CIF: Small: Collaborative Research: Synergistic Exploitation of Network Dynamics and Knowledge Heterogeneity in Wireless Networks

CIF：小型：协作研究：无线网络中网络动态和知识异构性的协同开发

• 批准号: 1422090
• 负责人: Ravi Tandon
• 金额: $ 12万
• 依托单位: Virginia Polytechnic Institute and State University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-08-01 至 2015-10-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1422090&HistoricalAwards=false
• 关键词: CIF; Small; Collaborative; Research; Synergistic

The ubiquity and accelerated growth of wireless networks and services is critically dependent on the availability and efficient use of wireless spectrum. Increasing demand for spectrum is already pushing the current commercial wireless networks to their limits and accentuates the need for transformative approaches for wireless system design. In order to meet this demand, wireless networks are rapidly evolving towards a highly dense, user-deployed, heterogeneous infrastructure characterized by aggressive spectral reuse. Such evolutionary architectures can realize high data rates although they must operate in the presence of severe interference. In traditional system design, interference is viewed as a negative externality with the end goal being its suppression or mitigation. This project develops new approaches for embracing interference through synergistic exploitation of feedback, network dynamics and network knowledge heterogeneity. The key angle leveraged in this work is to exploit interference as side information. The project will characterize the gain provided by feedback, and analyze the scalability and dependence of such gains on network topology. In addition, the researchers investigate the impact of dynamical variations in network topology and devise algorithms that harness such variations to enhance the overall network performance. The researchers also investigate the optimal utilization of heterogeneous channel knowledge for multi-flow multi-antenna wireless systems, by considering scenarios in which network channel knowledge exhibits variability in spatial and temporal domains and developing algorithms to exploit such variability.

无线网络和服务的无处不在和加速增长取决于无线频谱的可用性和有效利用。对频谱的需求不断增长，已经将当前的商业无线网络推向了其限制，并强调了对无线系统设计的变换方法的需求。为了满足这一需求，无线网络正在迅速发展，朝着高度密集，用户部署的，异质的基础架构发展，其特征是侵略性光谱重复使用。这种进化体系结构可以实现高数据速率，尽管它们必须在严重干扰的情况下运行。在传统的系统设计中，干扰被视为一种负面的外部性，最终目标是其抑制或缓解。该项目开发了通过协同剥削反馈，网络动态和网络知识异质性来拥抱干扰的新方法。这项工作中利用的关键角度是利用干扰作为侧面信息。该项目将表征反馈提供的增益，并分析此类收益对网络拓扑的可扩展性和依赖性。此外，研究人员研究了网络拓扑中动态变化的影响，并设计了这种差异以增强整体网络性能的算法。研究人员还通过考虑网络渠道知识在空间和时间领域表现出可变性并开发算法来利用这种可变性的方案，研究了多流量多ANTENNA无线系统的异质通道知识的最佳利用。