Abstract
This paper proposes an opportunistic multicast scheduling scheme using erasure-correction coding to jointly explore the multicast gain and multiuser diversity. For each transmission, the proposed scheme sends only one copy to all users in the multicast group at a transmission rate determined by a SNR threshold. Analytical framework is developed to establish the optimum selection of the SNR threshold and coding rate for given channel conditions to achieve the best throughput in both cases of full channel knowledge and only partial channel knowledge of the average SNR and fading type. Numerical results show that the proposed scheme outperforms both the worst-user and best-user schemes for a wide range of average SNR and multicast group size. Our study indicates that full channel knowledge is only significantly beneficial at smallmulticast group size. For a large multicast group, partial channel knowledge is sufficient to closely approach the achievable throughput in the case of full channel knowledge while it can significantly reduce the overhead required for channel information feedback. Further extension of the proposed scheme applied to OFDM system to exploit frequency diversity in a frequency-selective fading environment illustrates that a considerable delay reduction can be achieved with negligible degradation in multicast throughput.
Highlights
Multicast services over wireless communications have recently become more and more popular
From the derived relationship ρ∗ = ρth = ln(N/N ), increasing the subgroup size N in ECOM with Full Channel Knowledge (ECOMF) is equivalent to decreasing the cut-off threshold ρth in ECOM with Partial Channel Knowledge (ECOMP)
It is noted that the normalized throughput of both ECOMF and ECOMP drops sharply after this optimal point when ρth or ρ∗ increases
Summary
Multicast services over wireless communications have recently become more and more popular. Due to a possible large difference in the instantaneous channel gains of the various links from the base-station (BS) to users in a wireless fading environment, the BS may have to apply the lowest supportable rate (corresponding to the worst BS-user link), which results in very low bandwidth efficiency Based on this fact, opportunistic scheduling for unicast transmission to explore the multiuser diversity by sending one copy to the user with the highest instantaneous channel gain has been extensively researched. Opportunistic scheduling for unicast transmission to explore the multiuser diversity by sending one copy to the user with the highest instantaneous channel gain has been extensively researched Such a best-user (BU) approach does not make use of the multicast gain, which can yield low utility of resources, especially for a large multicast group size.
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