Link layer multicast using smart antennas: No client left behind
Wireless link layer multicast is an important service primitive for emerging applications, such as live video, streaming audio, and other content telecasts. The broadcast nature of the wireless channel is amenable to multicast because a single packet transmission may be received by all clients in th...
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2008
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sg-smu-ink.sis_research-37982016-12-29T05:45:34Z Link layer multicast using smart antennas: No client left behind Souvik SEN, XIONG, Jie GHOSH, Rahul CHOUDHURY, Romit Roy Wireless link layer multicast is an important service primitive for emerging applications, such as live video, streaming audio, and other content telecasts. The broadcast nature of the wireless channel is amenable to multicast because a single packet transmission may be received by all clients in the multicast group. However, in view of diverse channel conditions at different clients, the rate of such a transmission is bottlenecked by the rate of the weakest client. Multicast throughput degrades severely. Attempts to increase the data rate result in lower reliability and higher unfairness. This paper utilizes smart beamforming antennas to improve multicast performance in wireless LANs. The main idea is to satisfy the stronger clients with a high-rate omnidirectional transmission, followed by high-rate directional transmission(s) to cover the weaker ones. By selecting an optimal transmission strategy (using dynamic programming), we show that the multicast throughput can be maximized while achieving a desired delivery ratio at all the clients. We use testbed measurements to verify our main assumptions. We simulate our protocol in Qualnet, and observe consistent performance improvements over a range of client topologies and time-varying channel conditions. 2008-10-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/2798 info:doi/10.1109/ICNP.2008.4697024 https://ink.library.smu.edu.sg/context/sis_research/article/3798/viewcontent/LinkLayerMulticasting_2008_afv.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Adaptive antenna arrays Broadcast channels Multicast protocols Telecommunication network topology Time-varying channels Wireless LAN Wireless channels Qualnet Audio streaming Beamforming antenna Broadcast channel Client topology Dynamic programming High-rate omnidirectional transmission Multicast protocol Smart antenna Time-varying channel Wireless LAN Wireless channel Wireless link layer multicast Software Engineering |
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Adaptive antenna arrays Broadcast channels Multicast protocols Telecommunication network topology Time-varying channels Wireless LAN Wireless channels Qualnet Audio streaming Beamforming antenna Broadcast channel Client topology Dynamic programming High-rate omnidirectional transmission Multicast protocol Smart antenna Time-varying channel Wireless LAN Wireless channel Wireless link layer multicast Software Engineering |
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Adaptive antenna arrays Broadcast channels Multicast protocols Telecommunication network topology Time-varying channels Wireless LAN Wireless channels Qualnet Audio streaming Beamforming antenna Broadcast channel Client topology Dynamic programming High-rate omnidirectional transmission Multicast protocol Smart antenna Time-varying channel Wireless LAN Wireless channel Wireless link layer multicast Software Engineering Souvik SEN, XIONG, Jie GHOSH, Rahul CHOUDHURY, Romit Roy Link layer multicast using smart antennas: No client left behind |
| description |
Wireless link layer multicast is an important service primitive for emerging applications, such as live video, streaming audio, and other content telecasts. The broadcast nature of the wireless channel is amenable to multicast because a single packet transmission may be received by all clients in the multicast group. However, in view of diverse channel conditions at different clients, the rate of such a transmission is bottlenecked by the rate of the weakest client. Multicast throughput degrades severely. Attempts to increase the data rate result in lower reliability and higher unfairness. This paper utilizes smart beamforming antennas to improve multicast performance in wireless LANs. The main idea is to satisfy the stronger clients with a high-rate omnidirectional transmission, followed by high-rate directional transmission(s) to cover the weaker ones. By selecting an optimal transmission strategy (using dynamic programming), we show that the multicast throughput can be maximized while achieving a desired delivery ratio at all the clients. We use testbed measurements to verify our main assumptions. We simulate our protocol in Qualnet, and observe consistent performance improvements over a range of client topologies and time-varying channel conditions. |
| format |
text |
| author |
Souvik SEN, XIONG, Jie GHOSH, Rahul CHOUDHURY, Romit Roy |
| author_facet |
Souvik SEN, XIONG, Jie GHOSH, Rahul CHOUDHURY, Romit Roy |
| author_sort |
Souvik SEN, |
| title |
Link layer multicast using smart antennas: No client left behind |
| title_short |
Link layer multicast using smart antennas: No client left behind |
| title_full |
Link layer multicast using smart antennas: No client left behind |
| title_fullStr |
Link layer multicast using smart antennas: No client left behind |
| title_full_unstemmed |
Link layer multicast using smart antennas: No client left behind |
| title_sort |
link layer multicast using smart antennas: no client left behind |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2008 |
| url |
https://ink.library.smu.edu.sg/sis_research/2798 https://ink.library.smu.edu.sg/context/sis_research/article/3798/viewcontent/LinkLayerMulticasting_2008_afv.pdf |
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