Active Multimedia Communication Systems

Proceedings. IEEE High-Assurance Systems Engineering Workshop (Cat. No.96TB100076) Pub Date : 1996-10-21 DOI:10.1109/HASE.1996.618594

Shi-Kuo Chang

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Abstract

To maintain continuous, adaptive multimedia communication with guaranteed minimum quality of service in a combined wired and wireless environment poses a major challenge. We describe an active network architecture for multimedia communications. We introduce the novel concept of QoS-Message, which is specified by a flexible, high-level Petri net called the G-Net. Extensive research has been done at the University of Pittsburgh and elsewhere to study the property of G-Net and its application in the design of complex, reliable real-time systems. We adopt the G-Net for QoS-message specification. An active net- work architecture is describe so that based upon the feedback from the network, the optimizing transforma- tion of G-Nets enables the continuous adaptation of QoS-messages when the network environment changes dynamically. The approach guarantees continuous communication over a combined wired and wireless en- vironment. A prototype active multimedia communication system is being developed at the University of Pittsburgh. This research provides a basis for QoS-message specification, dynamic QoS-message construc- tion, a channel model and an active network architecture for adaptive multimedia communication.

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有源多媒体通信系统

在有线和无线结合的环境中，在保证最低服务质量的情况下保持连续、自适应的多媒体通信是一项重大挑战。我们描述了一种用于多媒体通信的主动网络体系结构。我们引入了QoS-Message的新概念，它是由一个称为G-Net的灵活的高级Petri网指定的。匹兹堡大学和其他地方已经进行了广泛的研究，以研究G-Net的特性及其在复杂、可靠的实时系统设计中的应用。我们采用了G-Net的qos消息规范。描述了一种基于网络反馈的主动网络架构，使G-Nets的优化转换能够在网络环境动态变化时持续适应qos消息。该方法保证了在有线和无线组合环境下的连续通信。匹兹堡大学正在开发一种有源多媒体通信系统的原型。本研究为自适应多媒体通信的qos消息规范、动态qos消息构建、信道模型和主动网络体系结构提供了基础。

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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Proceedings. IEEE High-Assurance Systems Engineering Workshop (Cat. No.96TB100076)

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