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引用次数: 7
摘要
多输入多输出(MIMO)和正交频分复用(OFDM)可以提高宽带无线通信的容量。然而,由于现有的介质访问控制(MAC)方案被设计为只接受一个邻居中的一个用户,因此将这些技术推广到宽带自组织网络并不容易。使用MIMO-OFDM,多个节点可以共存于同一邻域。提出了一种融合MIMO-OFDM和一种新颖的MAC方案-多天线接收机发起的忙音介质接入(MARI-BTMA)的收发机架构。MARI-BTMA基于RI-BTMA (receiver initiated busy tone medium access),利用多个带外忙音通知各节点系统内的用户数,避免同一信道上的冲突。为了提高低流量负载下的性能,还提出了一种自适应MARI-BTMA。本文对吞吐量和延迟进行了理论和数值分析。分析和仿真结果表明,与RI-BTMA和载波感知介质接入/避碰(CSMA/CA)相比,MARI-BTMA的性能有所提高。
MIMO-OFDM and MAC design for broadband ad hoc network
Multiple input multiple output (MIMO) and orthogonal frequency division multiplexing (OFDM) can be used to boost up capacity for broadband wireless communication. However, it is not easy to generalize these techniques to broadband ad hoc networks since existing medium access control (MAC) schemes are designed to accept only one user in a neighborhood. With MIMO-OFDM, multiple nodes can coexist in the same neighborhood. A transceiver architecture merging MIMO-OFDM and with a novel MAC scheme-multiple antennas receiver initiated busy tone medium access (MARI-BTMA) is proposed in this paper. MARI-BTMA is based on receiver initiated busy tone medium access (RI-BTMA) and uses multiple out of band busy-tones to notify the nodes about the number of users in the system and avoid collision on the same channel. To improve the performance at low traffic loads, an adaptive MARI-BTMA is also proposed. In this paper, both theoretical and numerical analysis of the throughput and delay are presented. Analysis and simulation results show the improved performance of MARI-BTMA compared with RI-BTMA and carrier sensing medium access/collision avoidance (CSMA/CA)
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