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| The integration of teaching, learning and assessment to promote circuit course reform under the background of engineering education accreditation |
| CHEN Duo1,2, DONG Hongchao3, LENG Jiancai1, LI Jianfei1, ZHANG Wenhao1,2 |
1. International School for Optoelectronic Engineering, Qilu University of Technology (Shandong Academy of Sciences), Ji’nan 250353;
2. Laser Institute, Shandong Academy of Sciences, Jining, Shandong 272073;
3. Ji’nan Foreign Language School, Ji’nan 250108 |
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Abstract This paper explores the integration of teaching, learning and assessment in the “circuit analysis and principles” course under the background of engineering education accreditation. The aim is to improve teaching quality and cultivate students’ innovation ability, critical thinking, and practical skills. Engineering education accreditation requires clear course objectives and a close integration of teaching, learning and assessment processes, with a particular emphasis on the output of students’ capabilities. Using the “circuit analysis and principles” course in the Optoelectronic Information Science and Engineering program as an example, this paper analyzes the strategies and effects of implementing the integration of teaching, learning and assessment model. Through case analysis of the course over the past year, it is found that the integrated model effectively enhances students’ overall abilities, improves the achievement of course objectives, and provides more comprehensive feedback through diversified assessment methods. This, in turn, has promoted continuous improvement in the teaching process.
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Received: 28 December 2024
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| Cite this article: |
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CHEN Duo,DONG Hongchao,LENG Jiancai等. The integration of teaching, learning and assessment to promote circuit course reform under the background of engineering education accreditation[J]. Electrical Engineering, 2025, 26(8): 74-79.
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| URL: |
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https://dqjs.cesmedia.cn/EN/Y2025/V26/I8/74
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[1] 吴才章, 赵志科, 王莉. 以工程教育认证与国家一流专业建设为牵引的测控技术与仪器专业教学改革与实践研究[J]. 高教学刊, 2024, 10(27): 29-32.
[2] 蔡伟. 工程教育认证背景下OBE工程教育模式对高职工程教育的启示[J]. 科学咨询 (教育科研), 2022(24): 115-117.
[3] 南亚萍, 袁林江, 张海涵. 基于工程认证理念的“环境工程微生物学”多元混合式教学改革及效果: 以课程目标达成度评价[J]. 微生物学通报, 2025, 52(3): 1337-1350.
[4] 徐泓, 朱成东, 姚季, 等. 基于“教-学-评”一体化的探究式教学实践: 以“探究稀盐酸敞口久置后浓度变化”为例[J]. 化学教学, 2024(11): 43-47.
[5] 黄倩雯. “教、学、评”一体化视域下高中信息技术编程教学优化设计[J]. 高考, 2024(34): 71-73.
[6] 徐健彬. “教、学、评”一致性背景下的初中物理教学策略[J]. 中学课程辅导, 2024(32): 74-76.
[7] 冯代伟, 钟洪声. 几何对偶在电路分析课程中的应用探索[J]. 实验科学与技术, 2019, 17(3): 59-62.
[8] 陆欣欣, 李晓欣. “产教融合、校企合作”背景下教学及考核方式的改革与实践: 以“电路分析”课程为例[J]. 科技风, 2022(7): 115-117.
[9] 徐洋. 《电路分析基础》课程过程性评价的教学改革研究[J]. 教育现代化, 2018, 5(46): 110-111.
[10] 宋丽娟, 李思瑶, 张爱华. 新工科背景下“电路分析基础”课程教学改革探索[J]. 时代汽车, 2024(22): 53-55.
[11] 林棻. 基于对分BOPPPS教学模式的“汽车试验学”课程教学创新与实践[J/OL]. 工业和信息化教育, 1-5[2025-04-08]. http://kns.cnki.net/kcms/detail/10.1101.G4.20241112.1147.004.html.
[12] 夏其英, 刘国魁, 李云志, 等. 基于产出导向的“教、学、评一体化”教学模式构建与实践: 以结构化学为例[J]. 大学化学, 2024, 39(10): 361-368.
[13] 高健, 金韦利, 文斌. 融入课程思政的单片机课程教学改革探索与实践[J]. 电气技术, 2024, 25(10): 67-71.
[14] 谢佳, 段斌, 高婷, 等. 神经网络认知测量在工程教学课程评价中的应用[J]. 电气技术, 2023, 24(2): 52-58. |
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2025, Vol. 26 
