Defining SD

Open Access Note by Asmeret Naugle, Saeed Langarudi, Timothy Clancy: https://doi.org/10.1002/sdr.1762

Abstract
A clear definition of system dynamics modeling can provide shared understanding and clarify the impact of the field. We introduce a set of characteristics that define quantitative system dynamics, selected to capture core philosophy, describe theoretical and practical principles, and apply to historical work but be flexible enough to remain relevant as the field progresses. The defining characteristics are: (1) models are based on causal feedback structure, (2) accumulations and delays are foundational, (3) models are equation-based, (4) concept of time is continuous, and (5) analysis focuses on feedback dynamics. We discuss the implications of these principles and use them to identify research opportunities in which the system dynamics field can advance. These research opportunities include causality, disaggregation, data science and AI, and contributing to scientific advancement. Progress in these areas has the potential to improve both the science and practice of system dynamics.

I shared some earlier thoughts here, but my refined view is in the SDR now:


Invited Commentaries by Tom Fiddaman, Josephine Kaviti Musango, Markus Schwaninger, Miriam Spano: https://doi.org/10.1002/sdr.1763

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