毫米波，毫秒延迟

Proceedings of the 2nd ACM Workshop on Millimeter Wave Networks and Sensing Systems Pub Date : 2018-10-01 DOI:10.1145/3264492.3264504

S. Panwar

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引用次数: 0

摘要

网络领域正在同时发生两种革命性的变化:毫米波网络的出现，以及需要端到端延迟数毫秒的应用程序的出现。毫米波是第一个承诺巨大无线带宽的物理层技术，但由于易受阻塞的影响，其可靠性非常差(光纤提供高可靠性和高带宽;低于6ghz的微波网络提供较低的带宽，但可以减轻优雅的带宽退化)。在自动驾驶汽车和其他基于传感器的应用中，对触觉通信和控制回路的超低延迟需求的出现，从根本上改变了对物理层以上层的要求。这两个变化改变了标准的网络问题，并将引发新的研究浪潮。将使用示例来说明这种范式转换。

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Millimeter Waves, Millisecond Delays

Two simultaneous revolutionary changes are occurring in networking: the advent of mmWave networks and the advent of applications that require end-to-end delays of the order of a few milliseconds. mmWave is the first physical layer technology that promises huge wireless bandwidth, but with very poor reliability as a result of its vulnerability to blockage (optical fiber offers high reliability and high bandwidth; sub-6Ghz microwave networks offer lower bandwidth but graceful bandwidth degradation that can be mitigated). The emergence of the need for ultra-low delays for haptic communications and control loops in self-driving cars and other sensor-based applications, has radically changed the requirements for layers above the physical layer. These two changes transform standard networking problems and will lead to a new wave of research. Examples will be used to illustrate this paradigm shift.

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Proceedings of the 2nd ACM Workshop on Millimeter Wave Networks and Sensing Systems

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