Processing and Coding for Efficient Sensing and Transmission of Information

用于高效传感和信息传输的处理和编码

• 批准号: 217239-2013
• 负责人: Banihashemi, Amir
• 金额: $ 3.72万
• 依托单位: Carleton University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=570124
• 关键词: Processing; Coding; Efficient; Sensing; Transmission

This proposal is for funding to support a continuing research program on digital and wireless communications, coding and information theory. The focus is on both sensing and sampling of the information as well as its transmission. For both cases, we are interested in devising efficient (low-complexity) algorithms and processes that can operate at very high speeds. We are also interested in implementing such algorithms in VLSI circuits. For sensing and sampling, our focus is a recent technique, called Compressed Sensing (CS). Using the graphical representation of the sensing process, we make connections to the widely popular and vastly explored area of iterative coding schemes, and propose new techniques to analyze CS algorithms, and devise new sensing matrices and recovery algorithms. The goal here is to reduce the complexity of the recovery process and yet be able to recover signals with relatively large fraction of nonzero (non-negligible) elements from a relatively small set of measurements. For information transmission, our proposal covers different layers of a communication system. At the physical layer, we devise iterative coding and processing schemes for low-complexity channel estimation/equalization/error correction. We focus on open problems in these areas such as the analysis of error floor and the design of codes with guaranteed low error floors. At the network layer, we analyze the performance of existing network coding (NC) solutions, and aim to devise new solutions with lower complexity and superior convergence behavior. Finally, we explore the cross-layer design involving two or more of the communication layers. One example would be the joint design of multiple access control (MAC) scheduling and NC for multicast scenarios in wireless multihop networks. The goal is to increase the throughput, reduce the consumed energy or decrease the delay. For the implementation part of this research, we are interested in devising new high-speed architectures and circuits with low power consumption for both sensing and processing of information. The outcome of this research translates to smaller faster more energy-efficient communication systems that are more reliable and provide a better quality of service.

这项提议是为了资助一项关于数字和无线通信、编码和信息理论的持续研究计划。重点是信息的感知和采样以及信息的传输。对于这两种情况，我们都感兴趣的是设计能够以非常高的速度运行的高效(低复杂性)算法和过程。我们也对在VLSI电路中实现这样的算法感兴趣。对于传感和采样，我们的重点是一种最新的技术，称为压缩传感(CS)。利用感知过程的图形表示，我们与广泛流行和广泛探索的迭代编码方案领域建立了联系，并提出了分析CS算法的新技术，并设计了新的感知矩阵和恢复算法。这里的目标是降低恢复过程的复杂性，同时仍然能够从相对较小的测量集合中恢复具有相对较大比例的非零(不可忽略)元素的信号。对于信息传输，我们的建议涵盖了通信系统的不同层。在物理层，我们设计了用于低复杂度信道估计/均衡/纠错的迭代编码和处理方案。我们集中在这些领域中的公开问题，如错误平台的分析和具有保证低错误平台的码的设计。在网络层，我们分析了现有的网络编码(NC)解决方案的性能，目标是设计出复杂度更低、收敛性能更好的新方案。最后，我们将探讨涉及两个或多个通信层的跨层设计。一个例子将是针对无线多跳网络中的多播场景的多路访问控制(MAC)调度和NC的联合设计。其目标是增加吞吐量、降低能耗或减少延迟。对于这项研究的实现部分，我们感兴趣的是设计新的高速体系结构和低功耗的电路，用于信息传感和处理。这项研究的结果转化为更小、更快、更节能的通信系统，这些系统更可靠，提供更好的服务质量。