Networks of networks

This week the Bath centre for "Networks and Collective Behaviour", of which I'm a member but by no means an official spokesman, had its official launch event. A fun two day meeting on "Uncertainty in interaction networks". For people such as myself who are in to statistical mechanics and the collective behaviour of systems with many parts, networks are a natural extension to what we do. It's a wonderfully interdisciplinary field with lots of cool problems to solve. Besides, networks is where I started out.

So, due to all this, my first few posts on my return from paternity leave might be networks based. From this week's meeting one thing that got me interested was people who are turning their attention to "multiplex networks". This is a word that means lots of things to me so to be more clear we're talking about separate networks that interact (this interaction is key). Usually it is assumed it is the same set of nodes with different sets of edges representing different relationships between them.

Cartoon of a multiplex network with two different types of link

An example given at the meeting was the power grid which is interacts with the water supply network and other services. Another example could be your social network where you distinguish between work colleagues and friends or family. Transport networks (for example bus and tube in London) will clearly interact in their function even though they are separate networks. 

Ginestra Bianconi from Queen Mary's gave a nice talk, in which she cited this PNAS on a network of computer gamers in a massively multiplayer online game. Data can be obtained for different types of interaction. Things such as friendship, trade, communication (positive) or enmity and attacks (negative). The authors claim that in order to properly understand the social structure one must consider all these different types on interaction. Among the things they found was that positive relationships tended to be clustered exponential networks whereas negative networks were not clustered and had powerlaw degree distributions. This means that a small number of players have a large number of negative connections. Also, different players had important roles in different networks. It certainly seems that with this extra layer of data one is in a better position to fully understand the network.

Ginestra's own work (in this EPL) was concerned with political affiliation networks. This imagined two networks representing social connections in two political parties. Nodes can be active in both networks but will tend to become inactive in the opposite network to their current opinion closer to an election. There is a stat-mech model where "tend to" is represented by a field (call it temperature) that couples to how happy a node is (call it energy). I'm going to come back to this theme.

I think multiplex networks are going to be really fun to work with. Seeing as networks are a useful simplification of reality multiplex networks seem to represent the next level of detail.

Networks in Nature Physics

For those with access, looks like Nature Physics has a complexity issue. With articles by Barabási and Newman and the likes, it looks like it has a solid networks bent.

There's a paper on community structure by my favourite physicist, Mark Newman, that I'm looking forward to reading.

Enjoy!

Six degrees - the documentary you can't see

A while back the BBC put on an documentary about networks called "Six Degrees". Normally when you see a documentary about a field that you're vaguely related to you feel a bit sick because they did it all wrong.

Well I have worked in networks a bit and I thought Six Degrees was excellent. It got a great balance of the historical study of networks and then it ran its own version of the Milgram experiment which was mostly used as a plot device to keep driving the story forwards. The people involved (Watts, Strogatz, Barabasi) were all very entertaining and successfully transmitted the excitement of scientific discovery.

Suffice to say it was great. I had planned to link to it and then discuss it a little bit. Annoyingly the BBC have switched off the iPlayer version of the programme and they now appear to have shutdown the version at top documentaries.

I know the beeb don't want to give away content for free but it strikes me that a resource this useful (I'd even recommend it to scientists new to the field) should be kept live. Instead it's buried away where it's now useless. Scientists are always told about public engagement, well unblock this film - engage!

I'm going to write to them an encourage them to let it free, then perhaps instead of a rant about the BBC we can talk about some science.

UPDATE:
As you can see from the comments, the BBC didn't make the film so they can't keep it online. I can't work out how to get a DVD yet but when I find out I'll put up a link and then can get on talking about networks. In the mean time, this book, "Small World" by Mark Buchanan is well worth a read.