Using graph concepts to understand the organization of complex systems

Claire Christensen; Réka Albert

doi:10.1142/S021812740701835X

Using graph concepts to understand the organization of complex systems

Claire Christensen, Réka Albert

Research output: Contribution to journal › Review article › peer-review

36 Scopus citations

Abstract

Complex networks are universal, arising in fields as disparate as sociology, physics and biology. In the past decade, extensive research into the properties and behaviors of complex systems has uncovered surprising commonalities among the topologies of different systems. Attempts to explain these similarities have led to the ongoing development and refinement of network models and graph-theoretical analysis techniques with which to characterize and understand complexity. In this tutorial, we demonstrate through illustrative examples, how network measures and models have contributed to the elucidation of the organization of complex systems.

Original language	English (US)
Pages (from-to)	2201-2214
Number of pages	14
Journal	International Journal of Bifurcation and Chaos
Volume	17
Issue number	7
DOIs	https://doi.org/10.1142/S021812740701835X
State	Published - Jul 2007

All Science Journal Classification (ASJC) codes

Modeling and Simulation
Engineering (miscellaneous)
General
Applied Mathematics

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title = "Using graph concepts to understand the organization of complex systems",

abstract = "Complex networks are universal, arising in fields as disparate as sociology, physics and biology. In the past decade, extensive research into the properties and behaviors of complex systems has uncovered surprising commonalities among the topologies of different systems. Attempts to explain these similarities have led to the ongoing development and refinement of network models and graph-theoretical analysis techniques with which to characterize and understand complexity. In this tutorial, we demonstrate through illustrative examples, how network measures and models have contributed to the elucidation of the organization of complex systems.",

author = "Claire Christensen and R{\'e}ka Albert",

note = "Funding Information: The authors gratefully acknowledge support from the CEMBA IGERT center at the Pennsylvania State University, the National Science Foundation (Grant DMI-0537992) and a Sloan Research Fellowship (to R.A.).",

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AU - Albert, Réka

N1 - Funding Information: The authors gratefully acknowledge support from the CEMBA IGERT center at the Pennsylvania State University, the National Science Foundation (Grant DMI-0537992) and a Sloan Research Fellowship (to R.A.).

PY - 2007/7

Y1 - 2007/7

N2 - Complex networks are universal, arising in fields as disparate as sociology, physics and biology. In the past decade, extensive research into the properties and behaviors of complex systems has uncovered surprising commonalities among the topologies of different systems. Attempts to explain these similarities have led to the ongoing development and refinement of network models and graph-theoretical analysis techniques with which to characterize and understand complexity. In this tutorial, we demonstrate through illustrative examples, how network measures and models have contributed to the elucidation of the organization of complex systems.

AB - Complex networks are universal, arising in fields as disparate as sociology, physics and biology. In the past decade, extensive research into the properties and behaviors of complex systems has uncovered surprising commonalities among the topologies of different systems. Attempts to explain these similarities have led to the ongoing development and refinement of network models and graph-theoretical analysis techniques with which to characterize and understand complexity. In this tutorial, we demonstrate through illustrative examples, how network measures and models have contributed to the elucidation of the organization of complex systems.

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JO - International Journal of Bifurcation and Chaos

JF - International Journal of Bifurcation and Chaos

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ER -

Using graph concepts to understand the organization of complex systems

Abstract

All Science Journal Classification (ASJC) codes

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