Welcome to IWQOS'97 in New York City! Over the past several years, there has been a considerable amount of research within the field of Quality of Service (QOS). Much of that work has taken place within the context of QOS support for distributed multimedia systems, operating systems, transport subsystems, networks, devices and formal languages. The objective of the Fifth International Workshop on Quality of Service (IWQOS) is to bring together researchers, developers and practitioners working in all facets of QOS research. While many workshops and conferences offer technical sessions on the topic QOS, none other than IWQOS, provide a single-track workshop dedicated to QOS research. The theme of IWQOS'97 is building QOS into distributed systems. Implicit in that theme is the notion that the QOS community should now focus on discussing results from actual implementations of their work. As QOS research moves from theory to practice, we are interested in gauging the impact of ideas discussed at previous workshops on development of actual systems. While we are interested in experimental results, IWQOS remains a forum for fresh and innovative ideas emerging in the field. As a result of this, authors were solicited to provide experimental research (long) papers and more speculative position (short) statements for consideration. We think we have a great invited and technical program lined up for you this year. The program reflects the Program Committees desire to hear about experiment results, controversial QOS subjects and retrospectives on where we are and where we are going.
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The objective of the Fifth International Workshop on Quality of Service (IWQOS) is to bring together researchers, developers and practitioners working in all facets of QOS research. While many workshops and conferences offer technical sessions on the topic QOS, none other than IWQOS, provide a single-track workshop dedicated to QOS research.
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Keynote Address.- 1 Programming telecommunication networks.- One Mobile Communication.- 2 Adaptive service in mobile computing environments.- 3 Quality of service support in a mobile environment: an approach based on tuple spaces.- 4 IPv6 + MOBILE-IP = MRSVP = Internet Cellular Phone?.- 5 QoS challenges for next generation mobile middleware.- 6 Link error impact on MPEG video over wireless broadband networks.- 7 QoS support for mobile computing.- Two Traffic Management.- 8 Worst case arrivals of leaky bucket constrained sources: the myth of the on-off source.- 9 Guaranteeing multiple cell loss classes in shared ATM output buffer.- 10 Comprehensive queueing analysis for partial buffer system with Discrete Markovian Arrival Processes.- 11 Real-time estimation of link capacity in multimedia networks.- Three QoS Routing.- 12 Quality-of-service routing for traffic with performance guarantees.- 13 QoS based multicast routing for multimedia communications.- 14 Issues in supporting quality of service in mobile ad hoc networks.- Four QoS and Video Systems.- 15 Supporting multiple-tier QoS in a video bridging application.- 16 Playout management of interactive video — an adaptive approach.- 17 A temporal QoS based CPU scheduling model for multimedia applications in general purpose operating systems.- 18 Adaptive video applications for non-QoS networks.- Five QoS Management.- 19 Integrated CPU and network-I/O QoS management in an endsystem.- 20 Service-tailored QoS management in high performance networks.- 21 Application design for cooperative QoS management.- 22 On the specification of EtE QoS control.- 23 Using attribute-managed storage to achieve QoS.- 24 QoS for Distributed Object Computing Middleware — Fact or Fiction?.- 25 Quality of Service: Where are we?.- SixDistributed Object Computing.- 26 Integrating QoS restrictions into the process of service selection.- 27 Quality of service (QoS) in communication APIs.- 28 Managing systemic meta-data for creating QoS-adaptive CORBA applications.- 29 Support components for quality of service in distributed environments: monitoring service.- 30 A QoS configuration systems for distributed applications.- Seven Advanced Reservation.- 31 Sharing resources through advance reservation agents.- 32 Providing a scalable video-on-demand system using future reservation of resources and multicast communications.- Eight QoS-based Transport Protocols.- 33 QoS mapping between user’s preference and bandwidth control for video transport.- 34 On end-to-end QoS mapping.- 35 Transport QoS over unreliable networks: no guarantees, no free lunch!.- 36 QoS-based transport.- 37 Reservations about reservations.- Nine QoS Mapping.- 38 Simplified method for session coordination using multi-level QoS specification and translation.- 39 Quantitative QoS-mapping: a unifying approach.- 40 QoS translation and admission control for MPEG video.- 41 Towards specifying QoS-enabling software architectures.- Ten QoS Adaptation.- 42 Terminal QoS of adaptive applications and its analytical computation.- 43 End-to-end quality of service control adaptive applications.- 44 Adaptive QoS in multimedia systems.- 45 A dynamic QoS adaptation mechanism for networked virtual reality.- 46 Predictable file access latency for multimedia.- Index of contributors.- Keyword index.
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Produktdetaljer
ISBN
9780412809408
Publisert
1997-11-30
Utgiver
Vendor
Chapman and Hall
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, UU, UP, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet