Marcos Gaudiano scite author profile

In a world in which the pace of cities is increasing, prompt access to relevant information is crucial to the understanding and regulation of land use and its evolution in time. In spite of this, characterization and regulation of urban areas remains a complex process, requiring expert human intervention, analysis and judgment. Here we carry out a spatio-temporal fractal analysis of a metropolitan area, based on which we develop a model which generates a cartographic representation and classification of built-up areas, identifying (and even predicting) those areas requiring the most proximate planning and regulation. Furthermore, we show how different types of urban areas identified by the model co-evolve with the city, requiring policy regulation to be flexible and adaptive, acting just in time. The algorithmic implementation of the model is applicable to any built-up area and simple enough to pave the way for the automatic classification of urban areas worldwide.

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Spontaneous emergence of a third position in an opinion formation model

Gaudiano

Revelli

2019

Physica A: Statistical Mechanics and its Applications

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Energy management control design for fuel cell hybrid electric vehicles using neural networks

Muñoz

Correa

Gaudiano

et al. 2017

International Journal of Hydrogen Energy

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An entropical characterization for complex systems becoming out of control

Gaudiano

2015

Physica A: Statistical Mechanics and its Applications

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Marcos Gaudiano

Fractal cartography of urban areas

Spontaneous emergence of a third position in an opinion formation model

Energy management control design for fuel cell hybrid electric vehicles using neural networks

An entropical characterization for complex systems becoming out of control

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