|
|
高职测量课堂教学中DeepSeek的应用与探索
|
Abstract:
随着人工智能技术的快速发展,多种大语言模型在职业教育中的应用逐渐受到关注,而国内创新科技公司深度求索自主开发的AI软件DeepSeek也开始扮演重要角色。以高职测量专业教学为背景,探讨DeepSeek在课堂教学中的技术优势、具体应用场景及实践效果。通过案例分析,验证其在数据处理、仪器认识及操作、个性化学习方案设计三方面的应用效果,提出技术融合的挑战与应对策略。实验表明,DeepSeek能够显著提升测量教学的互动性、实践性和效率,为高职教育数字化转型提供新思路。
With the rapid development of artificial intelligence technology, the application of various large language models in vocational education has gradually gained attention. Meanwhile, the AI software platform DeepSeek, independently developed by the innovative tech company DeepSeek in China, has also started to play a significant role. This paper takes surveying teaching in higher vocational education as the background to explore the technical advantages, specific application scenarios, and practical effects of DeepSeek in classroom teaching. Through case analysis, it verifies the application effects of DeepSeek in three aspects: data processing, instrument recognition and operation, and personalized learning plan design, and proposes challenges and coping strategies for technology integration. The research indicates that DeepSeek can significantly enhance the interactivity, practicality, and efficiency of surveying teaching, providing new ideas for the digital transformation of higher vocational education.
| [1] | 周洪宇, 李宇阳. ChatGPT对教育生态的冲击及应对策略[J]. 新疆师范大学学报(哲学社会科学版), 2023, 44(4): 102-112. |
| [2] | 焦建利. ChatGPT助推学校教育数字化转型——人工智能时代学什么与怎么教[J]. 中国远程教育, 2023, 43(4): 16-23. |
| [3] | 焦建利, 陈婷. 大型语言模型赋能英语教学: 四个场景[J]. 外语电化教学, 2023(2): 12-17+106. |
| [4] | 王春模, 周荣虎, 张林龙. 高职院校实施分类培养分层教学模式的探索与实践[J]. 教育与职业, 2016(4): 103-105. |
| [5] | 王广兴, 李玮, 张绍成, 等. 测量学课程中“GNSS技术与应用”的教学研究与实践[J]. 测绘通报, 2019(2): 144-146+160. |
| [6] | Wang, F. (2020) College English Teaching Based on Artificial Intelligence. |
| [7] | Simon, P.D. and Zeng, L.M. (2024) Behind the Scenes of Adaptive Learning: A Scoping Review of Teachers’ Perspectives on the Use of Adaptive Learning Technologies. Education Sciences, 14, Article No. 1413. https://doi.org/10.3390/educsci14121413 |
| [8] | 廉旭刚, 黄浚恒, 蔡音飞, 等. 基于Unity 3D的井下测量虚拟仿真程序设计[J]. 中国冶金教育, 2023(2): 39-42. |
| [9] | 张志鹏. 基于大数据技术的黄河水生态治理保护研究[C]//中国水利学会城市水利专业委员会. 第七届城市水安全与水管理学术研讨会论文集. 2024: 21-26. |
| [10] | 陈淑维. 人工智能时代高职教师教学发展的现实挑战与路向选择[J]. 职业技术教育, 2024, 45(35): 56-60. |
| [11] | 余胜泉, 熊莎莎. 基于大模型增强的通用人工智能教师架构[J]. 开放教育研究, 2024, 30(1): 33-43. |
| [12] | 许家金, 赵冲. 大语言模型在英语教学中的角色[J]. 外语教育研究前沿, 2024, 7(1): 3-10+90. |
| [13] | UNESCO (2019) Artificial Intelligence in Education: Challenges and Opportunities for Sustainable Development. https://unesdoc.unesco.org/ark:/48223/pf0000366994 |
| [14] | Wu, H., Han, H., Wang, X., et al. (2020) Research on Artificial Intelligence Enhancing Internet of Things Security: A Survey. IEEE Access, 8, 153826-153848. |
| [15] | Mizumoto, A. (2023) Data-Driven Learning Meets Generative AI: Introducing the Framework of Metacognitive Resource Use. Applied Corpus Linguistics, 3, Article ID: 100074. https://doi.org/10.1016/j.acorp.2023.100074 |
