TU Berlin

Internet Network ArchitecturesPublications by Type: Conference and Workshop Papers

Inhalt

zur Navigation

Es gibt keine deutsche Übersetzung dieser Webseite.

Publications by Type: Conference and Workshop Publications

see also conference papers, workshop papers, demos, and posters. (under construction)

A Rate-Adaptive MAC Protocol for Low-Power Ultra-Wide Band Ad-hoc Networks
Zitatschlüssel MLWR-RMPLUWBAN-04
Autor Merz, Ruben and Le Boudec, Jean-Yves and Widmer, Jörg and Radunovic, Bozidar
Buchtitel Ad-Hoc Now 04, 3rd International Conference on AD-HOC Networks
Seiten 306–311
Jahr 2004
ISBN 978-3-540-22543-0
DOI http://dx.doi.org/10.1007/b99253
Ort Vancouver, British Columbia, Canada
Zusammenfassung Recent theoretical results show that it is optimal to allow interfering sources to transmit simultaneously as long as they are outside a well-defined exclusion region around a destination and to adapt the rate to interference. In contrast, interference from inside the exclusion region needs to be controlled. Furthermore, when a source transmits, it should do so at maximum power. Based on these theoretical findings, we propose a cross-layer design of MAC and physical layer and present a fully distributed, rate adaptive MAC protocol for ultra-wide band (UWB) where sources constantly adapt their channel codes (and thus their rate) to the level of interference experienced at the destination. To mitigate the interference of sources inside the exclusion region, we propose a specific demodulation scheme that cancels most of the interfering energy. This scheme is entirely local to a destination and involves no protocol action. In contrast, existing MAC designs for UWB are either based on mutual exclusion, where no other communication is possible within the same collision domain, or based on power control. Through simulation we show that we achieve a significant increase in network throughput compared to traditional MAC proposals. Overall, we find that existing proposals do not fully take advantage of the specific nature of an ultra-wide band physical layer.
Link zur Publikation Download Bibtex Eintrag

Navigation

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe