馮科,女,博士,湖南大學工商管理學院助理教授。
基本介紹
- 中文名:馮科
- 畢業院校:湖南大學
- 學位/學歷:博士
- 專業方向:工商管理
- 任職院校:湖南大學
人物經歷,研究領域,講授課程,學術成果,科研成果,主持項目,參與項目,
人物經歷
研究領域
主要研究領域為技術創新管理,近年來主鞏擔判要圍繞創新網路、技術標準競爭、跨界創新、技術融合等主題開展研究。
講授課程
人力資源管理(本科生)
企業理論(本科生)
技術創新管理(MBA)
產業組織理論(學術碩士研究生、樂漏充灶博士生)
學術成果
[1]馮科*,曾德明,周盺,萬煒. 創新網路結構洞非均衡演進對技術創新的影響[J].系統工程,2014.32(08):110-116.
摘要:創新網路中的結構洞以非冗餘連結為特徵,其作為異質知識的傳播樞紐對於創新績效產生重要影響。本文利用汽車行業合作專利構建創新網路,揭示了創新網路中結構洞的非均衡演進特徵。具體表現為創新網路從早期以小型結構洞為主的態勢,逐漸轉化為極少數大型結構洞與大量小型結構洞並存的態勢。協整分析的研究結果表明結構洞非均衡化水平的提高對技術創造性程度更高的技術創新產出的有正向作用。而結構洞平均水平的提高對技術創造性程度較低的煮射漏只技術創新產出有正向作用。
Abstract: Structural holes in innovation networks are characterized with non-redundant linkages. They are hubs for heterogenic knowledge and have important effect on innovation performance. Co-patents are used from automotive industry to construct innovation networks which reveals the disequilibrium evolution process of structural holes. During such process, the innovation networks are gradually transformed from an early stages mainly occupied by small structural holes into later stages with large quantity of small structural holes and slight number of huge structural holes. Results of co-integration analysis show that the disequilibrium evolution of structural holes in innovation networks has a positive impact on technological innovation output of higher technological novelty. The average level of structural holes has positive effect on the technology innovation output of lower technological novelty.
[2]馮科,曾德明. 多措並舉,鼓勵協同創新. 經濟日報理論周刊, 2014.4.26 (13版).
[3]萬煒*,曾德明,馮科,周昕. 產業創套多新網路派系演進及其對技術創新的影響.湖南大學學報(自然科學版), 2013.40(11):120-124.
摘要:創新網路中的派系由於其高密度、高聚集以及成員之間全連通的結構特徵對網路的演進和創新績效產生影響。本文從專利合作網路視角研究創新網路,將1985年到2009年在國家知識產權局申請的汽車技術合作專利作為樣本數據,利用UCINET6繪製中國汽車行業專利合作圖譜,揭示了派系設獄員式技術合作與創新網路的共生演化過程以及派繫結構與行業整體技術創新績效的關係。研究結果表探笑府明:派系式技術合作是創祖地多新網路規模和結構不斷發展、深化的重要途徑;創新網路所產出的專利技術不斷向派系成員聚集,派繫結構在網路整體創新績效中發揮著顯著的作用。
Abstract: Cliques have effect on evolution and performance of innovation network due to its structural feature of high density, high cohesiveness and interconnection with each other. This research takes the patent collaboration network to denote the innovation network, uses collaborative patents applied in the SIPO related to automobile industry between the year 1985 to 2009 in China, and then employs UCINET6 to draw topology maps of patents collaboration network, reveals the dynamic evolution progress of cliques and their impacts on network performance. Results show that the development of innovation networks relies on cliquish technology collaboration as an important path; the output of patents of the whole innovation network gradually concentrate to the clique members, and cliques as an important sub-structure play an significant role in the overall technological innovation performance of the network.
[4]Feng, K. *, Zeng, D.M, Yu, X.Y.Co-authorship networks and its academia-industry linkage: The case of China’s genetic-engineering pharmaceutical industry. presented at the “Third Global Conference on Economic Geography 2011: Space, Economy and Environment, COEX, Seoul, Korea, June 28 - July 2, 2011.
科研成果
主持項目
[1]湖南省自然科學基金面上項目,技術創新網路促進高技術行業技術標準化的機理研究、2015/01-2017/12、在研、主持。
參與項目
[1]國家自然科學基金青年項目,眾包協同創新網路的資源集成模式及其對產品創新績效的作用機理、2015/01-2017/12、在研、參加。
[2]國家自然科學基金重點項目,自主創新背景下我國高技術行業標準化戰略與政策研究、2013/01-2017/12、在研、參加。
[3]國家自然科學基金一般項目,高技術服務創新網路開放式集成模式及演化機理研究、2012/01-2015/12、在研、參加。
[2]馮科,曾德明. 多措並舉,鼓勵協同創新. 經濟日報理論周刊, 2014.4.26 (13版).
[3]萬煒*,曾德明,馮科,周昕. 產業創新網路派系演進及其對技術創新的影響.湖南大學學報(自然科學版), 2013.40(11):120-124.
摘要:創新網路中的派系由於其高密度、高聚集以及成員之間全連通的結構特徵對網路的演進和創新績效產生影響。本文從專利合作網路視角研究創新網路,將1985年到2009年在國家知識產權局申請的汽車技術合作專利作為樣本數據,利用UCINET6繪製中國汽車行業專利合作圖譜,揭示了派系式技術合作與創新網路的共生演化過程以及派繫結構與行業整體技術創新績效的關係。研究結果表明:派系式技術合作是創新網路規模和結構不斷發展、深化的重要途徑;創新網路所產出的專利技術不斷向派系成員聚集,派繫結構在網路整體創新績效中發揮著顯著的作用。
Abstract: Cliques have effect on evolution and performance of innovation network due to its structural feature of high density, high cohesiveness and interconnection with each other. This research takes the patent collaboration network to denote the innovation network, uses collaborative patents applied in the SIPO related to automobile industry between the year 1985 to 2009 in China, and then employs UCINET6 to draw topology maps of patents collaboration network, reveals the dynamic evolution progress of cliques and their impacts on network performance. Results show that the development of innovation networks relies on cliquish technology collaboration as an important path; the output of patents of the whole innovation network gradually concentrate to the clique members, and cliques as an important sub-structure play an significant role in the overall technological innovation performance of the network.
[4]Feng, K. *, Zeng, D.M, Yu, X.Y.Co-authorship networks and its academia-industry linkage: The case of China’s genetic-engineering pharmaceutical industry. presented at the “Third Global Conference on Economic Geography 2011: Space, Economy and Environment, COEX, Seoul, Korea, June 28 - July 2, 2011.
