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《集美大学学报（自然科学版）》[ISSN:1007-7405/CN:35-1186/N]

卷:

第27卷

期数:

2022年第5期

页码:

431-438

栏目:

船舶与机械工程

出版日期:

2022-09-28

文章信息/Info

Title:

Research and Development for Fault Diagnosis and Overhaul Operation System of Marine Diesel Engine by VR and Cloud Techniques

作者:

王永坚; 吴怡婷; 魏旻; 蔡杭溪

（集美大学轮机工程学院，福建 厦门 361021）

Author(s):

WANG Yongjian; WU Yiting; WEI Min; CAI Hangxi

（School of Marine Engineering，Jimei University；Xiamen 361021，China）

关键词:

船用柴油机; 云技术; 虚拟现实(VR); 故障诊断; 拆检操作; 仿真评估

Keywords:

marine diesel engine; cloud technology; VR（virtual reality）; fault diagnosis; overhaul operation; simulating evaluation.

分类号:

-

DOI:

-

文献标志码:

A

摘要:

为解决轮机员适任考试实操训练与评估过程中故障问题不易设置、主观因素影响大等问题，根据轮机员适任考试实操评估要求，融合虚拟现实（VR）和云技术优势，采用B/S架构，运用3DSMax等建模工具，搭建人机交互功能强的船用柴油机故障诊断拆检操作场景。以Visual Studio为开发环境，Ajax为通信手段，综合运用C＋＋程序语言和可扩展标记语言XML，研发柴油机故障诊断拆检在线训练评估系统，从系统的结构设计、仿真场景搭建、评估试题编辑平台开发、基于模糊综合评判的自动评估模块设计等方面详细分析设计开发过程。经过实际试题测试和学员应用，结果表明，该系统具有较好的适用性。

Abstract:

In order to solve the problems of the difficulty in fault setting, the influence of subjective factors on the practical train and evaluation of marine engineer’s competency examination, a marine diesel engine fault diagnosis and overhaul simulating operational scene with interactive features was established by employing 3DSMax and other modeling softwares based on the B/S architecture which takes into account the requirement of the practical operational evaluation, the advantage of virtual reality and cloud technology. Visual Studio was adopted as developing environment, Ajax, C++ and Extensible Markup Language (XML) programming language were comprehensively applied to develop the practically operational training and evaluating system online for marine diesel engine fault diagnosis and overhaul simulating operations. The design and development process of this simulating system was analyzed through the system construction’s design, the simulating scene was modeled, and the compiling platform for evaluating testing items was also developed, the design of automatic judging system was finally set up by using fuzzy comprehensive evaluation approach. It suggests that the system has good applicability after practical titles’ test and student’s application.

参考文献/References:

相似文献/References:

[1]饶晓丹.G32型柴油机活塞顶晶粒度的船检规范探索[J].集美大学学报(自然科学版),2013,18(5):365.
　RAO Xiao-dan.Study on Piston Head Grain Size Inspection of G32 Marin Diesel[J].Journal of Jimei University,2013,18(5):365.
[2]伍斯杰,王永坚,杨小明,等.船舶柴油机燃油粘度控制系统的仿真[J].集美大学学报(自然科学版),2013,18(5):354.
　WU Si-jie,WANG Yong-jian,YANG Xiao-ming,et al.Simulation Study of the Fuel Oil Viscosity Control System for Marine Diesel Engine[J].Journal of Jimei University,2013,18(5):354.
[3]李斯钦,杨国豪,黄加亮.大型低速船用柴油机燃油共轨系统建模[J].集美大学学报(自然科学版),2014,19(1):25.
　LI Si-qin,YANG Guo-hao,HUANG Jia-liang.Research on Modeling of Fuel Common Rail System of Large-scale Low-speed Marine Diesel Engine[J].Journal of Jimei University,2014,19(5):25.
[4]陈少华,俞万能,朱永怀.全电游船锂电池组健康诊断平台[J].集美大学学报(自然科学版),2019,24(5):364.
　CHEN Shaohua,YU Wanneng,ZHU Yonghuai.Health Diagnosis Platform for Lithium Battery Pack of All Electric Power Cruise Ship[J].Journal of Jimei University,2019,24(5):364.
[5]宣熔,张飞飞,陈坚,等.喷油提前角对双燃料柴油机燃烧和排放的影响[J].集美大学学报(自然科学版),2021,26(3):240.
　XUAN Rong,ZHANG Feifei,CHEN Jian,et al.Effect of Fuel Injection Advance Angle on Combustions and Emissions of Methanol Dual Powered Fuel Diesel Engines[J].Journal of Jimei University,2021,26(5):240.
[6]范金宇,才正,黄朝霞,等.利用SE-GPR模型对甲醇/柴油混合燃料柴油机性能的预测[J].集美大学学报(自然科学版),2024,29(2):152.
　FAN Jinyu,CAI Zheng,HUANG Zhaoxia,et al.Performance Prediction of Methanol/Diesel Blended Diesel Engine Based on SE-GPR Model[J].Journal of Jimei University,2024,29(5):152.

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更新日期/Last Update: 2022-11-18