Heterogeneous IT Innovation. Developing Industrial Architectural Knowledge
Abstract
Multiple information technologies are converging. Crucial to organizations’ relentless struggle
to remain competitive, IT innovation processes must now increasingly take into consideration a
multitude of stationary, mobile, and even embedded information technologies and their
associated use contexts. In assembling such ubiquitous computing environments, multiple
organizations with diverging interests and capabilities are involved. Indeed, heterogeneous
component technologies are frequently associated with independent markets lacking a dominant
actor knowledgeable about more than fragments of the combined capabilities present. A resulting
lack of architectural knowledge poses a challenge to organizations attempting to assemble
innovative computing environments spanning these boundaries. In this thesis, heterogeneous IT
innovation processes are conceptualized as dependent on dispersed component technologies and
associated competencies bound together by boundary-spanning architectural knowledge. This
perspective is formalized as a research model assessed over a five-year action research project in
the Swedish transport industry. The research project involved an industry network of independent
technology vendors and user organizations experiencing a mobile-stationary divide in attempts to
assemble ubiquitous computing environments. Seeking to understand the role and nature of
architectural knowledge in heterogeneous IT innovation processes this thesis contributes
implications for both research and strategy.
First, architectural knowledge in heterogeneous IT innovation is found to rely on technology
capability awareness, use context sensitivity, and business model understanding. However, in
order to be successfully enacted in practice, the emergence of boundary-spanning competence is
crucial. It is imperative to collectively define mutual boundaries between components of an
architecture with respect to technology capabilities, use contexts, and business models. Through
this process, architectural knowledge emerges as actors gain an increased capability to
appreciate the conditions present in other components. This creates a crucial foundation for
boundary spanning innovation. However, such boundary definitions must reflect a viable
common denominator. Any resulting formalized architecture should not pose an immediate threat
to perceived core markets of any involved component IT base. The need for open boundaryspanning
component capabilities and requirements of innovation leeway for individual firms
within their core IT base pose a balancing challenge. This can be achieved by black-boxing
disputed technology capabilities of the component IT bases, acknowledging the innovation
prerogative of organizations within that particular component market.
University
Göteborgs universitet/University of Gothenburg
Institution
Department of Applied Information Technology
Institutionen för tillämpad informationsteknologi
Disputation
IT-University, House Patricia, Torg 2 (2nd floor), Forskningsgången 6, kl. 14.00
Date of defence
2007-10-25
Date
2007Author
Andersson, Magnus
Publication type
Doctoral thesis
ISBN
978-91-628-7319-6
Series/Report no.
Gothenburg studies of informatics
40