According to the Systems Dynamics Society*, system dynamics is a computer-aided approach to policy analysis and design. It applies to dynamic problems arising in complex social, managerial, economic, or ecological systems — literally any dynamic systems characterized by interdependence, mutual interaction, information feedback, and circular causality.

Distinguished Professor Bernard Amadei’s current interests reside in the application of systems science and complexity science in small-scale community development projects and geological engineering projects. More specifically, he is interested in how to use system dynamics tools combined with other decision making tools to: (i) model the complex interactions taking place across social, natural, economic, and infrastructure systems; and (ii) understand how such interactions may contribute to sustainable development.

Recent books by B. Amadei:
(1) "Engineering for Sustainable Human Development: A Guide to Successful Small-Scale Community Projects " ASCE Press (2014);
(2) "A systems Approach to Community Development Projects" Momentum Press (2015).

Research by Dr. Bernard Amadei and PhD students Nicholas Valcourt and David Zelinka

Sample graphic of system using STELLA software

*Definition courtesy of http://www.systemdynamics.org/what-is-s/