VoIP with IPv6 packet transmission over WLAN

2010 IEEE International Conference on Software Engineering and Service Sciences Pub Date : 2010-07-16 DOI:10.1109/ICSESS.2010.5552310

Wenzheng Li, Liang Chao

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引用次数: 3

Abstract

In the recent years, Voice over Internet Protocol (VoIP) is the most popular technology and becomes a kind of killer application, and 802.11-based wireless Local Area network (WLAN) has been set up in many public places. People who use VoIP over WLAN can be more convenient. In the common WLANs, IEEE 802.11e WLAN can support VoIP with better Quality of Service (QoS), However, 802.11 lacks a flexible mechanism to adapt to the varying wireless channel condition. The idea of this research project is to promote the use of VoIP that uses IPv6 and to exploit the IP protocols over WLAN (Wireless Local Area Network). Specifically, we show a cross-layer framework for design of wireless networks to support delay-critical applications, such as conversational voice or realtime video. The framework incorporates adaptation across all layers of the protocol stack to leverage the flexibility offered by joint optimization of design parameters. There are several network features that can be exploited to minimize delay, reduce delay, and maximize performance. With the assistant of the active scheme, it can be avoid the longest phase that IEEE 802.11 will enter. And implement a policy-based 802.11e WLAN to protect the right of user who has applied real-time services

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通过WLAN进行IPv6数据包传输的VoIP

近年来，基于Internet协议的语音(Voice over Internet Protocol, VoIP)成为最流行的技术，并成为一种杀手级应用，基于802.11的无线局域网(WLAN)已经在许多公共场所建立起来。通过WLAN使用VoIP的人可以更方便。在常用的无线局域网中，IEEE 802.11e无线局域网能够以更好的QoS (Quality of Service)支持VoIP，但802.11缺乏灵活的机制来适应无线信道条件的变化。这个研究项目的想法是促进使用使用IPv6的VoIP，并在WLAN(无线局域网)上开发IP协议。具体来说，我们展示了无线网络设计的跨层框架，以支持延迟关键应用，如会话语音或实时视频。该框架整合了跨协议栈所有层的适应性，以利用联合优化设计参数所提供的灵活性。有几个网络特性可以用来最小化延迟、减少延迟和最大化性能。在有源方案的辅助下，可以避免IEEE 802.11进入最长的阶段。实现基于策略的802.11e无线局域网，保护应用实时业务的用户的权限

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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2010 IEEE International Conference on Software Engineering and Service Sciences

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