Zipf’s law in hierarchically ordered open system

It was observed that inserting the arbitrary concentration into the simulation process makes the rank–size curves more similar to Zipf’s law graphs than simulations based on initially equal size of each node. The hierarchical network’s chain hypothesis based on the assumption that the prior cities’...

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Bibliographic Details
Published in:Jahrbuch für Regionalwissenschaft 2011, Vol.31 (2), p.93-112
Main Authors: Zipser, Tadeusz, Mlek, Magdalena, Zipser, Wawrzyniec
Format: Article
Language:English
Subjects:
Distribution
Economics
Economics and Finance
Environmental Economics
Geography
Hierarchical scales
Hierarchy
Landscape/Regional and Urban Planning
Methodology
Original Paper
Population Economics
Probability theory
Regional economics
Regional/Spatial Science
Simulation
Statistical analysis
Systems analysis
Zipf, George Kingsley
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Summary:It was observed that inserting the arbitrary concentration into the simulation process makes the rank–size curves more similar to Zipf’s law graphs than simulations based on initially equal size of each node. The hierarchical network’s chain hypothesis based on the assumption that the prior cities’ size differentiation, resulted from geographical determinants or historical events can constitute a set of priorities affecting the contacts. “Hierarchical chain” with different influence in the “up” direction as opposed to the “down” direction in hierarchy can be compared to the structure of sentences in a language, as well as to functioning of economic initiatives. This setup has one important property: it allows for a part of the system to be cut off without affecting organization of the system. When an element is deleted or added, there is no evidence, which would indicate that the system was changed. Considering the easy ‘truncation’ or ‘expansion’ properties gives the proposed system high flexibility. Systems linked by such hierarchy lead to a clear distribution following the Zipf’s law, if they are “open” i.e. directing most of the contacts outside of the system, requiring handling for only ‘flow-through’ contacts. Special attention was devoted to an assessment of stability and endurance towards disruptions in ideal hierarchical order, so as to examine at which point the disturbance disrupts the Zipf’s law. The comparison of these modelings with recently accomplished selftraining modeling of settlement system reveals important relations between the parameter values emerged in that experiment and the hierarchical network.
ISSN:0173-7600
1613-9836
DOI:10.1007/s10037-011-0056-8