hauteur
发表于 2025-3-30 11:11:12
Sabine Ellsässerlike the Diffusion Limited Aggregation and the more General Dielectric Breakdown Model. They are based on a simple iterative process governed by the Laplace equation and a stochastic field and they give rise to patterns that spontaneously evolve into random fractal structures of great complexity. In
pulmonary
发表于 2025-3-30 13:53:00
Sabine Ellsässerlike the Diffusion Limited Aggregation and the more General Dielectric Breakdown Model. They are based on a simple iterative process governed by the Laplace equation and a stochastic field and they give rise to patterns that spontaneously evolve into random fractal structures of great complexity. In
Conducive
发表于 2025-3-30 17:28:36
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AV-node
发表于 2025-3-30 21:17:48
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该得
发表于 2025-3-31 03:27:22
Sabine Ellsässer is self-similar in a statistical sense, a central role is played by a positive quantity called ., which need not be an integer, and which generalizes the “ordinary” dimension..In this paper, a further generalization of dimension is introduced and motivated. When its value is positive, it effectivel
engender
发表于 2025-3-31 09:03:00
Sabine Ellsässer equa tions. Modern mathematical modeling of sophisticated mechanical systems consists of several stages: first, construction of a mechanical model, and then writing appropriate equations and their analytical or numerical ex amination. Usually, this procedure is repeated several times. Even if an
Buttress
发表于 2025-3-31 12:21:37
Sabine Ellsässer equa tions. Modern mathematical modeling of sophisticated mechanical systems consists of several stages: first, construction of a mechanical model, and then writing appropriate equations and their analytical or numerical ex amination. Usually, this procedure is repeated several times. Even if an
KIN
发表于 2025-3-31 15:22:16
Sabine Ellsässer memory power-law type behaviors.Describes modeling tools ot.This book is dedicated to the analysis and modelling of fractional behaviours that mainly result from physical stochastic phenomena (diffusion, adsorption or aggregation, etc.) of a population (ions, molecules, people, etc.) in a constrain