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Improving Loops that Matter

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  • William Schoenberg
  • John Hayward
  • Robert Eberlein

Abstract

The Loops that Matter (LTM) approach to understanding behavior has proven easy to use and broadly applicable, but it has a shortcoming in its original formulation. This is because the original formulation treats the impact of a flow on a stock relative to the net flow, so that all scores tend to get very large in magnitude as a stock approaches equilibrium, but how big depends strongly on how the flows are specified. By reformulating the link scores from a flow to a stock, this topological dependency is removed. The mathematics behind this approach makes clear the relationship of LTM to the Pathway Participation and Loop Impact analysis methods. The result of this, when applying the analysis to a variety of models, is that the determination of the structure responsible for behavior is clearer, and more clearly tied to work already documented using other techniques. © 2023 The Authors. System Dynamics Review published by John Wiley & Sons Ltd on behalf of System Dynamics Society.

Suggested Citation

  • William Schoenberg & John Hayward & Robert Eberlein, 2023. "Improving Loops that Matter," System Dynamics Review, System Dynamics Society, vol. 39(2), pages 140-151, April.
    • Handle: RePEc:bla:sysdyn:v:39:y:2023:i:2:p:140-151
    DOI: 10.1002/sdr.1728
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    References listed on IDEAS

    as
    1. William Schoenberg & Pål Davidsen & Robert Eberlein, 2020. "Understanding model behavior using the Loops that Matter method," System Dynamics Review, System Dynamics Society, vol. 36(2), pages 158-190, April.
    2. Rogelio Oliva, 2016. "Structural dominance analysis of large and stochastic models," System Dynamics Review, System Dynamics Society, vol. 32(1), pages 26-51, January.
    3. Saleh, Mohamed & Oliva, Rogelio & Kampmann, Christian Erik & Davidsen, Pål I., 2010. "A comprehensive analytical approach for policy analysis of system dynamics models," European Journal of Operational Research, Elsevier, vol. 203(3), pages 673-683, June.
    4. Rogelio Oliva, 2020. "On structural dominance analysis," System Dynamics Review, System Dynamics Society, vol. 36(1), pages 8-28, January.
    5. John Hayward & Paul A. Roach, 2017. "Newton's laws as an interpretive framework in system dynamics," System Dynamics Review, System Dynamics Society, vol. 33(3-4), pages 183-218, July.
    6. John Hayward & Graeme P. Boswell, 2014. "Model behaviour and the concept of loop impact: A practical method," System Dynamics Review, System Dynamics Society, vol. 30(1-2), pages 29-57, January.
    7. Sergey Naumov & Rogelio Oliva, 2018. "Refinements on eigenvalue elasticity analysis: interpretation of parameter elasticities," System Dynamics Review, System Dynamics Society, vol. 34(3), pages 426-437, June.
    8. Erling Moxnes & Pål I. Davidsen, 2016. "Intuitive understanding of steady-state and transient behaviors," System Dynamics Review, System Dynamics Society, vol. 32(2), pages 128-153, April.
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