TY - JOUR
T1 - Lessons learned from applying social network analysis on an industrial Free/Libre/Open Source Software ecosystem
AU - Teixeira, Jose
AU - Robles, Gregorio
AU - González-Barahona, Jesús M.
N1 - Funding Information:
The work of Jose Teixeira was partially supported by the Fundação para a Ciência e a Tecnologia (grant SFRHBD615612009), Liikesivistysrahasto (grant 3-1815) and Marcus Wallenberg Säätiö (grant open-coopetition R&D management strategy). The work of Gregorio Robles and Jesús M. González Barahona has been funded in part by the Spanish Government under project SobreSale (TIN2011- 28110) and by the Region of Madrid under project “eMadrid - Investigación y Desarrollo de tecnologías para el e-learning en la Comunidad de Madrid” (S2013/ICE-2715).
Publisher Copyright:
© 2015, Teixeira et al.
PY - 2015/7/24
Y1 - 2015/7/24
N2 - Many software projects are no longer done in-house by a single organization. Instead, we are in a new age where software is developed by a networked community of individuals and organizations, which base their relations to each other on mutual interest. Paradoxically, recent research suggests that software development can actually be jointly-developed by rival firms. For instance, it is known that the mobile-device makers Apple and Samsung kept collaborating in open source projects while running expensive patent wars in the court. Taking a case study approach, we explore how rival firms collaborate in the open source arena by employing a multi-method approach that combines qualitative analysis of archival data (QA) with mining software repositories (MSR) and Social Network Analysis (SNA). While exploring collaborative processes within the OpenStack ecosystem, our research contributes to Software Engineering research by exploring the role of groups, sub-communities and business models within a high-networked open source ecosystem. Surprising results point out that competition for the same revenue model (i.e., operating conflicting business models) does not necessary affect collaboration within the ecosystem. Moreover, while detecting the different sub-communities of the OpenStack community, we found out that the expected social tendency of developers to work with developers from same firm (i.e., homophily) did not hold within the OpenStack ecosystem. Furthermore, while addressing a novel, complex and unexplored open source case, this research also contributes to the management literature in coopetition strategy and high-tech entrepreneurship with a rich description on how heterogeneous actors within a high-networked ecosystem (involving individuals, startups, established firms and public organizations) joint-develop a complex infrastructure for big-data in the open source arena.
AB - Many software projects are no longer done in-house by a single organization. Instead, we are in a new age where software is developed by a networked community of individuals and organizations, which base their relations to each other on mutual interest. Paradoxically, recent research suggests that software development can actually be jointly-developed by rival firms. For instance, it is known that the mobile-device makers Apple and Samsung kept collaborating in open source projects while running expensive patent wars in the court. Taking a case study approach, we explore how rival firms collaborate in the open source arena by employing a multi-method approach that combines qualitative analysis of archival data (QA) with mining software repositories (MSR) and Social Network Analysis (SNA). While exploring collaborative processes within the OpenStack ecosystem, our research contributes to Software Engineering research by exploring the role of groups, sub-communities and business models within a high-networked open source ecosystem. Surprising results point out that competition for the same revenue model (i.e., operating conflicting business models) does not necessary affect collaboration within the ecosystem. Moreover, while detecting the different sub-communities of the OpenStack community, we found out that the expected social tendency of developers to work with developers from same firm (i.e., homophily) did not hold within the OpenStack ecosystem. Furthermore, while addressing a novel, complex and unexplored open source case, this research also contributes to the management literature in coopetition strategy and high-tech entrepreneurship with a rich description on how heterogeneous actors within a high-networked ecosystem (involving individuals, startups, established firms and public organizations) joint-develop a complex infrastructure for big-data in the open source arena.
KW - Business models
KW - Cloud computing
KW - Homophily
KW - Open source
KW - Open-coopetition
KW - OpenStack
KW - Social network analysis
KW - Software ecosystems
UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=aboakademi&SrcAuth=WosAPI&KeyUT=WOS:000366797200001&DestLinkType=FullRecord&DestApp=WOS
U2 - 10.1186/s13174-015-0028-2
DO - 10.1186/s13174-015-0028-2
M3 - Article
AN - SCOPUS:84939234078
SN - 1867-4828
VL - 6
JO - Journal of Internet Services and Applications
JF - Journal of Internet Services and Applications
IS - 1
M1 - 14
ER -