Abstract :
Wireless technologies and the deployment of mobile and nomadic services are driving the emergence of complex ad hoc networks that have a highly dynamic behavior. Modeling such dynamics and creating a reference model on which results could be compared and reproduced, was stated as a fundamental issue by a recent NSF workshop on networking. In this article we show how the modeling of time-changes unsettles old questions and allows for new insights into central problems in networking, such as routing metrics, connectivity, and spanning trees. Such modeling is made possible through evolving graphs, a simple combinatorial model that helps capture the behavior or dynamic networks over time.
Keywords :
ad hoc networks; graph theory; mobile radio; telecommunication network routing; MANET; ad hoc networks; evolving graphs; mobile services; networking problems; optimization; reference combinatorial model; routing metrics; spanning trees; time-varying networks; Cellular networks; Communication system control; Mobile ad hoc networks; Mobile communication; Network topology; Optimal control; Peer to peer computing; Routing; Spine; Telephony;
