DCC-MAC: a decentralized MAC protocol for 802.15.4a-like UWB mobile ad-hoc networks based on dynamic channel coding

DCC-MAC: a decentralized MAC protocol for 802.15.4a-like UWB mobile ad-hoc networks based on dynamic channel coding

We present a joint PHY/MAC architecture (DCC-MAC) for 802.15.4a-like networks based on PPM-UWB. Unlike traditional approaches, it fully utilizes the specific nature of UWB to achieve high rates at low protocol complexity. It is the first MAC protocol that adapts the channel code (and thus the bit ra...

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Bibliographic Details
Published in:First International Conference on Broadband Networks pp. 396 - 405
Main Authors: Le Boudec, J.-Y., Merz, R., Radunovic, B., Widmer, J.
Format: Conference Proceeding
Language:English
Published: IEEE 2004
Subjects:
Access protocols
Ad hoc networks
Bandwidth
Bit rate
Channel coding
Dynamic Channel Coding
Frequency
Interference
Media Access Protocol
Medium Access Control
Physical layer
Throughput
Ultra-wide band
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Summary:We present a joint PHY/MAC architecture (DCC-MAC) for 802.15.4a-like networks based on PPM-UWB. Unlike traditional approaches, it fully utilizes the specific nature of UWB to achieve high rates at low protocol complexity. It is the first MAC protocol that adapts the channel code (and thus the bit rate) to interference from concurrent transmissions instead of enforcing exclusion. In order to avoid a complex mutual exclusion protocol at the MAC layer, we propose an interference mitigation scheme. The scheme is based on a modification of the physical layer that cancels much of the interfering energy, in particular from nearby interferers. We further use dynamic channel coding to combat the remaining interference. Sources constantly adjust their channel codes to the level of interference and send incremental redundancy as required. Contention between sources sending to the same destination is solved by a "private MAC" protocol that involves only the nodes that want to talk to the same destination. The private MAC does not use any common channel; this avoids the issues of hidden and exposed terminals altogether. We show by simulation that our MAC protocol fully satisfies the application requirements of 802.15.4a in terms of link lengths, rates and mobility. We further show that it achieves a significant increase in network throughput, compared to traditional MAC protocols like 802.15.4, that are separated from the physical layer.
ISBN:9780769522210
0769522211
DOI:10.1109/BROADNETS.2004.27