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Cross-Layer Design and Analysis with QoS Support in WimaxNetworks


Affiliations
1 Department of Information and Communication Engineering, Anna University, Chennai, India
2 Maha Barathi Engineering College, Chinnasalem, Tamilnadu, India
     

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A cross-layer design is developed which combines the Adaptive Modulation and Coding (AMC) at the physical layer and truncated Automatic Repeat Request (ARQ) at the data link layer to maximize the spectral efficiency under prescribed error performance constraints. Depending on the error correcting capability of the truncated ARQ, which depends on the maximum allowable number of retransmissions, we design AMC transmission modes, with each mode consisting of a specific modulation and FEC code pair as in IEEE 802.16 standard, that guarantee the required performance. Numerical results reveal that retransmissions at the data link layer relieve stringent error control requirements at the physical layer and thereby enable considerable spectral efficiency gain. This gain is provided by the maximum number of retransmissions per packet which equals the diversity order. The improvement on spectral efficiency decreases when the number of retransmissions increases, suggest that a small number of retransmissions offers a desirable delay-throughput tradeoff, in practice.


Keywords

Adaptive Modulation and Coding (AMC), Automatic Repeat Request (ARQ) Protocol, Cross-Layer Design, IEEE802.16, Quality of Service (QOS), Wireless Networks.
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  • Cross-Layer Design and Analysis with QoS Support in WimaxNetworks

Abstract Views: 223  |  PDF Views: 1

Authors

G. Indumathi
Department of Information and Communication Engineering, Anna University, Chennai, India
K. Murugesan
Maha Barathi Engineering College, Chinnasalem, Tamilnadu, India

Abstract


A cross-layer design is developed which combines the Adaptive Modulation and Coding (AMC) at the physical layer and truncated Automatic Repeat Request (ARQ) at the data link layer to maximize the spectral efficiency under prescribed error performance constraints. Depending on the error correcting capability of the truncated ARQ, which depends on the maximum allowable number of retransmissions, we design AMC transmission modes, with each mode consisting of a specific modulation and FEC code pair as in IEEE 802.16 standard, that guarantee the required performance. Numerical results reveal that retransmissions at the data link layer relieve stringent error control requirements at the physical layer and thereby enable considerable spectral efficiency gain. This gain is provided by the maximum number of retransmissions per packet which equals the diversity order. The improvement on spectral efficiency decreases when the number of retransmissions increases, suggest that a small number of retransmissions offers a desirable delay-throughput tradeoff, in practice.


Keywords


Adaptive Modulation and Coding (AMC), Automatic Repeat Request (ARQ) Protocol, Cross-Layer Design, IEEE802.16, Quality of Service (QOS), Wireless Networks.