摘要
触控操作便捷高效,已成为下一代船舶驾驶台操控的趋势,为适应实船操控的发展,提高船员培训效率,节约培训成本,减少硬件人机交互系统损耗的目的,在航海模拟器中很有必要开发触控式人机交互系统。以V.Dragon-4000型航海模拟器硬件人机交互系统为参考,采用WPF框架搭建软件人机交互系统界面,运用C#语言后台编写逻辑实现交互功能。优化设计的触控式人机交互系统操作灵敏、形象逼真,且可以根据操作需要改变界面大小,经接入到航海模拟器进行检验,可以替代硬件人机交互系统在航海模拟器中使用。与原有交互系统进行比较,该交互系统可以提高航海模拟器的运行效率。
Touch operation is convenient and efficient, it has become the trend of next generation of ship bridge manoeuvre. In order to adapt the development of ship operation, improve crew training efficiency, save training costs and reduce ullage of hardware human-computer interaction, it is necessary to exploit a touch-sensitive human-computer interaction of ship maneuvering simulator. Reference to the hardware human-computer interaction of V.Dragon-4000 ship maneuvering simulator, built the User Interface of software human-computer interaction by using WPF framework, and achieved the interactive function by using C# Language to write the background logical program. The operation to the exploitative touch-sensitive human-computer interaction is sensitive, the display is vivid and can be changed the size of interface according operation need. It is proven by combined it with ship maneuvering simulator that it can be used in ship maneuvering simulator to replace hardware human-computer interaction. Which can improve the operational efficiency of ship maneuvering simulator after compared with primary human-computer interaction.
作者
符斌
任鸿翔
李小涛
FU Bin REN Hong-xiang LI Xiao-tao(Key Laboratory of Marine Simulation and Control for Ministry of Communications, Dalian Maritime University, Dalian 116026, China)
出处
《舰船科学技术》
北大核心
2017年第6期110-114,共5页
Ship Science and Technology
基金
国家863课题资助项目(2015AA016404)
海洋公益性行业科研专项资助项目(201505017-4)
交通运输部应用基础研究资助项目(2015329225240)
中央高校基本科研业务费资助项目(3132016324)
关键词
航海模拟器
人机交互系统
触控操作
模块化
逻辑关系
ship maneuvering simulator
human-computer interaction
touch operation
modularization
logical relationship
