Abstract. Location dependency and its associated exposed receiver problem create the most severe unfairness scenario of the CSMA/CA protocol. An analytical model is built up to study the success probabilities of RTS reception and RTS/CTS handshake of the typical disadvantaged link under the exposed receiver scenario. Derived from the analytical insights, we propose a receiver assistance feature (RcvAssist) for the CSMA/CA protocol which not only significantly enhances the fairness of disadvantaged links suffering from exposed receiver problem, but also increases the overall throughput without introducing other side effects, such as aggregating the hidden terminal problem
International audienceThe IEEE 802.11 wireless standard uses the carrier sense multiple access with ...
IEEE 802.11 has become the main technology in local area wireless networks. However, performance ano...
We analyze the fairness of decentralized, randomized MAC protocols and introduce two metrics for mea...
We demonstrate that CSMA/CA networks, including IEEE 802.11 networks, exhibit severe fairness proble...
Fair access of the shared wireless medium among different contending stations is a very important is...
This paper describes a modification of the CSMA/CA protocol used in IEEE 802.11 wireless networks fo...
Collisions are a main cause of throughput degradation in wireless local area networks. The current c...
IEEE 802.11 MAC is a CSMA/CA protocol and uses RTS/CTS exchanges to avoid the hidden terminal proble...
International audienceWe analyze in this paper the fairness of the 802.11 DCF (Distributed Coordinat...
Carrier sense multiple access with collision avoidance (CSMA/CA) has been adopted by the IEEE 802.1...
It is well-known that the Carrier Sense Multiple Access with Collision Avoidance (CSMA/CA)-based wir...
Carrier sense multiple access with collision avoidance (CSMA/CA) has been adopted by the IEEE 802.11...
International audienceThe real potential of broadband wireless networks lies on the mobility, the su...
[[abstract]]We analyze the fairness of IEEE 802.11 DCF in heterogeneous wireless LAN environments wh...
The Medium Access Control (MAC) protocol through which mobile stations can share a common broadcast ...
International audienceThe IEEE 802.11 wireless standard uses the carrier sense multiple access with ...
IEEE 802.11 has become the main technology in local area wireless networks. However, performance ano...
We analyze the fairness of decentralized, randomized MAC protocols and introduce two metrics for mea...
We demonstrate that CSMA/CA networks, including IEEE 802.11 networks, exhibit severe fairness proble...
Fair access of the shared wireless medium among different contending stations is a very important is...
This paper describes a modification of the CSMA/CA protocol used in IEEE 802.11 wireless networks fo...
Collisions are a main cause of throughput degradation in wireless local area networks. The current c...
IEEE 802.11 MAC is a CSMA/CA protocol and uses RTS/CTS exchanges to avoid the hidden terminal proble...
International audienceWe analyze in this paper the fairness of the 802.11 DCF (Distributed Coordinat...
Carrier sense multiple access with collision avoidance (CSMA/CA) has been adopted by the IEEE 802.1...
It is well-known that the Carrier Sense Multiple Access with Collision Avoidance (CSMA/CA)-based wir...
Carrier sense multiple access with collision avoidance (CSMA/CA) has been adopted by the IEEE 802.11...
International audienceThe real potential of broadband wireless networks lies on the mobility, the su...
[[abstract]]We analyze the fairness of IEEE 802.11 DCF in heterogeneous wireless LAN environments wh...
The Medium Access Control (MAC) protocol through which mobile stations can share a common broadcast ...
International audienceThe IEEE 802.11 wireless standard uses the carrier sense multiple access with ...
IEEE 802.11 has become the main technology in local area wireless networks. However, performance ano...
We analyze the fairness of decentralized, randomized MAC protocols and introduce two metrics for mea...