Kinetic roughening of the urban skyline

Abstract

abstract In this Letter we follow the asymptotic spatial correlation of buildings' heights G∞(r) in the whole of the Netherlands bag3d, which comprises ≈ 10,000,000 buildings, for the purpose of recovering its scaling with respect to space and time given respectively by the exponents r2 α and t2β. This allows us to identify the universality class of the evolution of the urban skyline seen as a dynamically evolving interface. Two major classes of cities were identified based on the recovered value of α =0.4 and α = 0, which correspond respectively to the KPZ and the EW universality classes. Picking a discrete model from each of these classes and mapping it to physical rules for constructions in cities we conclude that imposed restrictions on buildings' heights are reflected in the exponent α and thus have implications on how the skyline evolves.