Wireless access for adaptive video applications

1997 IEEE 47th Vehicular Technology Conference. Technology in Motion Pub Date : 1997-05-04 DOI:10.1109/VETEC.1997.605904

H. Morikawa

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引用次数: 1

Abstract

This paper presents a wireless access framework for real-time VBR (variable bit rate) transport for next-generation multiservice personal communication networks. We introduce an adaptive VBR service suitable for the mobile networks, where the network provides minimum bandwidth guarantees, and assigns "leftover" bandwidth on a best-effort basis. An adaptive VBR service will help to ease the bandwidth management in the network through guaranteeing only minimum bandwidth. In order to fit this service, we design a layer source coder that separates VBR signal components into a CBR (constant bit rate) portion and a VBR portion. Specific resource allocation procedures are outlined for video traffic coded with a H.283 type two-layer codec and voice traffic generated on a talkspurt-by-talkspurt basis. The protocol is designed with the basic premise that there is a relatively large number of unused voice slots on average that can be used to carry "add-on" video packets. Numerical examples show that prioritized video transport under consideration can significantly improve picture quality, and allow better utilization of wireless resources through statistical multiplexing.

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自适应视频应用的无线接入

提出了一种用于下一代多业务个人通信网络实时可变比特率传输的无线接入框架。我们引入了一种适用于移动网络的自适应VBR业务，其中网络提供最小带宽保证，并在最大努力的基础上分配“剩余”带宽。自适应VBR业务只保证最小带宽，从而简化了网络中的带宽管理。为了适应这种服务，我们设计了一个层源编码器，将VBR信号组件分离为CBR(恒定比特率)部分和VBR部分。本文概述了用H.283型两层编解码器编码的视频流量和在逐话音基础上生成的话音流量的具体资源分配程序。该协议设计的基本前提是，平均有相对大量的未使用的语音插槽可用于携带“附加”视频数据包。数值算例表明，考虑优先级的视频传输可以显著提高图像质量，并通过统计复用更好地利用无线资源。

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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来源期刊

1997 IEEE 47th Vehicular Technology Conference. Technology in Motion

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