The flexibility and virtualization capabilities provided by wireless cards have received significant attention as a means to reduce development costs. In this paper we present a modular architecture that exploits the features provided by emerging PHY and MAC implementations to rapidly develop new rate adaptation algorithms for multicast trans- mission in wireless LANs. We validate our solution by developing three rate adapta- tion algorithms that use an innovative sensing mechanism to evaluate the frame recep- tion correlation of the members of the multicast group. The experimental results obtained on a real-life testbed show that our solutions permit to increase the performance of multicast transmissions up to 3x and 5x in terms of throug...
Conventional IEEE 802.11 Medium Access Control (MAC) protocol does not allow simultaneous transmissi...
Many multicast applications, such as audio/video streaming, file sharing or emergency reporting, are...
[[abstract]]IEEE 802.11 wireless local area network (WLAN) physical layer (PHY) offers multiple data...
The flexibility and virtualization capabilities provided by wireless cards have received significant...
Rate adaptation represents a key functionality of the 802.11 MAC protocol for performance enhancemen...
Abstract—Rate adaptation represents a key functionality of the 802.11 MAC protocol for performance e...
The widespread utilization of wireless local area networks (WLANs) as the leading technology for del...
The rising number of wireless users and terminals has pushed the deployment of many applications ove...
IEEE 802.11 WLAN service is broadening its service area rapidly. One of the major driving factors of...
Abstract—Multicasting is useful for various applications such as multimedia broadcasting. In current...
International audienceThe deployment of real-time and multimedia applications over wireless LAN has ...
In view of the exponential growth in the live multimedia content applications, multicast communicati...
The transition from wired to wireless networks have opened up new horizons forresearch. IEEE 802.11 ...
As there is no MAC layer acknowledgment from the receiver for broadcast/multicast transmission in th...
The throughput of Rate adaptation in wireless networks 802.11is inclined by many parameters. Few of ...
Conventional IEEE 802.11 Medium Access Control (MAC) protocol does not allow simultaneous transmissi...
Many multicast applications, such as audio/video streaming, file sharing or emergency reporting, are...
[[abstract]]IEEE 802.11 wireless local area network (WLAN) physical layer (PHY) offers multiple data...
The flexibility and virtualization capabilities provided by wireless cards have received significant...
Rate adaptation represents a key functionality of the 802.11 MAC protocol for performance enhancemen...
Abstract—Rate adaptation represents a key functionality of the 802.11 MAC protocol for performance e...
The widespread utilization of wireless local area networks (WLANs) as the leading technology for del...
The rising number of wireless users and terminals has pushed the deployment of many applications ove...
IEEE 802.11 WLAN service is broadening its service area rapidly. One of the major driving factors of...
Abstract—Multicasting is useful for various applications such as multimedia broadcasting. In current...
International audienceThe deployment of real-time and multimedia applications over wireless LAN has ...
In view of the exponential growth in the live multimedia content applications, multicast communicati...
The transition from wired to wireless networks have opened up new horizons forresearch. IEEE 802.11 ...
As there is no MAC layer acknowledgment from the receiver for broadcast/multicast transmission in th...
The throughput of Rate adaptation in wireless networks 802.11is inclined by many parameters. Few of ...
Conventional IEEE 802.11 Medium Access Control (MAC) protocol does not allow simultaneous transmissi...
Many multicast applications, such as audio/video streaming, file sharing or emergency reporting, are...
[[abstract]]IEEE 802.11 wireless local area network (WLAN) physical layer (PHY) offers multiple data...