A Fully Dynamic and Self-Stabilizing TDMA Scheme for Wireless Ad-hoc Networks

Abstract

One important challenge in wireless ad hoc networks is to achieve collision free communication. Many MAC layer protocols have been proposed by considering various communication models of the ad hoc networks. One such protocol is TDMA, which provides for interference free communication while providing some bound on the packet delay. However, most proposed TDMA schemes can perform scheduling transmissions among nodes that are within transmission range. This is due to the simplistic modeling of the underlying network. Recently, more practical network models and overlay construction algorithms have been proposed that consider the interference among nodes as well. Existing TDMA protocols are unsuitable for such models as they will have to consider the interference range of the nodes as well. This requires that the TDMA protocol operate in a global perspective while working as a local-control algorithm. In this work, we describe a novel TDMA protocol that is suitable for such realistic and practical network models. We also extend the TDMA protocol to handle other difficulties such as membership changes within transmission range and interference range. Some networks also have to deal with sleeping nodes that wake up periodically. Our TDMA scheme employs a simple control phase and a data phase to handle such tasks. Some of the benefits of our solution are that no knowledge of the network parameters such as the size or an estimate of the size are used. The overhead of our scheme is also very low and (control) messages exchanged are of small size. Our solution will also be self-stabilizing which is an important property for distributed systems. To the best of our knowledge, our TDMA protocol is the first MAC layer protocol for such realistic network models. Additionally, we report some experimental results of our scheme.