|
|
|
| A Measurement Model for Synergetic Degree between S&T Talents and S&T Innovation and its Application |
| Li Liangcheng1,2,Chen Xin2,Zheng Shiming2 |
| (1.School of Marxism, South China University of Technology; 2.School of Public Administration, South China University of Technology, Guangzhou 510641, China) |
|
|
|
|
Abstract The interaction and coordinated development mechanism between S&T talents and S&T innovation were analyzed. Based on this, it constructed the S&T talents subsystem order degree model, the S&T innovation subsystem order degree model and the composite system synergetic degree measurement model. Adopting statistics from 2006 to 2016 in mainland China, it conducted an empirical analysis on the S&T talents and S&T innovation composite system synergy of the same base period, and the adjacent base period as well, the data of the past decade shows that the same base-phase synergies of S&T talents and S&T innovation composite system have risen significantly, while the adjacent base phase synergies of S&T talents and S&T innovation composite systems have been stable and at low-level, and the synergy growth rate of S&T talents subsystems and S&T innovation subsystems tends to be more consistent in the synergies and to be in a good mutual promotion process. Some suggestions for promoting the coordinated development of the composite system were proposed.
|
|
Received: 04 December 2018
|
|
|
|
|
|
[1]夏天. 创新驱动过程的阶段特征及其对创新型城市建设的启示[J]. 科学学与科学技术管理, 2010,31(2):124-129.
[2] 程郁,陈雪. 创新驱动的经济增长——高新区全要素生产率增长的分解[J]. 中国软科学,2013(11):26-39.
[3] 李琦. 产业科技人才在科技成果产业化中的作用[J]. 中国高校科技, 2016(6):91-93.
[4] FURMAN J L, HAYES R. Catching up or standing still? national innovative productivity among "follower" countries, 1978-1999[J]. Research Policy, 2004, 33(9):1329-1354.
[5] NIEVES J, QUINTANA A, OSORIO J. Organizational knowledge and collaborative human resource practices as determinants of innovation[J]. Knowledge Management Research&Practice, 2016, 14(3):237-245.
[6] 芮雪琴,李亚男,牛冲槐. 科技人才聚集的区域演化对区域创新效率的影响[J]. 中国科技论坛, 2015(12):126-131.
[7] 修国义,韩佳璇,陈晓华. 科技人才集聚对中国区域科技创新效率的影响——基于超越对数随机前沿距离函数模型[J]. 科技进步与对策, 2017,34(19):36-40.
[8] 王晖. 科技人才聚集效应与科技创新产出的关系研究[J]. 湘潭大学学报:哲学社会科学版, 2014,38(4):28-32.
[9] 王聪,周立群,朱先奇,等. 基于人才聚集效应的区域协同创新网络研究[J]. 科研管理, 2017,38(11):27-37.
[10]MIRANDA-MARTEL M J,MIHI-RAMIREZ A,ARTEAGA-ORTIZ J. How the level of economic growth and the constituent elements of innovation attract international talent? [J]. Engineering Economics,2017, 28(2):187–197.
[11] OECD. Reviews of innovation policy: China[M]. ORCD ilibrary,2008.
[12] 皮亚杰. 结构主义[M]. 北京:北京商务印书馆, 1996.
[13] 孙冰,张敏. 基于序参量的企业自主创新动力系统协同机理研究[J]. 中国科技论坛, 2010(10):19-24.
[14] 贺灵,单汨源,邱建华. 创新网络要素及其协同对科技创新绩效的影响研究[J]. 管理评论, 2012,24(8):58-68.
[15] 罗兴鹏,张向前. 我国“十三五”期间创新驱动战略实施与科技人才发展互动耦合研究[J]. 科技进步与对策, 2015,32(17):145-151.
[16] 査成伟,陈万明,唐朝永,等. 高技术产业科技人才聚集效应与技术创新协同研究[J]. 科技进步与对策, 2015,32(1):147-152.
[17] 徐思思,张红方. 科技型人才聚集与高新产业协同度研究——基于武汉市的分析[J]. 武汉理工大学学报:社会科学版, 2018,31(2):113-119.
[18] HAKEN H SYNERGETICS. Introduction and advanced topics[M]. 3nd Berlin: Springer, 2004:24-45.
[19] 孟庆松,韩文秀. 复合系统协调度模型研究[J]. 天津大学学报, 2000(4):444-446.
[20] 夏业领,何刚. 中国科技创新-产业升级协同度综合测度[J]. 科技管理研究, 2018,38(8):27-33.
[21] 王宏起,徐玉莲. 科技创新与科技金融协同度模型及其应用研究[J]. 中国软科学, 2012(6):129-138.
[22] 郭跃进,朱平利. 我国区域科技人才竞争力评价研究[J]. 科技进步与对策, 2014,31(8):130-134.
|
|
|
|
