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Bulletin of Chinese Academy of Sciences (Chinese Version)

Keywords

key emerging technology multi-agent collaboration international experience

Document Type

Logic and Approach for Independent Cultivating Future Leading S & T Talent

Abstract

The 20th National Congress of the Communist Party of China and the Third Plenary Session of the CPC Central Committee emphasized that education, science and technology, and talents are the foundational and strategic supports for Chinese-style modernization. Multi-agent collaborative talent development is an important starting point for realizing the organic combination of education development, scientific and technological innovation, and talent development through the joint participation of the government, enterprises, universities, scientific research institutions, and other parties to transform scientific and technological achievements into productivity. Taking the key emerging technology fields of quantum information, artificial intelligence, and biotechnology as examples, this study summarizes experiences of multi-agent collaborative talent development in the United States and Germany based on regional innovation ecology, and provides the enlightenment and suggestions for multi-agent talent development in key emerging technology fields in China, in order to promote the high-quality development of talents in key emerging fields in China and realize the integrated promotion of education, science and technology, and talents.

First page

250

Last Page

259

Language

Chinese

Publisher

Bulletin of Chinese Academy of Sciences

References

1 周萌, 朱相丽. 新兴技术概念辨析及其识别方法研究进展. 情报理论与实践, 2019, 42(10): 162-169.Zhou M, Zhu X L. Discrimination of the concept of emerging technologies and research progress on its identification methods. Information Studies (Theory & Application), 2019, 42(10): 162-169. (in Chinese)

2 孙明源. 高校课程改革,内容更新是根本. 科技日报, 2024-08-21(06). Sun M Y. In the reform of the curriculum of colleges and universities, content renewal is fundamental. Science and Technology Daily, 2024-08-21(06). (in Chinese)

3 杨博旭, 柳卸林, 吉晓慧. 区域创新生态系统:知识基础与理论框架. 科技进步与对策, 2023, 40(13): 152-160.Yang B X, Liu X L, Ji X H. Regional innovation ecosystem: Knowledge base and theoretical framework. Science & Technology Progress and Policy, 2023, 40(13): 152-160. (in Chinese)

4 Robaczewska J, Vanhaverbeke W, Lorenz A. Applying open innovation strategies in the context of a regional innovation ecosystem: The case of Janssen Pharmaceuticals. Global Transitions, 2019, 1: 120-131.

5 杨博旭, 王玉荣, 李兴光. 多维邻近与合作创新. 科学学研究, 2019, 37(1): 154-164.Yang B X, Wang Y R, Li X G. The impact of multidimensional proximity on cooperative innovation. Studies in Science of Science, 2019, 37(1): 154-164. (in Chinese)

6 桂潇璐. 德国量子科技发展战略和趋势研究. 全球科技经济瞭望, 2024, 39(3): 1-6.Gui X L. Strategies and trends in the development of quantum technology in Germany. Global Science, Technology and Economy Outlook, 2024, 39(3): 1-6. (in Chinese)

7 葛春雷, 裴瑞敏, 张秋菊. 德国科研机构协同创新组织模式研究. 中国科学院院刊, 2024, 39(2): 345-357.Ge C L, Pei R M, Zhang Q J. Collaborative innovation organizational modes of major scientific research institutes in Germany. Bulletin of Chinese Academy of Sciences, 2024, 39 (2): 345-357. (in Chinese)

8 柳卸林, 常馨之, 董彩婷. 构建创新生态系统,实现核心技术突破性创新——以 IMEC 在集成电路领域创新实践为例. 科学学与科学技术管理, 2021, 42(9): 3-18.Liu X L, Chang X Z, Dong C T. Build an ecosystem, realize breakthrough innovation in core technology fields: Take IMEC’s practice in the semiconductor field as an example. Science of Science and Management of S & T, 2021, 42(9): 3-18. (in Chinese)

9 秦庆, 汤书昆. 国外典型量子产学研联盟案例研究及对中国的启示. 世界科技研究与发展, 2023, 45(2): 243-253.Qin Q, Tang S K. Case study of typical foreign quantum industry-university-research institute alliance and its enlightenment to China. World Sci-Tech R&D, 2023, 45(2): 243-253. (in Chinese)

10 李万, 常静, 王敏杰, 等. 创新 3.0 与创新生态系统. 科学学研究, 2014, 32(12): 1761-1770.Li W, Chang J, Wang M J, et al. Innovation 3.0 and innovation ecosystem. Studies in Science of Science, 2014, 32(12): 1761-1770. (in Chinese)

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