Available bandwidth estimation and admission control for QoS routing in wireless mesh networks
Computer Communications
RLTE: Reinforcement Learning for Traffic-Engineering
AIMS '08 Proceedings of the 2nd international conference on Autonomous Infrastructure, Management and Security: Resilient Networks and Services
ESA '08 Proceedings of the 16th annual European symposium on Algorithms
Technical, Commercial and Regulatory Challenges of QoS: An Internet Service Model Perspective
Technical, Commercial and Regulatory Challenges of QoS: An Internet Service Model Perspective
Network Planning and Adaptive Routing for Multimedia Traffic
APNOMS '08 Proceedings of the 11th Asia-Pacific Symposium on Network Operations and Management: Challenges for Next Generation Network Operations and Service Management
MPLS traffic engineering for multimedia on satellite networks
Journal of Mobile Multimedia
Web services trustworthiness model
ServiceWave'11 Proceedings of the 4th European conference on Towards a service-based internet
Walled gardens: the new shape of the public internet
Proceedings of the 2012 iConference
GigaManP2P: an overlay network for distributed QoS management and resilient routing
International Journal of Network Management
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QoS, short for "quality of service," is one of the most important goals a network designer or administrator will have. Ensuring that the network runs at optimal precision with data remaining accurate, traveling fast, and to the correct user are the main objectives of QoS. The various media that fly across the network including voice, video, and data have different idiosyncrasies that try the dimensions of the network. This malleable network architecture poses an always moving potential problem for the network professional.The authors have provided a comprehensive treatise on this subject. They have included topics such as traffic engineering, capacity planning, and admission control. This book provides real world case studies of QoS in multiservice networks. These case studies remove the mystery behind QoS by illustrating the how, what, and why of implementing QoS within networks. Readers will be able to learn from the successes and failures of these actual working designs and configurations.*Helps readers understand concepts of IP QoS by presenting clear descriptions of QoS components, architectures, and protocols*Directs readers in the design and deployment of IP QoS networks through fully explained examples of actual working designs*Contains real life case studies which focus on implementation