Continuum percolation theory | Wikipedia audio article

This is an audio version of the Wikipedia Article:
https://en.wikipedia.org/wiki/Continuum_percolation_theory

00:01:36 1 Early history
00:02:28 2 Definitions and terminology
00:02:51 2.1 Common models
00:03:09 2.1.1 Disk model
00:03:51 2.1.2 Boolean model
00:04:30 2.1.3 Germ-grain model
00:05:33 2.2 Components and criticality
00:06:30 3 Excluded area theory
00:10:35 4 Applications
00:11:00 4.1 Wireless networks
00:12:27 5 See also

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SUMMARY
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In mathematics and probability theory, continuum percolation theory is a branch of mathematics that extends discrete percolation theory to continuous space (often Euclidean space ℝn). More specifically, the underlying points of discrete percolation form types of lattices whereas the underlying points of continuum percolation are often randomly positioned in some continuous space and form a type of point process. For each point, a random shape is frequently placed on it and the shapes overlap each with other to form clumps or components. As in discrete percolation, a common research focus of continuum percolation is studying the conditions of occurrence for infinite or giant components. Other shared concepts and analysis techniques exist in these two types of percolation theory as well as the study of random graphs and random geometric graphs.
Continuum percolation arose from an early mathematical model for wireless networks, which, with the rise of several wireless network technologies in recent years, has been generalized and studied in order to determine the theoretical bounds of information capacity and performance in wireless networks. In addition to this setting, continuum percolation has gained application in other disciplines including biology, geology, and physics, such as the study of porous material and semiconductors, while becoming a subject of mathematical interest in its own right. .