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I have found contradictory literature on this topic. Some papers suggest that the power law exponent is close to 2 (between 2.1 to 2.3). But some other papers show this value is higher (around 3). Kindly provide references to any study/references related to this topic.

Here are some links and quotes:

Search in Power-Law Networks

A number of large distributed systems, [...] display a power-law distribution in their node degree. This distribution reflects the existence of a few nodes with very high degree and many with low degree, a feature not found in standard random graphs

Modeling Peer-to-peer Network Topologies Through “small-world” Models And Power Laws

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Which P2P network? Which paper? – kennytm Jul 2 '10 at 20:07
    
I am looking at unstructured P2P networks like Gnutella – Bruce Jul 3 '10 at 5:47
    
Are you intersetend in scalability? – dierre Jul 7 '10 at 19:25
    
yes I will like to see how the exponent changes as more nodes are added to the network – Bruce Jul 8 '10 at 5:25
    
What is the power law with regards to p2p networks? Unless you are trying to filter out people who aren't already well versed in the subject, you should add a better description to the question. – BCS Jul 9 '10 at 1:00

The real problem here is that large scale p2p networks don't really exist in academia. It's incredibly difficult to scale a real p2p network. There are no great p2p simulators for lookup algorithms which help measure these details.

I've recently started using jxta-sim which is a p2p simulator built on top of planet sim.

jxta sim link - http://jxta.dsg.cs.tcd.ie/

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Did you encounter any P2P networks with power law exponent close to 3? – Bruce Jul 9 '10 at 14:20
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My particular area was in network discovery with these protocols. We saw differences in real world networks vs simulated networks (Due to the network density). Check out bubble rap, its a routing protocol in general which uses social networks to decide on routing. This may provide more insight into the problem. – steve Jul 11 '10 at 11:18

Given that it's an empirical fit, I'd say that it depends on the network (what drives it, how it grows, etc.) and the variation in reported values should be taken as a range (rather than as errors in measurement).

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Can you please give any values (ranges) for any real P2P network...I am more interested in p2p networks with power law exponent close to 3 – Bruce Jul 9 '10 at 14:16
    
@Bruce, my answer is purely theoretical. I don't have any particular expertise in p2p networks. – BCS Jul 9 '10 at 14:55

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