Spatial distributions of senders, receivers and relaying devices are an essential feature of wireless networks, whose models need therefore to borrow methods and tools from stochastic geometry and random graph theory. The art of modeling wireless networks is strongly multi-disciplinary, combining r…
Spatial distributions of senders, receivers and relaying devices are an essential feature of wireless networks, whose models need therefore to borrow methods and tools from stochastic geometry and random graph theory. The art of modeling wireless networks is strongly multi-disciplinary, combining random graphs and spatial processes with information theory, combinatorics, control and game theory, performance analysis and network protocols. Modelling mobility is also quite important in practice. The goal of this third SpaSWiN is to build on the success of the first its installments held in Garda (Italy, 2005) and in Boston (US, 2006) to bring together researchers from the various disciplines involved in developing and analyzing spatial models of wireless communications. We hope to provide a platform for fruitful communication of ideas across disciplines and interaction between theory and applications.