3D的疏浚船作业虚拟仿真系统[J]. 计算机仿真, 2022, 39(7): 426–432
XIE Yu, HE Kun-jin, CHEN Yi-ren, et al. Virtual simulation system for dredging ship operation based on Unity3D[J]. Computer Simulation, 2022, 39(7): 426–432
[3] 陈玲, 孟巧, 周陈炎. 基于NURBS的模块化三体船总体设计和优化[J]. 舰船科学技术, 2022, 44(18): 41–44
CHEN Ling, MENG Qiao, ZHOU Chen-yan. Overall Design and Optimization of Modular Trimaran Based on NURBS[J]. Ship Science and Technology, 2022, 44(18): 41–44
[4] 韩阳, 郭春雨, 赵大刚, 等. 基于虚拟仿真的船模阻力实验系统设计与应用[J]. 实验科学与技术, 2022, 20(3): 21–25
HAN Yang, GUO Chun-yu, ZHAO Da-gang, et al. Design and application of ship model resistance experiment system based on virtual simulation[J]. Experimental Science and Technology, 2022, 20(3): 21–25
[5] 韩赵唤, 冯柯, 申金星, 等. 基于虚拟仿真的船艇动力系统维修模拟训练平台[J]. 现代制造技术与装备, 2020, 56(11): 76–79
HAN Zhao-huan, FENG Ke, SHEN Jin-xing, et al. Simulation training platform for maintenance of ship power system based on virtual simulation[J]. Modern Manufacturing Technology and Equipment, 2020, 56(11): 76–79

三体船压浪板虚拟仿真系统 Development of a virtual simulation system for the wave plate of a trimaran ship

三体船压浪板虚拟仿真系统
Development of a virtual simulation system for the wave plate of a trimaran ship