Collective dynamics of ‘small-world’ networks Duncan J. Watts - Path graph - Document - PDFSEARCH.IO

First Page		Document Content
Date: 2012-12-11 17:39:37 Graph Random graph Clustering coefficient Shortest path problem Connectivity Path Neighbourhood Vertex Pseudoforest Graph theory Mathematics Network theory		Collective dynamics of ‘small-world’ networks Duncan J. Watts & Steven H. Strogatz Department of Theoretical and Applied Mechanics, Kimball Hall, Cornell University, Ithaca, New York 14853, USA Add to Reading List Source URL: worrydream.com Download Document from Source Website File Size: 1,27 MB Share Document on Facebook

	EE365: Deterministic Finite State Control Deterministic optimal control Shortest path problem Dynamic programming Examples DocID: 1vg0M - View Document
	We approach the problem of computing geometric centralities, such as closeness and harmonic centrality, on very large graphs; traditionally this task requires an all-pairs shortest-path computation in the exact case, or DocID: 1sauD - View Document
	We approach the problem of computing geometric centralities, such as closeness and harmonic centrality, on very large graphs; traditionally this task requires an all-pairs shortest-path computation in the exact case, or DocID: 1rNo2 - View Document
	Improving Restoration Success in Mesh Optical Networks Fang Yu 1, Rakesh Sinha2, Dongmei Wang3, Guangzhi Li3, John Strand2, Robert Doverspike2, Charles Kalmanek 3, and Bruce Cortez 2 1 EECS Department, UC Berkeley, Berke DocID: 1rrH0 - View Document
	CS261: A Second Course in Algorithms Lecture #2: Augmenting Path Algorithms for Maximum Flow∗ Tim Roughgarden† January 7, 2016 DocID: 1rn0k - View Document