A pair of nonlinear programming models is built to explain the fractal structure of systems of cities and those of rivers. The hierarchies of cities can be characterized by a set of exponential functions, which is identical in form to the Horton-Strahler's laws of the river networks. Four power laws can be derived front these exponential functions. The evolution of both systems of cities and rivers are then represented as nonlinear dual programming models: to maximize information entropy subject to a certain energy use or to minimize energy dissipation subject to certain information capacity. The optimal solutions of the programming problems are just the exponential equations associated with scaling relations. By doing so, fractals and...
In analyzing the literature on the fractal nature of river networks one can recognize several points...
This paper contributes to the demonstration that the self-similar city hierarchies with cascade stru...
Informational entropy of river networks, as defined by Fiorentino and Claps (1992), proved to be a u...
The basic rules of central place networks are abstracted and formulated as three geometric series sc...
Evolution of urban systems has been considered to exhibit some form of self-organized criticality (S...
Informational entropy of river networks, as defined by Fiorentino and Claps (1992a), was shown to be...
This paper demonstrates self-affine fractal structure of city systems by means of theoretical and em...
Optimal channel networks are fractal structures that bear a striking resemblance to real rivers. The...
Descriptions of central place hierarchies proposed by W. Christaller are abstracted mathematically a...
In spite of the various factors showing the contrary, urban Systems tend to be conceived as working ...
In this paper cities are viewed as lively systems with internal flow structure of people, energy and...
This paper reviews theoretical and observational material on form and function of natural networks a...
Hierarchy of cities reflects the ubiquitous structure frequently observed in the natural world and s...
Seemingly unrelated empirical hydrologic laws and several experimental facts related to the fractal ...
Hierarchies can be modeled by a set of exponential functions, from which we can derive a set of powe...
In analyzing the literature on the fractal nature of river networks one can recognize several points...
This paper contributes to the demonstration that the self-similar city hierarchies with cascade stru...
Informational entropy of river networks, as defined by Fiorentino and Claps (1992), proved to be a u...
The basic rules of central place networks are abstracted and formulated as three geometric series sc...
Evolution of urban systems has been considered to exhibit some form of self-organized criticality (S...
Informational entropy of river networks, as defined by Fiorentino and Claps (1992a), was shown to be...
This paper demonstrates self-affine fractal structure of city systems by means of theoretical and em...
Optimal channel networks are fractal structures that bear a striking resemblance to real rivers. The...
Descriptions of central place hierarchies proposed by W. Christaller are abstracted mathematically a...
In spite of the various factors showing the contrary, urban Systems tend to be conceived as working ...
In this paper cities are viewed as lively systems with internal flow structure of people, energy and...
This paper reviews theoretical and observational material on form and function of natural networks a...
Hierarchy of cities reflects the ubiquitous structure frequently observed in the natural world and s...
Seemingly unrelated empirical hydrologic laws and several experimental facts related to the fractal ...
Hierarchies can be modeled by a set of exponential functions, from which we can derive a set of powe...
In analyzing the literature on the fractal nature of river networks one can recognize several points...
This paper contributes to the demonstration that the self-similar city hierarchies with cascade stru...
Informational entropy of river networks, as defined by Fiorentino and Claps (1992), proved to be a u...