Publications
Search results
Jump to search filtersA Multi-scale Paradigm to Design Policy Options for Obesity Prevention: Exploring the Integration of Individual-Based Modeling and System Dynamics
Abstract not provided.
Modeling Systems of Interacting Specialists
Abstract not provided.
MODELING TRIBAL LEADERSHIP DYNAMICS: AN OPINION DYNAMICS MODEL OF PASHTUN LEADERSHIP SELECTION
Abstract not provided.
Integrating Uncertainty Analysis into Complex-System Modeling for Effective Public Policy I: Preliminary Findings
Abstract not provided.
Complex Adaptive Systems of Systems (CASoS) Engineering: Mapping Aspirations to Problem Solutions
Abstract not provided.
Application of Complex Adaptive Systems of Systems Engineering to Tobacco Products
Abstract not provided.
Extending Opinion Dynamics to Model Public Health Problems and the Evaluation of Policy Interventions
Abstract not provided.
Analyzing Public Health Care as a Complex Adaptive System of Systems
Abstract not provided.
A Multiscale Paradigm Combining Individual-Based Modeling and System Dynamics to Design Policy Options for Obesity Problem
Abstract not provided.
Extending Opinion Dynamics to Model Public Health Problems and the Evaluation of Policy Interventions
Abstract not provided.
Policy Analysis with Agents and Social Networks Using Opinion Dynamics (Example for use of an unhealthy product)
Introduction to Complex Adaptive Systems-of-Systems (CASoS) Engineering
Abstract not provided.
Evaluation of policy options using uncertainty analysis of complex-system model results
Abstract not provided.
Complex Adaptive Systems of Systems (CASOS) Engineering Environment
Complex Adaptive Systems of Systems, or CASoS, are vastly complex physical-socio-technical systems which we must understand to design a secure future for the nation. The Phoenix initiative implements CASoS Engineering principles combining the bottom up Complex Systems and Complex Adaptive Systems view with the top down Systems Engineering and System-of-Systems view. CASoS Engineering theory and practice must be conducted together to develop a discipline that is grounded in reality, extends our understanding of how CASoS behave and allows us to better control the outcomes. The pull of applications (real world problems) is critical to this effort, as is the articulation of a CASoS Engineering Framework that grounds an engineering approach in the theory of complex adaptive systems of systems. Successful application of the CASoS Engineering Framework requires modeling, simulation and analysis (MS and A) capabilities and the cultivation of a CASoS Engineering Community of Practice through knowledge sharing and facilitation. The CASoS Engineering Environment, itself a complex adaptive system of systems, constitutes the two platforms that provide these capabilities.
Veterans affairs modeling : object oriented simulation environment : a complex adaptive systems modeling framework for public health action
Abstract not provided.
Defining & evaluating threats and designing mitigation strategies for VA healthcare
Abstract not provided.
Decision support tools for restoration and recovery following WMD events
Abstract not provided.
The BROOM System
Abstract not provided.
Results 76–94 of 94