I. Comsa, Sijing Zhang, Mehmet Emin Aydin, P. Kuonen, J. Wagen
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引用次数: 20
摘要
在LTE-Advanced资源分配策略中,系统容量和用户公平性之间的权衡概念引起了人们的极大兴趣。不管网络条件如何,通过使用吞吐量或公平性的静态阈值,会使调度器在系统需要不同的权衡级别时变得不灵活。本文提出了一种基于动态神经网络q学习的调度技术,该技术根据信道质量指标(CQI)为不同类别的用户提供最优解决方案,实现了灵活的吞吐量-公平性权衡。Q-learning算法用于在每个TTI (Transmission Time Interval)上采用不同的调度规则策略。新的调度技术利用神经网络来估计不同状态下的调度规则,这是目前尚未研究的问题。仿真结果表明,该方法能够在不同程度的公平性要求下最大限度地提高系统吞吐量,优于现有的调度技术。此外,系统实现了期望的吞吐量公平权衡和不同类别用户的总体满意度。
A novel dynamic Q-learning-based scheduler technique for LTE-advanced technologies using neural networks
The tradeoff concept between system capacity and user fairness attracts a big interest in LTE-Advanced resource allocation strategies. By using static threshold values for throughput or fairness, regardless the network conditions, makes the scheduler to be inflexible when different tradeoff levels are required by the system. This paper proposes a novel dynamic neural Q-learning-based scheduling technique that achieves a flexible throughput-fairness tradeoff by offering optimal solutions according to the Channel Quality Indicator (CQI) for different classes of users. The Q-learning algorithm is used to adopt different policies of scheduling rules, at each Transmission Time Interval (TTI). The novel scheduling technique makes use of neural networks in order to estimate proper scheduling rules for different states which have not been explored yet. Simulation results indicate that the novel proposed method outperforms the existing scheduling techniques by maximizing the system throughput when different levels of fairness are required. Moreover, the system achieves a desired throughput-fairness tradeoff and an overall satisfaction for different classes of users.
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