We propose a novel media access control (MAC) protocol, referred to as signaling-free max-min airtime fair (SMAF) MAC, to improve fairness and channel utilization in ad hoc networks based on IEEE 802.11 wireless local area networks (WLANs). We introduce busy time ratio (BTR) as a measure for max-min airtime fairness. Each node estimates its BTR and adjusts the transmission duration by means of frame aggregation and fragmentation, so that it can implicitly announce the BTR to neighbor nodes. Based on the announced BTR, each of the neighbor nodes controls its contention window. In this way, the SMAF MAC works in a distributed manner without the need to know the max-min fair share of airtime, and it does not require exchanging explicit control...
Conventional multi-rate IEEE 802.11 Wireless LANs (WLANs) are associated with the so-called performa...
A number of issues distinguishes Medium Access Control (MAC) protocols for wireless networks from th...
International audienceWe analyze in this paper the fairness of the 802.11 DCF (Distributed Coordinat...
The Medium Access Control (MAC) protocol through which mobile stations can share a common broadcast ...
It is difficult to achieve a trade off between system throughput fairness and channel access time fa...
Ad hoc networks offer infrastructure free operation, where no entity can provide reliable coordinati...
IEEE 802.11 Wireless LANs (WLANs) is a popular wireless data communication protocol for local area n...
The Medium Access Control (MAC) protocol through which mobile stations can share a common broadcast ...
This paper addresses the problem of fairness in wireless ad-hoc networks. Usually, the problem of fa...
This paper proposes a distributed and topologyindependent contention control mechanism for IEEE 802....
IEEE 802.11 has become the main technology in local area wireless networks. However, performance ano...
Both hidden terminals, intrinsic in a multi-hop wireless network, and unfairness, due to location-de...
Abstract — In this paper, we model the problem of bandwidth sharing in wireless multi-hop networks a...
Wireless systems based on the IEEE 802.11 standard are known to suffer a performance degradation whe...
International audienceThe IEEE 802.11 MAC layer is known for its unfairness behavior in ad hoc netwo...
Conventional multi-rate IEEE 802.11 Wireless LANs (WLANs) are associated with the so-called performa...
A number of issues distinguishes Medium Access Control (MAC) protocols for wireless networks from th...
International audienceWe analyze in this paper the fairness of the 802.11 DCF (Distributed Coordinat...
The Medium Access Control (MAC) protocol through which mobile stations can share a common broadcast ...
It is difficult to achieve a trade off between system throughput fairness and channel access time fa...
Ad hoc networks offer infrastructure free operation, where no entity can provide reliable coordinati...
IEEE 802.11 Wireless LANs (WLANs) is a popular wireless data communication protocol for local area n...
The Medium Access Control (MAC) protocol through which mobile stations can share a common broadcast ...
This paper addresses the problem of fairness in wireless ad-hoc networks. Usually, the problem of fa...
This paper proposes a distributed and topologyindependent contention control mechanism for IEEE 802....
IEEE 802.11 has become the main technology in local area wireless networks. However, performance ano...
Both hidden terminals, intrinsic in a multi-hop wireless network, and unfairness, due to location-de...
Abstract — In this paper, we model the problem of bandwidth sharing in wireless multi-hop networks a...
Wireless systems based on the IEEE 802.11 standard are known to suffer a performance degradation whe...
International audienceThe IEEE 802.11 MAC layer is known for its unfairness behavior in ad hoc netwo...
Conventional multi-rate IEEE 802.11 Wireless LANs (WLANs) are associated with the so-called performa...
A number of issues distinguishes Medium Access Control (MAC) protocols for wireless networks from th...
International audienceWe analyze in this paper the fairness of the 802.11 DCF (Distributed Coordinat...