主讲人

IF 0.6 4区计算机科学 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

Ad Hoc & Sensor Wireless Networks Pub Date : 2021-12-16 DOI:10.1109/WIOPT.2007.4480016

B. Hassibi

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引用次数: 0

摘要

熵向量、凸优化和无线网络信息理论将对未来网络的设计和维护方式产生影响，这一方面是因为有线网络在网络编码等应用方面已经成熟，另一方面是因为无线网络不能用传统的网络工具令人满意地处理。挑战在于，大多数网络信息理论问题都非常困难，因此必须克服的障碍通常相当高。特别是，可用的工具数量有限，因此新方法非常受欢迎。我们描述了一种基于“归一化”熵向量空间定义的方法。在这个框架中，对于一类大的无循环无记忆网络，可以通过在信道约束的归一化熵向量集合和一些线性约束上的线性函数的最大化来找到任意一组源和目标的容量区域。关键是这个集合的闭包是凸紧的。虽然这并不一定会使问题变得更简单，但它确实绕过了“无限字母表征”问题，以及早期公式的非凸性。它还揭示了问题的核心是确定归一化熵向量的空间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Keynote Speaker

Entropic Vectors, Convex Optimization and Wireless Networks Information theory is well poised to have an impact on the manner in which future networks are designed and maintained, both because wired networks are ripe for applications such as network coding and also because wireless networks cannot be satisfactorily dealt with using conventional networking tools. The challenge is that most network information theory problems are notoriously difficult and so the barriers that must be overcome are often quite high. In particular, there are only a limited number of tools available and so fresh approaches are quite welcome. We describe an approach based on the definition of the space of "normalized" entropic vectors. In this framework, for a large class of acyclic memoryless networks, the capacity region for an arbitrary set of sources and destinations can be found by maximization of a linear function over the set of channel-constrained normalized entropic vectors and some linear constraints. The key point is that the closure of this set is convex and compact. While this may not necessarily make the problem simpler, it certainly circumvents the "infinite-letter characterization" issue, as well as the nonconvexity of earlier formulations. It also exposes the core of the problem as that of determining the space of normalized entropic vectors.

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来源期刊

Ad Hoc & Sensor Wireless Networks 工程技术-电信学

CiteScore

2.00

自引率

44.40%

发文量

审稿时长

8 months

期刊介绍： Ad Hoc & Sensor Wireless Networks seeks to provide an opportunity for researchers from computer science, engineering and mathematical backgrounds to disseminate and exchange knowledge in the rapidly emerging field of ad hoc and sensor wireless networks. It will comprehensively cover physical, data-link, network and transport layers, as well as application, security, simulation and power management issues in sensor, local area, satellite, vehicular, personal, and mobile ad hoc networks.