摘要
鉴于智能制造是现代工业发展的必然趋势和终极目标,培养具有智能制造专业知识、实践和创新能力的人才具有重要意义。针对传统实体型实验教学模式受限于设备要求高、成本高等因素,在智能制造专业课程实验教学中应用困难的问题,以复杂异型曲面件旋压成形为典型案例,建立可实现成形信息自主感知、自主学习建模、自主决策与自主控制四大智能功能的智能制造虚拟仿真实验教学平台,并通过学习、实践、创新三个层次递进的教学模式,获得良好的教学成效。
Intelligent manufacturing is the inevitable trend and the ultimate goal for the development of modern manufacturing industry.In view of this,it is of great significance to cultivate talents who possess the professional knowledge and the abilities of practice and innovation in intelligent manufacturing.However,it is extremely difficult to apply the traditional entity teaching mode to the experiment teaching of intelligent manufacturing due to the limitations of the high requirements and cost of manufacturing equipment.To this end,taking the spinning of complex curved surface component as the typical case,a virtual simulation experiment teaching platform for intelligent manufacturing was established.This teaching platform can realize four intelligent functionalities,which are autonomous perception of forming information,autonomous learning and modeling,self-decision,and self-control.On these bases,the progressive teaching mode of three levels of learning,practice,and innovation was carried out,and promising teaching results have been achieved.
作者
高鹏飞
于超
闫星港
詹梅
李宏伟
GAO Pengfei;YU Chao;YAN Xinggang;ZHAN Mei;LI Hongwei
出处
《中国教育技术装备》
2021年第2期19-22,共4页
China Educational Technology & Equipment
基金
西北工业大学教育教学改革研究项目“‘塑性成形可视化’在线开放课程建设研究”(项目编号:2020JGY10)
关键词
智能制造
虚拟仿真实验教学平台
智能成形技术概论
intelligent manufacturing
virtual simulation experiment teaching platform
introduction to intelligent forming technology
