Computational organization theory
Computational & Mathematical Organization Theory
Communications of the ACM
Representing Medical Protocols for Organizational Simulation: An Information-Processing Approach
Computational & Mathematical Organization Theory
A Trajectory for Validating Computational Emulation Models of Organizations
Computational & Mathematical Organization Theory
Organizations and Complexity: Searching for the Edge of Chaos
Computational & Mathematical Organization Theory
Virtual Teams: What are their Characteristics, and Impact on Team Performance?
Computational & Mathematical Organization Theory
Organization Evaluation of Product Development Process Using Agent Based Simulation
Computer Supported Cooperative Work in Design IV
Efficient experimental design tools for exploring large simulation models
Computational & Mathematical Organization Theory
IJCNN'09 Proceedings of the 2009 international joint conference on Neural Networks
Computational & Mathematical Organization Theory
The variety engineering method: analyzing and designing information flows in organizations
Information Systems and e-Business Management
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As they are maturing—i.e., as they are becoming validated, calibrated and refined—computational emulation models of organizations are evolving into: powerful new kinds of organizational design tools for predicting and mitigating organizational risks; and flexible new kinds of organizational theorem-provers for validating extant organization theory and developing new theory. Over the past 50 years, computational modeling and simulation have had enormous impacts on the rate of advancement of knowledge in fields like physics, chemistry and, more recently, biology; and their subsequent application has enabled whole new areas of engineering practice. In the same way, as our young discipline comes of age, computational organizational models are beginning to impact behavioral, organizational and economic science, and management consulting practice. This paper attempts to draw parallels between computational modeling in natural sciences and computational modeling of organizations as a contributor to both social science and management practice.To illustrate the lifecycle of a computational organizational model that is now relatively mature, this paper traces the evolution of the Virtual Design Team (VDT) computational modeling and simulation research project at Stanford University from its origins in 1988 to the present. It lays out the steps in the process of validating VDT as a “computational emulation” model of organizations to the point that VDT began to influence management practice and, subsequently, to advance organizational science. We discuss alternate research trajectories that can be taken by computational and mathematical modelers who prefer the typical natural science validation trajectory—i.e., who attempt to impact organizational science first and, perhaps subsequently, to impact management practice.The paper concludes with a discussion of the current state-of-the-art of computational modeling of organizations and some thoughts about where, and how rapidly, the field is headed.