摘要
本文研究了VAPS构建仿真系统界面的功能和拓展技术,使用Visual C++语言编程进行二次开发,建立了工效学量化评价驱动模型,通过并列多任务结构程序设计,实现VAPS平台下仪表仿真及工效学评价实验数据的实时存储与处理功能。设计并实施了针对飞机座舱仿真仪表界面的判读反应特性及正确率工效学测试实验。数据统计分析结果与相关结论一致,表明该方法对于座舱仪表的虚拟优化设计具有工程实用价值。
The simulation system evaluated cockpit instrument based on VAPS were discussed in this paper,the authors designed ergonomics testing programs in virtue of Visual C++ according to calculated reaction characteristics and accuracy which could achieved real-time storage and handle experimental data,the instrument simulation building the quantitative evaluation for the driver model by collateral multi-task structure programming.The results of statistics analysis were consistent with relevant conclusions,it revealed that this methods is provided with practical value in cockpit instrument virtual optimization design.
出处
《人类工效学》
2011年第1期41-44,共4页
Chinese Journal of Ergonomics
关键词
VAPS
航空仪表仿真
工效学评价
VAPS
cockpit instrument Simulation
evaluation of ergonomics
