The impact of socio-technical communication styles on the diversity and innovation potential of global science collaboratories
Authored by Levent Yilmaz, Ozgur Ozmen
Date Published: 2016
DOI: 10.1007/s10588-016-9213-5
Sponsors:
United States Department of Energy (DOE)
United States National Science Foundation (NSF)
Platforms:
Repast
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
Emerging cyber-infrastructure tools are enabling scientists to
transparently co-develop, share, and communicate about real-time diverse
forms of knowledge artifacts. In these environments, communication
preferences of scientists are posited as an important factor affecting
innovation capacity and robustness of social and knowledge network
structures. Scientific knowledge creation in such communities is called
global participatory science (GPS). Recently, using agent-based modeling
and collective action theory as a basis, a complex adaptive social
communication network model (CollectiveInnoSim) is implemented. This
work leverages CollectiveInnoSim implementing communication preferences
of scientists. Social network metrics and knowledge production patterns
are used as proxy metrics to infer innovation potential of emergent
knowledge and collaboration networks. The objective is to present the
underlying communication dynamics of GPS in a form of computational
model and delineate the impacts of various communication preferences of
scientists on innovation potential of the collaboration network. Gained
insight can ultimately help policy-makers to design GPS environments and
promote innovation.
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