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Call for Papers
8. Communications QoS, Reliability and Modelling
Sponsoring TCs: | Communications Quality and Reliability TC |
| Communications System Integration and Modelling TC |
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Chairs: | Hiromi Ueda, Tokyo University of Technology (Japan) |
| Nelson Fonseca, State Univ of Campinas (Brazil) |
| Ralf Lehnert, TU Dresden (Germany) |
Communication networks are designed to provide services to their users and do that
while offering an acceptable quality level. For this purpose, network traffic should be
understood and properly controlled so that the desired Quality of Service requirements of
applications and Services are achieved.
The diversity in the characteristics of emerging applications and current network technologies demand
the design and employment of specialized control mechanisms. Moreover, to understand how well these
mechanisms contribute to service provisioning calls for the use of different approaches such as analytical
modeling, simulation, measurement and monitoring.
The aim of the Communications QoS, Reliability and Performance Modeling Symposium is to provide a venue for the discussion of
communications service provisioning, the quality of such provisioning as well as the techniques to understand the
performance of networks designed to provide such services.
Topics of Particular Interest
- QoS and Performance Analysis Techniques
- Quanitative Evaluation of Communication Systems
- Performance Evaluation Techniques
- Traffic Engineering and Traffic Theory
- Traffic and Workload Modeling and Characterization
- QoS Metrics
- Network Measurement and Monitoring Techniques
- QoS Modelling and Simulation Techniques and Tools
- Network Simulation Techniques
- Applications of QoS Modelling and Analysis Techniques
- QoS for VoIP and IPTV
- QoS and Performance in the Internet
- QoS and Performance in Wireless and Mobile Networks
- QoS and Performance in Optical Networks
- QoS and Performance in Grid Computing
- QoS and Performance in Peer-to-Peer Networks
- Network and Service Design for Performance and Reliability
- Scalability, Robustness and Resilience
- Resource Allocation for Networks and their services
- Cross-layer Design and Optimization
- Traffic and Workload Control
- Traffic Economics
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