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Degree Distributions.

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Presentation on theme: "Degree Distributions."— Presentation transcript:

1 Degree Distributions

2 Emergence of networks Many networks naturally emerge and adapt
What kind of connectivity do they present Nonlinear Complex

3 Degree Distribution Defined: Frequency distribution of the degree sequence pk is the fraction of degree-k vertices, or the probability that a randomly-selected node will have degree k Given the below example, determine the degree sequence and the degree distribution.

4 Degree Distribution (con’t)
The Internet What kind of network that we talked about this morning may this be? Right-skewed Many nodes with small degrees, few with extremely high Largest degree is 2407 (not shown). Since 𝑛=19956 this node is adjacent to 12% of the network UNCLASSIFIED

5 Degree Distribution (con’t)
Directed networks have both in- and out-degree distributions The World Wide Web

6 Degree Distribution (con’t)
Directed networks have both in- and out-degree distributions The World Wide Web

7 Scale-sFree Networks whose degree distribution follows a power law are called scale-free networks. If a network is directed, the scale-free property applies separately to the in- and the out-degrees. The main difference between a random and a scale-free network comes in the tail of the degree distribution, representing the high-k region of pk

8 Poisson vs. Power-law Distr.
Notation: 〈k〉=average degree. Poisson vs. Power-law with a power-law function on a linear plot. Both distributions have 〈k〉= 11. The same curves as in (a), but shown on a log-log plot, allowing us to inspect the difference between the two functions in the high-k regime. A random network with 〈k〉= 3 and 50 nodes, illustrating that most nodes have comparable degree ≈〈k〉 A scale-free network with and 〈k〉=3, illustrating that numerous small-degree nodes coexist with a few highly connected hubs. The size of each node is proportional to its degree.

9 Hubs Hubs are nodes of high degree Emerge in time
They are not present in a random network COMPLETE GRAPH Hubs in a scale-free network are several orders of magnitude larger than the biggest degree node in a random network with the same N and 〈k〉

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