This is the simulation used in the study “A Simulation of Entrepreneurial Spawning”, published in the Journal of Artificial Societies and Social Simulation 20(3)9. It shows how patterns of industrial clustering arise with respect to the size of an initial firm when abstractly measured in terms of innovation. We imagine beginning with a single firm, located in a single geographical area. The innovation process that results from this initial firm leads to new firms in the form of spinoffs. To make full sense of this model, I recommend reading the accompanying paper.
Each ‘node’ in the model represents an idea in a cognitive space. When running the simulation, each node will seek out another, with its ‘sight’ limited by parameters that are a function of the initial firm size. New ideas are a function of old ones, much like the crossover and mutation process in genetics. Eventually, this leads to market structures that differ with respect to the initial firm size. Nodes of one color represent one firm.
Only two parameters are available for adjustment: ‘time-limit’ and ‘initial-firm-size’. Select the parameters of interest and then click ‘Setup’. Then click ‘Go Forever’ to see the simulation in action. You may pause the model by clicking ‘Go Forever’ again, and if you click ‘Clear Links’, this will give you a better visualization in the GUI. Clicking ‘Go’ will run the model for a single tick (or discrete unit of time). You may then view the size distribution of firms in the supplied monitors.
Choose a high time limit, and then carry out the simulation using different initial firm sizes. You will notice that large initial firm sizes leads to very few firms, but these firms are typically large. Likewise, a smaller initial firm size gives rise to many firms, but these are typically rather small. Often, the size of the spinoff firms tend to approach the size of the initial firm. The initial firm is almost always ‘crowded out’ by the ideas of new spinoffs.
Release Notes
Associated Publications
Bagley, M.J.O. (2017) A simulation of entrepreneurial spawning. Journal of Artificial Societies and Social Simulation, 20(3)9. DOI: 10.18564/jasss.3444
This release is out-of-date. The latest version is
1.2.0
A Simulation of Entrepreneurial Spawning 1.1.0
Submitted byMark BagleyPublished Jun 29, 2017
Last modified Feb 23, 2018
This is the simulation used in the study “A Simulation of Entrepreneurial Spawning”, published in the Journal of Artificial Societies and Social Simulation 20(3)9. It shows how patterns of industrial clustering arise with respect to the size of an initial firm when abstractly measured in terms of innovation. We imagine beginning with a single firm, located in a single geographical area. The innovation process that results from this initial firm leads to new firms in the form of spinoffs. To make full sense of this model, I recommend reading the accompanying paper.
Each ‘node’ in the model represents an idea in a cognitive space. When running the simulation, each node will seek out another, with its ‘sight’ limited by parameters that are a function of the initial firm size. New ideas are a function of old ones, much like the crossover and mutation process in genetics. Eventually, this leads to market structures that differ with respect to the initial firm size. Nodes of one color represent one firm.
Only two parameters are available for adjustment: ‘time-limit’ and ‘initial-firm-size’. Select the parameters of interest and then click ‘Setup’. Then click ‘Go Forever’ to see the simulation in action. You may pause the model by clicking ‘Go Forever’ again, and if you click ‘Clear Links’, this will give you a better visualization in the GUI. Clicking ‘Go’ will run the model for a single tick (or discrete unit of time). You may then view the size distribution of firms in the supplied monitors.
Choose a high time limit, and then carry out the simulation using different initial firm sizes. You will notice that large initial firm sizes leads to very few firms, but these firms are typically large. Likewise, a smaller initial firm size gives rise to many firms, but these are typically rather small. Often, the size of the spinoff firms tend to approach the size of the initial firm. The initial firm is almost always ‘crowded out’ by the ideas of new spinoffs.
Bagley, M.J.O. (2017) A simulation of entrepreneurial spawning. Journal of Artificial Societies and Social Simulation, 20(3)9. DOI: 10.18564/jasss.3444
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