TY - JOUR
T1 - Towards systemic transformation in the construction industry: A complex adaptive systems perspective
AU - Uusitalo, Petri
AU - Peltokorpi, Antti
AU - Seppänen, Olli
AU - Alhava, Otto
PY - 2024
Y1 - 2024
N2 - Purpose: This study aims to investigate the strategies that successful companies in the construction industry use to achieve systemic transformation within their value chains and broader ecosystems. This study focuses on understanding how these companies navigate the challenges of a mature and slow-changing industry through innovative approaches. Design/methodology/approach: A multiple case study design is used to analyze the systemic innovation dynamics across construction subsystems, through the lens of Complex Adaptive Systems theory. This research involves an empirical examination of nine case companies, selected based on their innovations in at least two construction subsystem areas and markers of success such as growth, profitability or invested capital. This methodology facilitates a detailed understanding of the company-level transformation. Findings: This study identifies four distinct development paths toward systemic transformation within the construction industry: product-driven, product platform-driven, process integration-driven and business model-driven. These paths are characterized by unique strategies integrating technology, optimizing processes and innovating business models, demonstrating how companies can effectively adapt to and evolve within the construction ecosystem. Originality/value: This research contributes original insights into company strategies and how they achieve systemic transformation. This study expands existing knowledge on systemic transformation in the construction industry by integrating empirical evidence with theoretical frameworks, offering a novel perspective on how successful companies innovate within a traditionally slow-changing sector.
AB - Purpose: This study aims to investigate the strategies that successful companies in the construction industry use to achieve systemic transformation within their value chains and broader ecosystems. This study focuses on understanding how these companies navigate the challenges of a mature and slow-changing industry through innovative approaches. Design/methodology/approach: A multiple case study design is used to analyze the systemic innovation dynamics across construction subsystems, through the lens of Complex Adaptive Systems theory. This research involves an empirical examination of nine case companies, selected based on their innovations in at least two construction subsystem areas and markers of success such as growth, profitability or invested capital. This methodology facilitates a detailed understanding of the company-level transformation. Findings: This study identifies four distinct development paths toward systemic transformation within the construction industry: product-driven, product platform-driven, process integration-driven and business model-driven. These paths are characterized by unique strategies integrating technology, optimizing processes and innovating business models, demonstrating how companies can effectively adapt to and evolve within the construction ecosystem. Originality/value: This research contributes original insights into company strategies and how they achieve systemic transformation. This study expands existing knowledge on systemic transformation in the construction industry by integrating empirical evidence with theoretical frameworks, offering a novel perspective on how successful companies innovate within a traditionally slow-changing sector.
KW - AEC industry
KW - business model
KW - construction
KW - strategy
KW - systemic transformation
KW - Business model
KW - Construction
KW - Systemic transformation
KW - Strategy
UR - http://www.scopus.com/inward/record.url?scp=85210094820&partnerID=8YFLogxK
U2 - 10.1108/CI-01-2024-0015
DO - 10.1108/CI-01-2024-0015
M3 - Article
SN - 1471-4175
VL - 24
SP - 341
EP - 368
JO - Construction Innovation: Information, Process, Management
JF - Construction Innovation: Information, Process, Management
IS - 7
ER -