(Special Issue) Cultivating University–Industrial Collaboration Through a Cross-Appointment System in Japanese Higher Education: A Case Study of Osaka University
Author: Chun-Yi Tan(Master Program of Higher Education Management,National Taichung University of Education), Shih-Chang Lo(Program in Japan Studies,National Chengchi Universiry), Nai-Ming Yu(Program in Japan Studies,National Chengchi Universiry)
Vol.&No.:Vol. 67, No. 2
Date:June 2022
Pages:95-124
DOI:https://doi.org/10.6209/JORIES.202206_67(2).0004
Abstract:
To address needs for the open innovation and cultivation of university-industrial collaboration, the Japanese government has encouraged universities to integrate cross-appointment systems (CASs) into their personnel systems since the mid-2010s to promote technological innovation and technology transfer through the exchange of human resources between academia and industry.
CASs facilitate the establishment of joint appointments, in which a faculty member or researcher can affiliate with both a university and a company (or other university/research institute) simultaneously by entering a collaborative contract. After entering a collaborative contract, a faculty member/researcher works for both institutions in a specific arrangement of work time and workload, which facilitates the cross-border exchange of human resources between academia and industry and, in turn, facilitates cross-border innovation. By entering a collaborative contract, a faculty member can understand the priorities and perspectives of the company, and researchers employed by the company can be trained to use state-of-the-art technology available in the university. In addition, the company may provide an attractive salary to the faculty member as an incentive to participate in university-industrial collaboration.
Few studies have investigated CAS practices, and CASs have not been analyzed theoretically. Therefore, this study draws on the literature on barriers to and the facilitators of university-industrial collaboration as a framework to examine the practical process, effects, and challenges of CAS installation through a case study of Osaka University. Osaka University is a pioneer university in Japan that has adopted a CAS; it was selected for use as a case study because its CAS is often used as a representative case in Japan’s government policy guidelines.
In the relevant English-language literature, studies have demonstrated fundamental differences between academia and industry, such as those in their research goals, values, and work cultures, that complicate university-industrial collaboration. Some facilitators of university-industrial collaboration, including institutional support from universities, previous collaboration experience and trust between an academic institution and a company, social and geographical context, boundary-spanning activities, have been identified. In addition, the relevant Japanese literature indicate that to cultivate innovation, the Japanese government encourages universities to switch their university-industrial collaboration model from the traditional “silent understanding” (a long-term cooperation which relies on interpersonal relationship) model to the organization-to-organization model. The social meaning of university-industrial collaboration has changed from the commercialization of knowledge to university social responsibility, which is sometimes further linked to regional revitalization. The incorporation of national universities in Japan since 2004 has granted universities the autonomy to manage their intellectual property and maintain finance independence. Therefore, since 2004, university-industrial collaboration has flourished. Since the mid-2010s, government policy guidelines have promoted CASs as a means of promoting cross-border innovation through the university-industrial collaboration.
In this study, interviews were conducted with a personnel manager and a faculty member/ manager who participates in the CAS at Osaka University. Documents, including government policy guidelines, university regulations, and other documents related to Osaka University’s CAS practices, were collected and analyzed.
The findings are as follows. First, Osaka University’s CAS enables new types of boundary-spanning activities, in which each boundary spanner develops a new identity and becomes deeply involved in both the university and their respective company during the collaboration process. Thus, the CAS promotes the cross-border technological innovation effectively. Second, some factors affecting the installation and operation of the CAS, including the organizational culture of the university which encourages university-industrial collaboration, previous collaborative experience and trust between the university and the company, were identified. Osaka University’s CAS facilitates meaningful progress on the “fusion of industry and academia” at the university. Moreover, the university’s university-industrial collaboration model combines the features of the traditional silent understanding model and the organization-to-organization model in the Japanese context. Third, the CAS promotes the recruitment of foreign and female researchers, which introduces cultural diversity into the research environment. Fourth, some barriers to implementing measures to support faculty motivation and professional development remain. For instance, determining how to create and institutionalize a mechanism for adjusting the workload of faculty members who participate in the CAS is crucial, especially for promoting faculty participation in the system.
The implications of these findings for university-industrial collaboration and personnel system innovation in Taiwan are as follows. (1) To cultivate open and cross-border innovation, the government must establish new policies, institutions, and deregulations to grant more autonomy to universities, thus enabling them to making meaningful progress on the “fusion of industry and academia.” (2) To promote the “fusion of industry and academia,” universities must promote various boundary-spanning activities to create opportunities for collaboration between universities and industries and to cultivate an organizational culture that encourages faculty members to participate in and accumulate experience with organization-to-organization collaboration. (3) To encourage more faculty members to participate in university-industrial collaboration, diversified career development paths and faculty evaluation regulations are key to ensuring that faculty members who participate in university-industrial collaboration are not placed at a disadvantage in the university promotion system. (4) Companies, especially small and medium enterprises, must actively participate in university-industrial collaboration to strengthen their research and development capacities.
Because this study focused on CASs from the perspective of universities and faculty members, future studies may examine the effects of CASs from the perspective of participating companies to elucidate the effects of such systems on different stakeholders. Furthermore, although information collected in this study did not provide any insights regarding the problem of conflict of interest in CASs, a faculty member with a joint appointment with a company may encounter difficulties in avoiding conflicts of interest; therefore, this topic warrants further investigation. In addition, CASs can be applied not only in university-industrial collaboration but also in university-to-overseas university and university-to-research institution collaboration. Investigating the effects of and challenges encountered during various types of collaboration may provide meaningful insights into academic perspectives on CASs.
Keywords:Osaka University, higher education in Japan, cross-appointment system, university-industrial collaboration, open innovation
《Full Text》
References:
- 郭政芬(2022)。半導體人才戰:碩班搶手、博班冷清 半導體學院未來仍有三大考驗。聯合新聞網。https://vip.udn.com/vip/story/121938/6089382【Guo, Z.-F. (2022). Semiconductor talent war: Master program is in demand; doctoral program is deserted. There are three major challenges for the college of semiconductor research in the future. United Daily News. https://vip.udn.com/vip/story/121938/6089382】
- 陳昇瑋(2018)。政府想拚產業轉型?必須先改產學合作!。天下雜誌。https://www.cw.com. tw/article/5093518【Chen, S.-W. (2018). The government wants to focus on industrial transformation? Universities-industry collaboration must be changed first! CommonWealth Magazine. https://www.cw.com.tw/article/5093518】
- 溫肇東、樊學良(2013)。日本產學合作之理論研究及政策實踐歷程。管理與系統,20(2),201-226。【Wen, C.-D., & Fan, H.-L. (2013). Japanese university-industry cooperation model: Theoretical research and practical progression. Journal of Management & Systems, 20(2), 201-226.】
- 三菱総合研究所(2018)。クロスアポイントメントを実施するための手引:大学-企業間におけるクロスアポイントメントの積極的な活用を通じた産学連携の強化に向けて。https://www.mext.go.jp/content/1404593_002.pdf【Mitsubishi Research Institute. (2018). Guide to implement the cross-appointment system: For improving university- industry collaboration through adopting university-industry cross-appointment system. https://www.mext.go.jp/content/1404593_002.pdf】
- 大阪大学(2015)。大阪大学オリジナルの「共同研究講座・共同研究部門」 苦労のすえに生み出し、大きく成長。大阪大学News Letter,70,5-6。【Osaka University. (2015). Osaka University’s original “collaborative research lecture and collaborative research section”: The hardship produces big growth. Osaka University News Letter, 70, 5-6.】
» More
- 郭政芬(2022)。半導體人才戰:碩班搶手、博班冷清 半導體學院未來仍有三大考驗。聯合新聞網。https://vip.udn.com/vip/story/121938/6089382【Guo, Z.-F. (2022). Semiconductor talent war: Master program is in demand; doctoral program is deserted. There are three major challenges for the college of semiconductor research in the future. United Daily News. https://vip.udn.com/vip/story/121938/6089382】
- 陳昇瑋(2018)。政府想拚產業轉型?必須先改產學合作!。天下雜誌。https://www.cw.com. tw/article/5093518【Chen, S.-W. (2018). The government wants to focus on industrial transformation? Universities-industry collaboration must be changed first! CommonWealth Magazine. https://www.cw.com.tw/article/5093518】
- 溫肇東、樊學良(2013)。日本產學合作之理論研究及政策實踐歷程。管理與系統,20(2),201-226。【Wen, C.-D., & Fan, H.-L. (2013). Japanese university-industry cooperation model: Theoretical research and practical progression. Journal of Management & Systems, 20(2), 201-226.】
- 三菱総合研究所(2018)。クロスアポイントメントを実施するための手引:大学-企業間におけるクロスアポイントメントの積極的な活用を通じた産学連携の強化に向けて。https://www.mext.go.jp/content/1404593_002.pdf【Mitsubishi Research Institute. (2018). Guide to implement the cross-appointment system: For improving university- industry collaboration through adopting university-industry cross-appointment system. https://www.mext.go.jp/content/1404593_002.pdf】
- 大阪大学(2015)。大阪大学オリジナルの「共同研究講座・共同研究部門」 苦労のすえに生み出し、大きく成長。大阪大学News Letter,70,5-6。【Osaka University. (2015). Osaka University’s original “collaborative research lecture and collaborative research section”: The hardship produces big growth. Osaka University News Letter, 70, 5-6.】
- 大阪大学(2017)。全国の国立大学に先駆けて、大阪大学と企業とのクロスアポイントメント制度が始動しました。https://www.diver.danjo.osaka-u.ac.jp/news/post-5900/【Osaka University. (2017). As pioneer of national universities in the country, cross-appointment system between Osaka University and the companies started. https://www.diver.danjo.osaka-u.ac.jp/news/post-5900/】
- 大阪大学(2020)。地域に生き世界に伸びる女性研究者の持続的な育成と活躍に向けて 女性研究者循環型育成クラスターへ。https://www.diver.danjo.osaka-u.ac.jp/wp/wp-content/uploads/2020/04/OUdiversity_pamphlet_2019.pdf【Osaka University. (2020). For sustained development and activity of female researchers who act in the region and the world: Formulating a cluster for female researchers developing circulation. https://www.diver.danjo. osaka-u.ac.jp/wp/wp-content/uploads/2020/04/OUdiversity_pamphlet_2019.pdf】
- 大阪大学経営企画オフィス(2016)。人事交流制度を考える-大阪大学工学研究科におけるクロス・アポイントメントや出向の事例から。URA MAIL MAGAZINE,39。https:// www.ura.osaka-u.ac.jp/uramagazine/vol_039.html【Office of Management and Planning, Osaka University. (2016). Thinking about the system of personnel exchange: From the cases of cross-appointment and secondment system in Graduate School of Engineering, Osaka University. URA MAIL MAGAZINE, 39. https://www.ura.osaka-u.ac.jp/uramagazine/vol_039.html】
- 大畠陽二郎(2020)。大阪大学 コマツみらい建機協働研究所。システム/制御/情報,64(3),111-113。https://doi.org/10.11509/isciesci.64.3_111【Ohbatake, Y. (2020). Komatsu MIRAI Construction Equipment Cooperative Research Center Graduate School of Engineering, Osaka University. Systems, Control and Information, 64(3), 111-113. https://doi.org/10.11509/isciesci.64.3_111】
- 大須賀公一(2019)。大阪大学「コマツみらい建機協働研究所」。海外投融資JOI,2019年7月號,52-55。【Osuka, K. (2019). “Komatsu MIRAI Construction Equipment Cooperative Research Center” Osaka University. Overseas Investment (JOI), July, 2019, 52-55.】
- 內閣府(2016)。第5期(2016-20)科學技術基本計劃。https://www8.cao.go.jp/cstp/kihon keikaku/5honbun.pdf【Cabinet Office. (2016). The 5th science and technology basic plan (2016-20). https://www8.cao.go.jp/cstp/kihonkeikaku/5honbun.pdf】
- 文部科学省(2019)。国立大学法人等人事給与マネジメント改革に関するガイドライン。https://www.mext.go.jp/content/20210420-mxt-hojinka-1403895_7.pdf【Ministry of Education, Culture, Sports, Science and Technology (MEXT) (2019). Guidelines for personnel salary management reform of national university corporation. https://www.mext.go.jp/content/20210420-mxt- hojinka-1403895_7.pdf】
- 文部科学省、経済産業省(2020)。産学官連携による共同研究強化のためのガイドライン(追補版)。https://www.meti.go.jp/policy/innovation_corp/gudeline_tsuihoban.pdf【Ministry of Education, Culture, Sports, Science and Technology (MEXT) & Ministry of Economy, Trade and Industry. (2020). Guidelines for strengthening cooperative research of industry-academia-government collaboration (supplement revision). https://www.meti.go.jp/policy/innovation_corp/gudeline_tsuihoban.pdf】
- 文部科学省高等教育局、文部科学省科学技術・学術政策局、経済産業省産業技術環境局(2016)。産学官連携による共同研究強化のためのガイドライン。https://www.mext.go.jp/component/a_menu/science/detail/__icsFiles/afieldfile/2016/12/27/1380912_02.pdf【Higher Education Bureau, Ministry of Education, Culture, Sports, Science and Technology (MEXT), Science and Technology Policy Bureau, Ministry of Education, Culture, Sports, Science and Technology (MEXT), & Industrial Science and Technology Policy and Environment Bureau, Ministry of Economy, Trade and Industry. (2016). Guidelines for strengthening cooperative research of industry-academia-government collaboration.https://www.mext.go.jp/component/a_menu/science/detail/__icsFiles/afieldfile/2016/12/27/1380912_02.pdf】
- 安田聡子、隅藏康一、長根(齋藤)裕美、富澤宏之(2019)。産学連携:中小企業と積極的に協力する大学および連携プロジェクトの研究。日本政策金融公庫論集,44,71-98。【Yasuda, S., Sumikura, K., Nagane (Saito), H., & Tomizawa, H. (2019). University-industry collaboration: Study of a university which cooperates with medium and small-sized business positively and the collaborative project. Japan Finance Corporation Collection of Treatises, 44, 71-98.】
- 池田貴城(2012)。産学官連携の課題と今後の展望-主として高等教育行政の観点から-。産学連携学,8(2),66-75。https://doi.org/10.11305/jjsip.8.2_66【Ikeda, T. (2012). Perspective of industry-academia-government collaboration in Japan: From the viewpoint of higher education administration. Journal of the Japan Society for Intellectual Production, 8(2), 66-75. https://doi.org/10.11305/jjsip.8.2_66】
- 科学技術・学術審議会、産業連携・地域支援部会、産学官連携推進委員会(2010)。イノベーション促進のための産学官連携基本戦略-イノベーション・エコシステムの確立に向けて-。https://www.mext.go.jp/component/b_menu/shingi/toushin/__icsFiles/afieldfile/2010/09/07/1297355_1.pdf【Industry-university Collaboration Promotion Committee, Industrial Cooperation and Local Support Section, & Council for Science and Technology. (2010). Strategies for industry-academia collaboration for innovation promotion: For establishing the innovation ecosystem. https://www.mext.go.jp/component/b_menu/shingi/ toushin/__icsFiles/afieldfile/2010/09/07/1297355_1.pdf】
- 科学技術・学術審議会、技術・研究基盤部会、産学官連携推進委員会(2001)。新時代の産学官連携の構築に向けて ~大学発の連鎖的な新産業の創出を加速するために~。https://warp.da.ndl.go.jp/info:ndljp/pid/8296188/www.mext.go.jp/b_menu/shingi/gijyutu/gijyutu8/toushin/010701.htm【Industry-University Collaboration Promotion Committee, Technology and Research Section, & Council for Science and Technology. (2001). Constructing industry-academia-government collaboration for the new era: For accelerating the creation of new industry from the universities. https://warp.da.ndl.go.jp/info:ndljp/pid/ 8296188/www.mext.go.jp/b_menu/shingi/gijyutu/gijyutu8/toushin/010701.htm】
- 兼本雅章(2015)。日本における産学連携-その変遷と文系産学連携を中心に-。総合政策論叢,6,47-80。【Kanemoto, M. (2015). Industry-university cooperation in Japan: Focusing on historical transition and industry-university cooperation in the field of humanities. Shimane Journal of Policy Studies, 6, 47-80.】
- 荒磯恒久(2014)。欧米における産学官連携と日本の特徴。産学連携学,10(1),1-12。https://doi.org/10.11305/jjsip.10.1_1_1【Araiso, T. (2014). The features of Japan and the industry-academia-government cooperation system in USA and Europe. Journal of the Japan Society for Intellectual Production, 10(1), 1-12. https://doi.org/10.11305/jjsip. 10.1_1_1】
- 宮田由紀夫(2006)アメリカの産学連携-社会における大学の役割-。高等教育研究,9,21-40。https://doi.org/10.32116/jaher.9.0_21【Miyata, Y. (2006). An analysis of university-industry collaboration in the United States in terms of the role of universities in society. Japanese Journal of Higher Education Research, 9, 21-40. https://doi.org/10.32116/ jaher.9.0_21】
- 桑島修一郎(2019)。産官学連携から考える大学経営。研究・イノベーション学会年次学術大会講演要旨集,34,522-525。【Kuwajima, S. (2019) Thinking the university management from industry-academia-government collaboration. Proceedings of the Annual Conference of Japan Society for Research Policy and Innovation Management, 34, 522-525.】
- 飯田樹(2017)。大学をコンサルタントに-「組織対組織」の産学連携が導くイノベーション:経産省。https://japan.zdnet.com/article/35101648/【Iida, I. (2017). The “organization-to-organization” university-industry collaboration leads innovation: Ministry of Economy, Trade and Industry. https://japan.zdnet.com/article/35101648/】
- 経済産業省、文部科学省(2020)。クロスアポイントメント制度の基本的枠組みと留意点(追補版)。https://www.mext.go.jp/a_menu/shinkou/sangaku/mext_00750.html【Ministry of Economy, Trade and Industry, & Ministry of Education, Culture, Sports, Science and Technology (MEXT) (2020). The basic framework of the cross-appointment system and points of attention (expanded edition). https://www.mext.go.jp/a_menu/shinkou/sangaku/mext_00750.html】
- 総合科学技術・イノベーション会議(2015)。第5期科学技術基本計画に向けた 中間取りまとめ。https://www8.cao.go.jp/cstp/tyousakai/kihon5/chukan/honbun.pdf【Council for Science, Technology and Innovation. (2015). Interim report for the 5th Science and Technology Basic Plan. https://www8.cao.go.jp/cstp/tyousakai/kihon5/chukan/honbun.pdf】
- Ankrah, S., & AL-Tabbaa, O. (2015). Universities-industry collaboration: A systematic review. Scandinavian Journal of Management, 31(3), 387-408. https://doi.org/10.1016/j.scaman.2015.02.003
- Barnes, T., Pashby, I., & Gibbons, A. (2002). Effective university-industry interaction: A multi-case evaluation of collaborative R&D projects. European Management Journal, 20(3), 272-285. https://doi.org/10.1016/S0263-2373(02)00044-0
- Bruneel, J., D’esteb, P., & Salter, A. (2010). Investigating the factors that diminish the barriers to university-industry collaboration. Research Policy, 39(7), 858-868. https://doi.org/10.1016/j.respol.2010.03.006
- Caldera, A., & Debande, O. (2010). Performance of Spanish universities in technology transfer: An empirical analysis. Research Policy, 39(9), 1160-1173. https://doi.org/10.1016/j.respol.2010.05.016
- Casper, S. (2013). The spill-over theory reversed: The impact of regional economies on the commercialization of university science. Research Policy, 42(8), 1313-1324. https://doi.org/10.1016/j.respol.2013.04.005
- Chesbrough, H. (2003). Open innovation: The new imperative for creating and profiting from technology. Harvard Business School Press.
- Franco, M., & Haase, H. (2015). University-industry cooperation: Researchers’ motivations and interaction channels. Journal of Engineering and Technology Management, 36, 41-51. https://doi.org/10.1016/j.jengtecman.2015.05.002
- Hahn, C. (2008). Doing qualitative research using your computer: A practical guide. Sage.
- Hemmert, M., Bstieler, L., & Okamuro, H. (2014). Bridging the cultural divide: Trust formation in university-industry research collaborations in the US, Japan, and South Korea. Technovation, 34(10), 605-616. https://doi.org/10.1016/j.technovation.2014.04.006
- Lee, K.-J., Ohta, T., & Kakehi, K. (2010). Formal boundary spanning by industry liaison offices and the changing pattern of university-industry cooperative research: The case of the University of Tokyo. Technol Anal Strateg Manag, 22, 189-206. https://doi.org/10.1080/09537320903498538
- Mora-Valentin, E. M., Montoro-Sanchez, A., & Guerras-Martin, L. A. (2004). Determining factors in the success of R&D cooperative agreements between firms and research organizations. Research Policy, 33, 17-40. https://doi.org/10.1016/S0048-7333(03)00087-8
- Nsanzumuhire, S. U., & Groot, W. (2020). Context perspective on University-Industry Collaboration processes: A systematic review of literature. Journal of Cleaner Production, 258, 120861. https://doi.org/10.1016/j.jclepro.2020.120861
- Osuka, K., & Ohbatake, Y. (2021). Osaka University: Komatsu “MIRAI” (Japanese for “Future”) Construction Equipment Cooperative Research Center. Journal of Robotics and Mechatronics, 33(3), 592-598. https://doi.org/10.20965/jrm.2021.p0592
- Petruzelli, A. M. (2011). The impact of technological relatedness, prior ties, and geographical distance on university-industry collaborations: A joint-patent analysis. Technovation, 31(7), 309-319. https://doi.org/10.1016/j.technovation.2011.01.008
- Schaeffer, P. R., Dullius, A. C., Rodrigues, R. M., & Zawislak, P. A. (2017). Searching to bridge the gaps: A new typology of university-industry interaction. Academia Revista Latinoamericana de Administración, 30(4), 459-473. https://doi.org/10.1108/ARLA-05-2016-0148
- Segarra-Blasco, A., & Arauzo-Carod, J.-M. (2008). Sources of innovation and industry-university interaction: Evidence from Spanish firms. Research Policy, 37(8), 1283-1295. https://doi.org/10.1016/j.respol.2008.05.003
- Sherwood, A. L., & Covin, J. G. (2008). Knowledge acquisition in university-industry alliances: An empirical investigation from a learning theory perspective. Journal of Product Innovation Management, 25(2), 162-179. https://doi.org/10.1111/j.1540-5885.2008.00292.x
- Siegel, D. S., Waldman, D., & Link, A. (2003). Assessing the impact of organizational practices on the relative productivity of university technology transfer offices: An exploratory study. Research Policy, 32(1), 27-48. https://doi.org/10.1016/S0048-7333(01)00196-2
- Sjöö, K., & Hellström, T. (2019). University-Industry collaboration: A literature review and synthesis. Industry and Higher Education, 33(4), 275-285. https://doi.org/10.1177/0950422219829697
- Thune, T. (2009). Doctoral students on the university-industry interface: A review of the literature. Industry and Higher Education, 58(5), 637-651. https://doi.org/10.1007/s10734-009-9214-0
- Tushman, M. L. (1977). Special boundary roles in the innovation processes. Administrative Science Quarterly, 22(4), 587-605. https://doi.org/10.2307/2392402
- Tushman, M. L., & Scanlan, T. J. (1981). Boundary spanning individuals: Their role in information transfer and their antecedents. Academy of Management Journal, 24(2), 289-305. https://doi.org/10.2307/255842
- Van Looy, B., Debackere, K., & Andries, P. (2003). Policies to stimulate regional innovation capabilities via university-industry collaboration: An analysis and an assessment. R&D Management, 33(2), 209-229. https://doi.org/10.1111/1467-9310.00293
- Veugelers, R., & Cassiman, B. (2005). R&D cooperation between firms and universities. Some empirical evidence from Belgian manufacturing. International Journal of Industrial Organization, 23(5-6), 355-379. https://doi.org/10.1016/j.ijindorg.2005.01.008
- Wen, J., & Kobayashi, S. (2001). Exploring collaborative R&D network: Some new evidence from Japan. Research Policy, 30(8), 1309-1319. https://doi.org/10.1016/S0048-7333(00)00152-9