摘要
在分析电子化培训训练需求基础上,提出基于IETM的装备电子训练方案。将基于S1000D标准的IETM数据模块及实体文件按照培训训练课目要求及相关标准进行转换、封装,发布形成电子训练课件包。根据训练场景及任务、产品任务,构建装备电子训练运行环境,开发训练策略,形成训练课程。将训练课件导入训练课程,根据训练大纲、训练任务计划执行训练任务,实现装备电子化训练,训练过程中记录相关数据。训练结束后评估学员训练效果、训练任务及课程设置合理性等。文中给出装备电子训练平台框架及软件实现技术架构,依据装备训练需求,进行软件功能设计,采用平台无关的J2EE及Ajax技术设计装备电子训练系统。该系统已在多套装备的训练中使用,其安全性、界面友好性、图文交互性及通用性得到了验证。
On the basis of the analysis of equipment electronic training requirements,an IETM-based equipment electronic training program is proposed.The S1000D standard-based IETM data module and the entity files are converted and packaged in accordance with the training requirements and related standards,and then issued to form the equipment electronic training courseware package.According to equipment training scenarios&tasks and product tasks,the equipment electronic training operating environment is constructed and the training strategies are developed,so as to form the training courses.The training courseware is imported into training courses.The training tasks is executed according to training outlines and training mission plans to realize equipment electronic training.The relevant data during training is recorded.After the training,the reasonability of trainees′training effects,tasks and course settings are evaluated.The equipment electronic training platform framework and software implementation technical framework are given in this paper.The software function design of the equipment training system is carried out according to the equipment training requirements.Platform-independent J2EE and Ajax are used to design the training system.The system has been used in multiple equipment training.Its safety,interface friendliness,graphic&text interaction and versatility have been verified.
作者
吴家菊
左洪福
杨永辉
马永起
陈泉根
程铮
孔令刚
康时嘉
WU Jiaju;ZUO Hongfu;YANG Yonghui;MA Yongqi;CHEN Quangen;CHENG Zheng;KONG Linggang;KANG Shijia(College of Civil Aviation,Nanjing University of Aeronautics and Astronautics,Nanjing 210016,China;Institute of Computer Application,China Academy of Engineering Physics,Mianyang 621999,China)
出处
《现代电子技术》
2022年第19期152-160,共9页
Modern Electronics Technique
基金
国家自然科学基金项目(U1933202)
装备预研领域基金(MJ-2020-Y-011)。
