 Hi, my name is Aaron Kaplan. I'm one of the founders of the Funkfeuer Network in Austria. That's roughly equivalent to the Freifunk Networks in Germany. It's the widest community mesh network, covering multiple cities in Austria and covering also all of Vienna, essentially, and almost extending to Bratislava, which is the next largest capital quite close to Vienna. So I'm involved with a confined project. Next slide, please. That's a project, a new project consisting of multiple partners, multiple community wireless networks. The Athens Wireless Network is part of that. That's covering all of Athens, roughly 5,000 mesh nodes. Wireless GIFI Net in Barcelona, roughly 14,000 nodes, maybe by now 15,000, they're growing exponentially at the moment. Funkfeuer us, some research institutes and universities, the Fraunhofer Institute, the University of Polytechnic of Catalonia in Barcelona, and a few other organizations. So what we're doing in the confined project, next slide, please, is that we're building sort of a planet lab for mesh networks. Quick show of hands, who's familiar with planet lab? Okay, just a few. Okay, planet lab is essentially a distributed confederated testbed network for mainly researchers trying out new protocols, like let's say peer-to-peer protocols or something like BitTorrent or whatever. So usually a university will contribute one or two servers to the project and it's quite a large confederated test network where each server has multiple slices, so it's a virtualized network, virtualized VMs on each server and there were really many very interesting results from planet lab. Now the whole thing is very different if you go to wireless, the wireless layer because wireless is, it doesn't have these nice properties like the cable essentially. You have interference, you have lots of noise, you have lots of crappy stuff that really makes it totally different. So that's one lesson that all the community networks learn, the hardware. Every community wireless network that built a network and was just not theorizing about it actually learned that layer one is the stuff that really sucks. So we also have these wireless battle mesh events regularly, maybe you have heard about them. That's where the community wireless networks folks meet in Europe every year. The next one is going to be in Greece and you can think of confine as sort of a permanent wireless battle mesh network with on different layers. So layer one would be a virtualized network in a virtual machine, let's say 1000 open WRT instances running in parallel in a virtual network in a server. You can test code there. Second thing would be to have actual hardware connected with coax cables, attenuators and you can work on Wi-Fi drivers there without having interference. Third level would be the actual test network and for FUNKFIRE we're going to build that in the Alps so we're going to exercise a bit. Will be very good for my tummy. And yeah, so essentially what we're having is the community wireless networks and the R&D institutes, the universities are finally working together there and it's not like the universities are just publishing about wireless mesh stuff and they get it all wrong because they didn't have a real network. That was their problem. They always simulated it in NS2 and the community wireless networks didn't have the scientific backing. So I think- Extend time. Well, thanks. So I think that's essentially what's going to happen over the next four years. Next slide please. And we need your input. So in case you're in that field or in case you're into wireless community networks, mesh networks, R&D, if you want to go in that direction, please contact us. Here you find my email address. The confineproject.eu website has some background information and that's about it. Thanks.