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集成仿真验证技术的数控虚拟仿真环境构建
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作者 王卫兵 《实验室研究与探索》 CAS 北大核心 2015年第8期90-92,97,共4页
利用NX ISV模块构建了YHC850A四轴立式数控铣床的虚拟仿真环境,实现CAD/CAM/NC编程的一体化实践教学。介绍了机床及其运动模型的构建过程;应用所建的仿真环境在实践教学环节指导实训教学,可以提高学生的学习兴趣,增强实训的安全性。针... 利用NX ISV模块构建了YHC850A四轴立式数控铣床的虚拟仿真环境,实现CAD/CAM/NC编程的一体化实践教学。介绍了机床及其运动模型的构建过程;应用所建的仿真环境在实践教学环节指导实训教学,可以提高学生的学习兴趣,增强实训的安全性。针对某零件的数控加工案例,验证了该仿真环境的可行性。 展开更多
关键词 集成仿真验证 虚拟机床 数控编程 实践教学
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基于通用接口适配器的半实物仿真系统设计与实现 被引量:2
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作者 李阳 王闯 +1 位作者 田莉蓉 邹方林 《指挥控制与仿真》 2023年第4期111-117,共7页
针对航空领域通用接口半实物仿真环境的应用需求,在构建虚拟集成与仿真验证平台的基础上,提出了基于ARINC664接口适配器的半实物仿真系统的实现方法。以ARINC664接口适配器的工作原理为牵引,明确半实物仿真系统的设计原理和方法,搭建半... 针对航空领域通用接口半实物仿真环境的应用需求,在构建虚拟集成与仿真验证平台的基础上,提出了基于ARINC664接口适配器的半实物仿真系统的实现方法。以ARINC664接口适配器的工作原理为牵引,明确半实物仿真系统的设计原理和方法,搭建半实物仿真验证环境,并基于北斗定位处理机的硬件在环仿真场景对系统进行验证测试,结果表明,系统的设计与实现是正确、合理的。 展开更多
关键词 半实物仿真平台 ARINC664接口适配器 集成仿真 硬件在环 虚拟集成仿真验证
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基于UG的五轴加工中心虚拟机床及后置处理开发 被引量:4
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作者 周云曦 《制造业自动化》 2015年第24期113-115,共3页
集成仿真和验证(IS&V)技术是五轴数控编程加工技术的重要组成部分。通过运用UG软件构建虚拟机床模型、创建机床运动模型、创建虚拟机床驱动器,并最终成功测试所建虚拟机床,来讨论五轴加工中心虚拟机床的开发和应用。为各类五轴加工... 集成仿真和验证(IS&V)技术是五轴数控编程加工技术的重要组成部分。通过运用UG软件构建虚拟机床模型、创建机床运动模型、创建虚拟机床驱动器,并最终成功测试所建虚拟机床,来讨论五轴加工中心虚拟机床的开发和应用。为各类五轴加工中心的虚拟机床开发设计提供借鉴平台。 展开更多
关键词 虚拟机床 集成仿真验证 后置处理
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Design and Validation of Leadership Education Integrating Simulation and Project Based Learning
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作者 Tomoko Maruyama Masahiro Inoue 《Management Studies》 2016年第3期104-110,共7页
All engineering students need to develop their important skills of leadership in project management. Many students have never been leaders in their social and school lives. A leading role is unimaginable to them and h... All engineering students need to develop their important skills of leadership in project management. Many students have never been leaders in their social and school lives. A leading role is unimaginable to them and hence they cannot imagine how to achieve it. The purpose of this paper is to report a result of a new leadership education program which links a variety of simulated experiences with real actions of students in project based learning (PBL) to develop their leadership ability. The first step is for graduate students to gain knowledge in the leadership arena. Then, they utilize simulation to experience leadership actions many times. Simulation provides a safe environment in which they can try out many different approaches in taking leadership in various situations. In the next step, students as a team utilize PBL, so that the above simulated experiences can help them to actually take leadership. Students can apply trained leadership to actual projects. It is highly effective to apply conscious leadership to a project aimed at a specific goal in limited circumstances. This education repeats both of the steps above, raising leadership abilities in an upward spiral. In terms of students' evaluation of leadership education in project management, 360-degree assessments were carried out by teachers, senior, and junior students before and after the course, and authors compare their assessments thoroughly. As a result, authors are assured that students not only gained knowledge but also raised leadership abilities in their actions after this education. Six months after the time of leadership education employing simulated experiences and PBL, follow-up interviews were conducted on its effects. Authors recognized the cyclic period that students apply simulated experiences to PBL and that they seek different approaches in simulation for solving problems found in reality. This research concludes that this cycle of simulator and PBL can produce effective leadership actions. 展开更多
关键词 leadership education simulated experience project based learning (PBL) graduate student ENGINEERING
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