Sizing up complex webs: close or far, many networks look the same.Researchers have discovered that a remarkable diversity of complex networks, including the World Wide Web and patterns in cellular biochemistry, have a common architecture with snowflakes snowflakes small patches of gray or white hair acquired after birth. Skin color is unchanged. See also achromotrichia, vitiligo. and trees. These networks all display similar patterns, whether viewed from up close or far away. "It's a fundamental advance," says Albert-Laszlo Barabasi, a physicist who studies networks at the University of Notre Dame Notre Dame IPA: [nɔtʁ dam] is French for Our Lady, referring to the Virgin Mary. In the United States of America, Notre Dame in Indiana. The question of whether complex networks can show such a fractal pattern, also known as self-similarity, "has been bugging us for a while," he says. In recent years, researchers have found that a surprising range of networks has a common structure: a few major hubs with many connections and many minor nodes with only a few connections. In the World Wide Web, for instance, tens of thousands of sites link to a few popular Web sites, such as Google and Yahoo, while there are often just a few links to an individual's home page. Now, in a surprising finding, researchers have identified self-similarity in four types of complex networks: the World Wide Web, a network of actors who have been in films together, networks of proteins with links between those that can bind to each other, and networks of other cellular molecules with links between molecules involved in the same biochemical reactions. The researchers note that they discovered this wide-ranging characteristic by figuring out how to "zoom out" and look at networks from farther and farther away. They started by using computer analysis to cover each network with non-overlapping boxes, each of which contained a cluster of nodes separated by less than a specified number of links. Next, the investigators essentially blurred their vision, paying attention Noun 1. paying attention - paying particular notice (as to children or helpless people); "his attentiveness to her wishes"; "he spends without heed to the consequences" attentiveness, heed, regard to how the boxes--rather than the individual nodes--were connected. By repeating this procedure many times, the researchers could observe the structure of a network on many levels. In the Jan. 27 Nature, Hernan Makse of the City College of New York “City College” redirects here. For other uses, see City College (disambiguation). CCNY was the first free public institution of higher education in the United States[3] and his coworkers report that all the blurred networks have connectivity patterns similar to those of the original network. Ordinarily, Barabasi says, objects with fractal structures fit into a finite-dimensional space, such as a flat plane or a three-dimensional space Three-dimensional space is the physical universe we live in. The three dimensions are commonly called length, width, and breadth, although any three mutually perpendicular directions can serve as the three dimensions. Pictures are commonly two dimensional, they lack depth. . By contrast, mathematicians have modeled complex networks such as the World Wide Web as infinite dimensional because there's no realistic way to fit such a network, with hubs having so many links, into a finite-dimensional space. This property led Barabasi and many other researchers to assume that complex networks cannot be self-similar. "If you had asked me yesterday, I would have said they are surely not self-similar," Barabasi says. Understanding the architecture of complex networks is important, for example, for protecting the World Wide Web from hacker attacks and for designing drugs with few side effects Side effects Effects of a proposed project on other parts of the firm. , Barabasi says. However, the contribution of the new finding to those advances isn't yet clear, he says. "They've found something new here, but we don't know Don't know (DK, DKed) "Don't know the trade." A Street expression used whenever one party lacks knowledge of a trade or receives conflicting instructions from the other party. yet whether it is a Rosetta stone Rosetta Stone: see under Rosetta. Rosetta Stone Inscribed stone slab, now in the British Museum, that provided an important key to the decipherment of Egyptian hieroglyphs. that will let us translate the mysteries of networks into something we understand," says Steven Strogatz Steven H. Strogatz (born August 13, 1959) is an American mathematician and the Jacob Gould Schurman Professor of Applied Mathematics at Cornell University. He is known for his contributions to the study of synchronization in dynamical systems, and for his work in a variety of areas , a mathematician at Cornell University. |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion