Zipfs, Heaps and Taylors laws are determined by the expansion into the adjacent possible


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Zipfs, Heaps and Taylors laws are ubiquitous in many different systems where innovation processes are at play. Together, they represent a compelling set of stylized facts regarding the overall statistics, the innovation rate and the scaling of fluctuations for systems as diverse as written texts and cities, ecological systems and stock markets. Many modeling schemes have been proposed in literature to explain those laws, but only recently a modeling framework has been introduced that accounts for the emergence of those laws without deducing the emergence of one of the laws from the others or without ad hoc assumptions. This modeling framework is based on the concept of adjacent possible space and its key feature of being dynamically restructured while its boundaries get explored, i.e., conditional to the occurrence of novel events. Here, we illustrate this approach and show how this simple modelling framework, instantiated through a modified Polyas urn model, is able reproduce Zipfs, Heaps and Taylors laws within a unique self-consistent scheme. In addition the same modelling scheme embraces other less common evolutionary laws (Hoppes model and Dirichlet processes) as particular cases.

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