NDN Live Video Broadcasting over Wireless LAN

2015 24th International Conference on Computer Communication and Networks (ICCCN) Pub Date : 2015-10-05 DOI:10.1109/ICCCN.2015.7288434

Menghan Li, Dan Pei, Xiaoping Zhang, Beichuan Zhang, Ke Xu

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引用次数: 12

Abstract

Named Data Networking (NDN) is a new Internet architecture that replaces today's focus on where - addresses and hosts - with what - the content that users and applications care about. One of NDN's prominent advantages is scalable and efficient content distribution due to its native support of caching and multicast in the network. However, at the last hop to wireless users, often the WiFi link, current NDN implementation still treats the communication as multiple unicast sessions, which will cause duplicate packets and waste of bandwidth when multiple users request for the same popular content. WiFi's built-in broadcast mechanism can alleviate this problem, but it suffers from packet loss since there is no MAC-layer acknowledgement as in unicast. In this paper, we develop a new NDN-based cross-layer approach called NLB for efficient and scalable live video streaming over wireless LAN. The idea is to use WiFi's broadcast channel to deliver content from the access point to the users, a leader-based mechanism to suppress duplicate requests from users, and receiver-driven rate control and loss recovery. The design is implemented and evaluated in a physical testbed comprised of a commodity residential access point and 20 WiFi clients. While NDN with multiple unicast sessions or plain broadcast can support no more than 7 concurrent viewers of a 1Mbps streaming video, NDN plus NLB supports all 20 viewers, and can likely support many more when present.

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无线局域网NDN视频直播

命名数据网络(NDN)是一种新的互联网架构，它用用户和应用程序关心的内容取代了今天对地址和主机的关注。由于NDN本身支持网络中的缓存和组播，因此其突出的优势之一是可扩展和高效的内容分发。然而，在无线用户的最后一跳，通常是WiFi链路，目前的NDN实现仍然将通信视为多个单播会话，当多个用户请求相同的流行内容时，会造成重复的数据包和带宽浪费。WiFi内置的广播机制可以缓解这个问题，但由于没有像单播那样的mac层确认，因此它遭受丢包的困扰。在本文中，我们开发了一种新的基于ndn的跨层方法，称为NLB，用于无线局域网上高效和可扩展的实时视频流。这个想法是使用WiFi的广播频道从接入点向用户传送内容，一个基于领导者的机制来抑制用户的重复请求，以及接收器驱动的速率控制和损失恢复。该设计在一个由商品住宅接入点和20个WiFi客户端组成的物理测试平台上实现和评估。虽然具有多个单播会话或普通广播的NDN只能支持不超过7个并发观看1Mbps流媒体视频，但NDN + NLB支持所有20个观看者，并且可能支持更多。

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

2015 24th International Conference on Computer Communication and Networks (ICCCN)

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