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引用次数: 1
摘要
LTE-A (Long Term Evolution Advanced)下行调度程序必须保证QoS (Quality of Service)的提供。现有调度器考虑通道质量指示器(CQI)报告来确定它们的优先级规则。然而,这些报告可能不够准确。此外,现有的调度策略不能很好地在低丢包率(PLR)和有界延迟之间进行权衡,而这是QoS提供的基础。本文提出了一种基于速率预测的LTE-A下行调度算法。该建议包括面向实时(RT)应用程序的半持久性下行链路调度程序。它基于一种称为预测比特率(PBR)的算法。提出的调度程序被称为高速公路和速率预测下行链路调度程序(HRPDS)。本文的主要贡献是保证了低PLR和有界延迟之间的增强权衡。此外,我们支持预测,以保证更准确的资源分配。进一步分析研究表明,该方案在QoS提供方面是一致的。仿真结果验证了分析研究的有效性,并证明了所提出的调度程序优于现有的调度程序。
Highway and rate prediction downlink scheduler (HRPDS) for LTE-A real time applications
A Long Term Evolution Advanced (LTE-A) downlink scheduler must guarantee the Quality of Service (QoS) provisioning. Existing schedulers consider the Channel Quality Indicator (CQI) reports to determine their priority rules. Nevertheless, these reports may not be sufficiently accurate. In addition, existing scheduling policies fail to provide a good tradeoff among low Packet Loss Ratio (PLR) and bounded delay, which is primordial in QoS provisioning. In this paper, we propose a new LTE-A downlink scheduler based on rate prediction. The proposal consists of a semipersistent downlink scheduler oriented for Real time (RT) applications. It is based on an algorithm called Predicted Bit-Rate (PBR). The proposed scheduler is called Highway and Rate Prediction Downlink Scheduler (HRPDS). The main contribution targeted in this paper is guaranteeing an enhanced trade-off between low PLR and bounded delay. In addition, we support prediction in an aim to guarantee a more accurate resource assignment. Further, analytical study shows that the proposal is consistent in terms of QoS provisioning. Simulation results validate the analytical study and prove that the proposed scheduler outperforms the existing schedulers.
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