Koki Iwai, Takanobu Ohnuma, H. Shigeno, Yusuke Tanaka
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引用次数: 5
Abstract
Wireless Local Area Networks (WLANs) have been deployed more densely according to high wireless demands. In a dense environment where a lot of stations (STAs) located closely, co-channel interference decreases system performance seriously. IEEE 802.11ax Task Group focuses on spatial reuse that utilizes finite frequency resources to address this problem. Although existing studies about spatial reuse have been discussed so far, interference from other basic service sets (BSSs) and cooperation with each access point (AP) have not been considered fully. To enhance communication fairness, we propose fair Dynamic Sensitivity and Transmission Power Control (fairDSTPC) that adjusts CCAT and transmission power based on AP cooperation. We improve communication environment of BSS which results in the worst throughput by exchanging information, such as throughput and number of sent data frames, between APs. Simulation results showed that our method achieved effectiveness compared with existing method and legacy system. In an open space scenario, our method reached approximately two times higher 5% ile downlink throughput than an existing method while maintaining 5% ile uplink throughput and aggregate throughput.
无线局域网(Wireless Local Area network, wlan)的部署越来越密集。在多站密集分布的环境中,同信道干扰严重影响系统性能。IEEE 802.11ax任务组专注于空间重用,利用有限的频率资源来解决这个问题。虽然现有的空间重用研究已经有了一定的进展,但对其他基本服务集(bss)的干扰以及与每个接入点(AP)的合作等方面的考虑还不够充分。为了提高通信公平性,我们提出了公平动态灵敏度和传输功率控制(fairDSTPC),该控制基于AP合作来调整CCAT和传输功率。通过在ap之间交换吞吐量和发送数据帧数等信息,改善了导致BSS吞吐量最差的通信环境。仿真结果表明,与现有方法和遗留系统相比,该方法取得了较好的效果。在开放空间场景中,我们的方法达到了比现有方法高两倍的5%文件下行吞吐量,同时保持了5%的文件上行吞吐量和总吞吐量。
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