摘要
针对嵌入式系统学习难度高,实验平台与教学资源分散等问题,设计了基于Cortex-M0内核的嵌入式系统虚拟仿真实验平台。平台具有软、硬件辅助设计功能,降低了学习难度,并将电路设计、软件仿真、在线学习、实验管理一体化。采用模块化设计使嵌入式系统的功能组合灵活、设备便携、易扩展;B/S架构的服务器资源便于平台的升级与维护。实践表明,仿真实验平台扩展了教学与实验形式,提高了教学质量。
A virtual simulation experimental platform which is based on Cortex-M0 kernel embedded application system is developed to solve the problems of high learning difficulty and the separation of experimental platform and teaching resources.The platform has the aided design function on software and hardware,which reduces the difficulty of learning,and integrates the functions of circuit design,software simulation,online learning and experiment management.Modular design is adopted to make the function combination of embedded system flexible,the equipment is portable and easy to expand.The server resources of B/S architecture facilitate the upgrading and maintenance of the platform.Practice shows that the simulation experimental platform expands the forms of teaching and experiment,and improves the quality of teaching.
作者
瞿敏
陈伟元
汪义旺
陆春妹
李成
QU Min;CHEN Weiyuan;WANG Yiwang;LU Chunmei;LI Cheng(Department of Electronic Information Engineering,Suzhou Vocational University,Suzhou 215104,China;Jiangsu Engineering Research Center for PV Generation,Suzhou 215104,China;Suzhou Songlei Electronic Technology Co.Ltd,Suzhou 215104,China)
出处
《电气电子教学学报》
2023年第3期227-230,共4页
Journal of Electrical and Electronic Education
基金
江苏省“青蓝工程”项目资助(苏教师函[2020]10号)
江苏省高水平骨干专业建设支持项目(苏教高[2017]17号)。
关键词
嵌入式系统
模块化
虚拟仿真
embedded system
modularization
virtual simulation
