Title :
Optimal ACK mechanisms of the IEEE 802.15.3 MAC for ultra-wideband systems
Author :
Xiao, Yang ; Shen, Xuemin ; Jiang, Hai
Author_Institution :
Dept. of Comput. Sci., Univ. of Memphis, TN, USA
fDate :
4/1/2006 12:00:00 AM
Abstract :
Ultra-wideband (UWB) transmission is an emerging wireless technology for future short-range indoor and outdoor multimedia applications. To coordinate the access to the wireless medium among the competing devices, the IEEE 802.15.3 medium access control (MAC) is proposed for short-range high-speed wireless personal area networks (WPANs) in the IEEE 802.15.3a task group. In the MAC, three acknowledgment (ACK) mechanisms are adopted during channel time allocation for error control over the error-prone wireless channel: No-ACK, Immediate-ACK (Imm-ACK), and Delayed-ACK (Dly-ACK). Frames received with errors can be retransmitted in the Imm-ACK and Dly-ACK mechanisms. However, how to optimally use these ACK mechanisms during channel time allocation is still an open issue. In this paper, we investigate how to configure the ACK mechanism parameters in order to achieve optimal throughput performance. We first formulate the throughput optimization problem for a contention-free channel time allocation under error channel condition. We then apply the three ACK mechanisms in the contention access period, to optimize the channel throughput. Simulation results demonstrate the effectiveness of our investigation.
Keywords :
access protocols; channel allocation; error correction; indoor radio; multimedia communication; personal area networks; ultra wideband communication; wireless channels; IEEE 802.15.3 MAC; UWB transmission; WPAN; channel time allocation; contention access period; error control; error-prone wireless channel; indoor multimedia application; medium access control; optimal ACK mechanism; outdoor multimedia application; ultrawideband system; wireless personal area network; Bandwidth; Delay; Error correction; HDTV; Media Access Protocol; Multimedia systems; Throughput; Ultra wideband technology; Wireless communication; Wireless personal area networks; Bit-error rate (BER); IEEE 802.15.3; error channel; medium access control (MAC); ultra-wideband (UWB);
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2005.863862