This paper bears on the design and the quantitative evaluation of MAC mechanisms for wireless ad-hoc networks with performance guarantees. By this, we mean mechanisms where each accepted connection obtains a minimum rate or equivalently a minimum SINR level - which is not guaranteed by CSMA/CA - and which are adapted to the wireless ad-hoc network framework, namely are decentralized, power efficient and provide a good spatial reuse. Two such access control algorithms are defined and compared. Both take the interference level into account to decide on the set of connections which can access the shared channel at any given time. The main difference between the two is the possibility or not of adjusting the transmission power of the nodes. A thorough comparison of the performance of these two mechanisms and CSMA/CA is presented, based on a mix of analytical models and simulation and on a comprehensive set of performance metrics which include spatial reuse and power efficiency. Different network topologies, propagation environments and traffic scenarios are considered. The main aim of our study is to identify which of the proposed mechanisms outperforms CSMA/CA best depending on the scenario.
Multiple Access Mechanisms with Performance Guarantees for Ad-Hoc Networks
Tipo
Paper de conferencia
Año
2010
Fecha
June
ISSN
2155-5486
Páginas
1
Abstract
Baccelli
Citekey
5508198
doi
10.1109/SECON.2010.5508198
Keywords
multiple access mechanisms
network topologies
performance guarantees
telecommunication traffic
propagation environments
traffic scenarios
wireless ad-hoc networks
Access control
Analytical models
Measurement
network topology
Multiaccess communication
MAC mechanisms
Interference
CSMA/CA
multi-access systems
access protocols
Signal to noise ratio
Traffic control
telecommunication network topology
ad hoc networks
access control algorithms
minimum SINR level