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引用次数: 20
摘要
信道不对称和信道条件的高度波动是移动环境下无线信道的两个显著特征。因此,当在车载网络等移动环境中使用IEEE 802.11设备时,有一个有效的速率适应方案来处理这些问题至关重要。在本文中,我们提出了一种实用的速率适应方案,称为RAM (rate adaptation In Mobile environments),并在Madwifi设备驱动程序中实现。RAM采用基于接收机的方法处理信道不对称,采用保守信噪比预测算法处理高信道波动。更重要的是,RAM允许接收器通过ACK传输速率变化以创造性的方式传递反馈信息,这不需要更改设备固件,因此可以在设备驱动程序级别实现。通过室内静态和移动环境以及室外车辆环境的实验评估,以及基于实验收集的信噪比轨迹的仿真研究,证明了RAM的有效性。
Channel asymmetry and high fluctuation of channel conditions are two salient characteristics of wireless channels in mobile environments. Therefore, when using IEEE 802.11 devices in mobile environments such as vehicular networks, it is critical to have an effective rate adaptation scheme that can deal with these issues. In this paper, we propose a practical rate adaptation scheme called RAM (Rate Adaptation in Mobile environments) and implement it in the Madwifi device driver. RAM uses a receiver-based approach to handle channel asymmetry and a conservative SNR prediction algorithm to deal with high channel fluctuation. More importantly, RAM allows the receiver to convey the feedback information in a creative manner via ACK transmission rate variation, which does not require changes to the device firmware and hence is implementable at the device driver level. The effectiveness of RAM is demonstrated through experimental evaluation in indoor static and mobile environments and outdoor vehicular environments, as well as simulation study based on SNR traces collected from the experiments.
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