摘要
重点介绍了加强科学基础训练的主要方法和具体措施,构建了以强化学生动手实践能力、创新设计能力和自主编程能力培养为核心的创新实践教学平台。探索出了一条以课堂教学、创新实践平台和大学生创新训练计划相结合的"知识→实践→创新"逐级训练与引导的立体化实践教学途径,经过多年努力,取得了较好的教学效果。
This paper focuses on the main way and physical measure to enhance the scientific basic training,and constructs the innovation practice teaching platform,which centers on strengthening students' ability with the hands-on experience,innovation design ability,and independent programming ability.This paper also explores a "Knowledge-Practice-Innovation"step by step training and three-dimensional path of practice teaching,which combines the classroom teaching,innovation practice platform and college training program.With many years' efforts,the better teaching results are obtained.
出处
《实验技术与管理》
CAS
北大核心
2015年第4期182-184,共3页
Experimental Technology and Management
基金
国家自然科学基金项目(61271167)
关键词
空间光通信
四级阶梯型教学
四层次训练
space optical communication
four-ladder-type teaching
four levels of training