基于VR技术的船舶航行仿真系统设计
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摘要
传统船舶仿真系统不能在短时间内完成航行数据的识别及转发处理。为解决上述问题,设计基于VR技术的新型船舶航行仿真系统。通过层次逻辑结构设计、仿真拓扑结构设计2个步骤,完成新型系统的硬件运行环境搭建。在此基础上,通过VR交互程序设计、航行传输协议设计、仿真数据库设计3个步骤,完成新型系统的软件运行环境搭建,实现基于VR技术船舶航行仿真系统的顺利应用。模拟对比试验结果表明,与传统系统相比,应用基于VR技术船舶航行仿真系统后,航行数据识别及转发处理时间均得到一定程度降低。
The traditional ship simulation system can not complete the recognition and forwarding of voyage data in a short time. In order to solve these problems, a new ship navigation simulation system based on VR technology is designed.Through two steps of hierarchical logic structure design and simulation topology structure design, the hardware running environment of the new system is built. On this basis, through the three steps of VR interactive program design, navigation transmission protocol design, simulation database design, the software running environment of the new system is built, and the smooth application of the ship navigation simulation system based on VR technology is realized. The simulation results show that compared with the traditional system, the VR-based ship navigation simulation system can reduce the processing time of navigation data identification and forwarding to a certain extent.
The traditional ship simulation system can not complete the recognition and forwarding of voyage data in a short time. In order to solve these problems, a new ship navigation simulation system based on VR technology is designed.Through two steps of hierarchical logic structure design and simulation topology structure design, the hardware running environment of the new system is built. On this basis, through the three steps of VR interactive program design, navigation transmission protocol design, simulation database design, the software running environment of the new system is built, and the smooth application of the ship navigation simulation system based on VR technology is realized. The simulation results show that compared with the traditional system, the VR-based ship navigation simulation system can reduce the processing time of navigation data identification and forwarding to a certain extent.
引文
[1]陈浩,卢翔,张国柱,等.星载软件在环的GNC快速原型仿真系统设计[J].系统工程与电子技术,2016,38(6):1450-1455.
[2]朱子君,张玉龙,崔玲玲,等.基于BIM技术的大型建筑景观三维仿真系统设计与实现[J].现代电子技术,2017,40(4):111-114.
[3]李靖,汪光森,刘振田,等.基于RT_LAB的实时仿真系统设计及UPS串口通信建模[J].海军工程大学学报,2016,28(4):1-6.
[4]陈思雨,樊树海,魏霞,等.基于Flexsim/JMP开放式交互的大规模定制质量仿真系统设计与开发[J].组合机床与自动化加工技术,2017,15(2):116-118.
[2]朱子君,张玉龙,崔玲玲,等.基于BIM技术的大型建筑景观三维仿真系统设计与实现[J].现代电子技术,2017,40(4):111-114.
[3]李靖,汪光森,刘振田,等.基于RT_LAB的实时仿真系统设计及UPS串口通信建模[J].海军工程大学学报,2016,28(4):1-6.
[4]陈思雨,樊树海,魏霞,等.基于Flexsim/JMP开放式交互的大规模定制质量仿真系统设计与开发[J].组合机床与自动化加工技术,2017,15(2):116-118.