Quality of Service for Intenet Multimedia
Published on 7. August 2003
Book
Hardback
256 pages
978-0-13-141463-1 (ISBN)
Description
The focus of the book is on the integration of contributions from end-systems, which include content-aware classification, rate adaptation, forward error correction (FEC), unequal error protection (UEP), etc. and contributions from DiffServ networks to enhance the QoS performance of multimedia delivery. This book provides an overview of QoS provision methods. It presents recent results on DiffServ main functional components such as traffic conditioning, Queue management, and scheduling. The approach take in this book considers both applications and QoS networks. To be more specific, it performs optimal QoS mapping between prioritized traffic source categories and DiffServ network levels.
More details
Language
English
Place of publication
Upper Saddle River
United States
Publishing group
Pearson Education (US)
Target group
College/higher education
Dimensions
Height: 242 mm
Width: 185 mm
Thickness: 19 mm
Weight
635 gr
ISBN-13
978-0-13-141463-1 (9780131414631)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
JITAE SHIN is Assistant Professor at the School of Information and Communication Engineering, Sungkyungkwan University, Korea. His research interests include QoS issues and multimedia transmission in wired/wireless networks.
DANIEL C. LEE is Assistant Professor in the Department of Electrical Engineering, University of Southern California. His research interests include Quality of Service provision and performance analysis for a wide range of networks (wireless, optical, packet-switching, etc.) and applications.
C.-C. JAY KUO, Professor at the Department of Electrical Engineering and the Signal and Image Processing Institute at USC, leads a research group devoted to multimedia compression, communication, and management. He edits the Journal of Visual Communication and Image Representation and has co-authored three books, including Intelligent Systems for Video Analysis and Access over the Internet (Prentice Hall).
DANIEL C. LEE is Assistant Professor in the Department of Electrical Engineering, University of Southern California. His research interests include Quality of Service provision and performance analysis for a wide range of networks (wireless, optical, packet-switching, etc.) and applications.
C.-C. JAY KUO, Professor at the Department of Electrical Engineering and the Signal and Image Processing Institute at USC, leads a research group devoted to multimedia compression, communication, and management. He edits the Journal of Visual Communication and Image Representation and has co-authored three books, including Intelligent Systems for Video Analysis and Access over the Internet (Prentice Hall).
Content
Preface.
1. Introduction.
Significance of the Research. Scope of the Research. Contribution of the Research. Outline of this Book.
2. Qualityofservice(QoS)Provision:An Overview.
Introduction. QoS Performance Parameters. IP-Based QoS-Providing Mechanisms. Architectural Model for Differentiated Services. Service Differentiation for Proper QoS Provision. Approaches to Increasing Service Assurance and Quality.
3. General QoS Mapping Framework.
Introduction. Overall Proposed QoS Mapping Framework in a DiffServ Network. Video Packet Categorization Based on the Relative Priority Index (RPI). QoS Mapping Problem Formulation and Solution. Experimental Results. Conclusions.
4. Packet-Forwarding Mechanism with Static QoS Mapping.
Introduction. Stable and Persistent Service Differentiation Based on Active Queue Management (ACM) and Weighted Fair Queueing (WFQ). QoS Mapping Scenarios. Experimental Results. Conclusions.
5. Dynamic QoS Mapping Control for CM Streaming.
Introduction. Proposed QoS Mapping Control Architecture. Dynamic QoS Mapping Mechanism for Aggregated Flows. An Analysis of the Aggregated Traffic Marker. Performance Evaluations. Conclusions.
6. Sourcepriority Packetization and Rate Adaptation for MPEG-4 Video.
Introduction. Overview of the Proposed System. Detailed Components of Proposed Systems. Experimental Results. Conclusions.
7. Videostreaming Using FEC over QoS-Controlled Networks.
Introduction. Background. JSN Approach. Analysis of Proposed JSN. Performance Evaluations. Conclusions.
8. Enhanced Service Differentiation for Layered Video Multicast.
Introduction. Receiver-Driven Layered Multicast (RLM) and DiffServ Networks. Enhanced AQM for Join Experiment. Hierarchical Priority Marking on Layered Video. Experimental Results. Conclusions.
9. Conclusions.
Bibliography.
Index.
1. Introduction.
Significance of the Research. Scope of the Research. Contribution of the Research. Outline of this Book.
2. Qualityofservice(QoS)Provision:An Overview.
Introduction. QoS Performance Parameters. IP-Based QoS-Providing Mechanisms. Architectural Model for Differentiated Services. Service Differentiation for Proper QoS Provision. Approaches to Increasing Service Assurance and Quality.
3. General QoS Mapping Framework.
Introduction. Overall Proposed QoS Mapping Framework in a DiffServ Network. Video Packet Categorization Based on the Relative Priority Index (RPI). QoS Mapping Problem Formulation and Solution. Experimental Results. Conclusions.
4. Packet-Forwarding Mechanism with Static QoS Mapping.
Introduction. Stable and Persistent Service Differentiation Based on Active Queue Management (ACM) and Weighted Fair Queueing (WFQ). QoS Mapping Scenarios. Experimental Results. Conclusions.
5. Dynamic QoS Mapping Control for CM Streaming.
Introduction. Proposed QoS Mapping Control Architecture. Dynamic QoS Mapping Mechanism for Aggregated Flows. An Analysis of the Aggregated Traffic Marker. Performance Evaluations. Conclusions.
6. Sourcepriority Packetization and Rate Adaptation for MPEG-4 Video.
Introduction. Overview of the Proposed System. Detailed Components of Proposed Systems. Experimental Results. Conclusions.
7. Videostreaming Using FEC over QoS-Controlled Networks.
Introduction. Background. JSN Approach. Analysis of Proposed JSN. Performance Evaluations. Conclusions.
8. Enhanced Service Differentiation for Layered Video Multicast.
Introduction. Receiver-Driven Layered Multicast (RLM) and DiffServ Networks. Enhanced AQM for Join Experiment. Hierarchical Priority Marking on Layered Video. Experimental Results. Conclusions.
9. Conclusions.
Bibliography.
Index.