Chloe Atwater Member since: Monday, August 25, 2014

B.S. in Evolutionary Anthropology, UC Davis, PhD Student in Archaeology, ASU

Applying agent-based models to archaeological data, using modern ethnoarchaeological data as an analog for behavior.

Christopher Thron Member since: Saturday, November 07, 2015

Ph.D. in physics, University of Kentucky, Ph.D. in mathematics, University of Wisconsin

Mathematical modeling and simulation in social sciences, biology, physics, and signal processing.

Christopher Parrett Member since: Sunday, October 20, 2019 Full Member

I am a lowly civil servant moonlighting as a PhD student interested in urban informatics, Smart Cities, artificial intelligence/machine learning, all-things geospatial and temporal, advanced technologies, agent-based modeling, and social complexity… and enthusiastically trying to find a combination thereof to form a disseration. Oh… and I would like to win the lottery.

  • Applied data science (machine/deep learning applications) and computational modeling (agent-based
    modeling) in U.S. Government
  • Geographic Information Systems and analysis of dense urban environments and complex terrain
  • Complexity theory and computational organizational design of distributed enterprise teams.
  • Human Capital Management and Talent Management policy development

Simon Johanning Member since: Monday, July 17, 2017

BMus Composition & Music Technology, MA DDC: Music Technology

IRPact - An integrated agent based modeling approach in innovation diffusion

Goal: The goal of IRPact is to develop a flexible and generic innovation-diffusion ABM (agent-based modelling) framework, based on requirements derived from a literature analysis. The aim of IRPact is to allow for modeling a large number of application contexts and questions of interest.
It provides a formal model (framework) as well as a software implementation in order to assist modelers with a basic infrastructure for their own research.
Conceptually it is thought to be part of the IRPsim (, with the vision to bring together rational approaches and cognitive modeling in an integrated approach within the context of sustainable energy markets.

Kit Martin Member since: Thursday, January 15, 2015 Full Member

B.A. History, Bard College, M.A. International Development Practice Humphrey School of Public Affairs, PhD. Northwestern, Learning Sciences

I have a strong background in building and incorporating agent-based simulations for learning. Throughout my graduate career, I have worked at the Center for Connected Learning and Computer Based Modeling (CCL), developing modeling and simulation tools for learning. In particular, we develop NetLogo, the gold standard agent-based modeling environment for learners around the world. In my dissertation work, I marry biology and computer science to teach the emergent principles of ant colonies foraging for food and expanding. The work builds on more than a decade of experience in ABM. I now work at the Center for the Science and the Schools as an Assistant Professor. We delivered a curriculum to teach about COVID-19, where I incorporated ABMs into the curriculum.

You can keep up with my work at my webpage:

Studying the negative externalities of networks, and the ways in which those negatives feedback and support the continuities.

rocha Member since: Wednesday, January 04, 2012

Ph.D. in Computer Science (UFRGS, Brazil, 1993), M.Sc. in Computer Science (UFRGS, Brazil, 1980), Eletron. Eng. (UFRGS, Brazil, 1977)

Agent-based modeling and simulation of public policies.

Rodolphe Buda Member since: Monday, February 04, 2013

Doctor in Economic Science

Main Research Topics :
1) Agent-based Modeling (Communication between agents)
2) Economic and Econometric Algorithms and Software Development
3) Optimal International Trade Configuration

leonardo.rzoya Member since: Monday, May 28, 2012

BSc in Political Science, PhD Student in Sociology

My field of interests concerns two axes:
First, epistemology of computational modeling and simulation of complex systems. I am particularly interested in a sociological inquiry about social implication of knowledge derived from complex systems’ study.
Second, assessing the possibilities and limits of studying social complexity with complex systems tools, particularly, agent-based modeling and simulation.

Arpan Jani Member since: Monday, September 30, 2019

Arpan Jani received his PhD in Business Administration from the University of Minnesota in 2005. He is currently an Associate Professor in the Department of Computer Science and Information Systems at the University of Wisconsin – River Falls. His current research interests include agent-based modeling, information systems and decision support, behavioral ethics, and judgment & decision making under conditions of risk and uncertainty.

agent-based modeling; behavioral ethics; information systems and decision support; project management; judgment & decision making under conditions of risk and uncertainty.

Haizhong Wang Member since: Friday, February 20, 2015


agent-based modeling and simulation, traffic control and operation, emergency evacuation and disaster response

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