创新创业理论研究与实践 ›› 2026, Vol. 9 ›› Issue (5): 143-147.

• 创新方法 • 上一篇    下一篇

“三维协同”项目式教学在大型仪器培训中的创新应用

柯丁宁1, 马星2, 魏熙宇1, 况婷1, 金东东2, 陈宏涛2   

  1. 1.哈尔滨工业大学(深圳) 实验与创新实践教育中心(分析测试中心),广东深圳 518055;
    2.哈尔滨工业大学(深圳) 集成电路学院,广东深圳 518055
  • 出版日期:2026-03-10 发布日期:2026-07-01
  • 作者简介:柯丁宁(1980—),女,湖北黄石人,博士研究生,高级实验师,研究方向:材料分析检测技术与实验教学。
  • 基金资助:
    2024年度广东省教育科学规划项目(高等教育专项)“基于项目式教学的材料科学与工程实验课程改革研究”(2024GXJK406); 2024年广东省本科高校科产教融合实践教学基地建设项目“哈工大(深圳)—美信检测校企合作人才培养基地”

Innovative Application of “Three-Dimensional Collaborative” Project-Based Teaching in Large-Scale Scientific Research Instrument Training

KE Dingning1, MA Xing2, WEI Xiyu1, KUANG Ting1, JIN Dongdong2, CHEN Hongtao2   

  1. 1. Experiment and Innovation Educational Center (analyses and Testing Center), Harbin Institute of Technology (Shenzhen), Shenzhen Guangdong, 518055, China;
    2. School of Integrated Circuits, Harbin Institute of Technology (Shenzhen), Shenzhen Guangdong, 518055, China
  • Online:2026-03-10 Published:2026-07-01

摘要: 针对大型仪器培训中理论与实践脱节、教学内容与科研需求脱节等问题,构建以问题导向、技术决策与科研创新为核心的项目式培训体系。该文通过认知建构、决策训练与创新实践三维度协同,形成知识学习、技能提升与成果产出相衔接的培养模式,以真实科研任务为驱动,将仪器原理、操作规范与数据分析融入项目训练,引导学生从“参数记忆”转向“方法设计”、从“按步骤操作”转向“依需求决策”,建立样品特性、检测方法与数据质量间的系统认知。实践表明:学生的设备安全操作、复杂场景应对等核心能力显著提升,部分成果转化为技术标准或学术产出。该体系为大型仪器高效共享提供人才支撑,形成了理论与实践并重、技能与创新融合的高层次人才培养路径,具有推广价值。

关键词: 大型仪器, 培训体系, “三维协同”, 项目式, 创新, 人才培养

Abstract: In response to the problems of disconnection between theory and practice, as well as the gap between teaching content and research demands in the training of large-scale instruments, a project-based training system centered on problem-oriented, technical decision-making and scientific research innovation has been constructed. Through the coordinated efforts of cognitive construction, decision-making training and innovative practice in three dimensions, a training model that links knowledge learning, skill improvement and outcome production has been formed. Driven by real research tasks, the principles of the instruments, operation norms and data analysis are integrated into project training, guiding students to shift from“parameter memorization”to“method design”, and from“step-by-step operation”to“demand-based decision-making”, establishing a systematic understanding of the relationship between sample characteristics, detection methods and data quality. Practical results show that students have significantly improved in core abilities such as safe operation of equipment and handling of complex scenarios, and some achievements have been transformed into technical standards or academic outputs. This system provides talent support for the efficient sharing of large-scale instruments, explores a high-level talent cultivation path that emphasizes both theory and practice, and integrates skills and innovation, and has promotional value.

Key words: Scientific instruments, Training system, “Three-dimensional collaborative”, Project-based, Innovation, Talent cultivation

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