Analysis of throughput and efficient block size based polling scheme for IEEE 802.11e wireless LANs

In the recent draft of the 802.11e MAC, the hybrid coordinator (HC) gives transmission opportunity (TXOP) for a station to transmit burst frames in TXOP for improving throughput efficiency. In this paper, we express the expected throughput for the block ack policy in polled TXOP as a closed form function of the number of burst MSDUs, the number of fragmented MPDUs, the data payload length, the frame retry count, the wireless channel condition, and the selected PHY mode. Based on our simulation study and analysis, we show that the TXOP and proper ack policy can enhance system performance, and that there is a block ack efficient block size and frame length to transmit the burst frames for each PHY mode. Moreover, we also show that when the block ack mechanism is combined with link adaptation, it has better throughput performance. Based on the condition of the efficient block ack mechanism, we propose a block size based polling scheme.