A performance analysis of distributed qos negotiation during session establishment
Proceedings of the 3rd ACM workshop on QoS and security for wireless and mobile networks
Severe congestion handling approaches in NSIS RMD domains with bi-directional reservations
Computer Communications
Mobility '08 Proceedings of the International Conference on Mobile Technology, Applications, and Systems
Efficient and stateless deployment of VoIP services
Computer Networks: The International Journal of Computer and Telecommunications Networking
Network-based seamless handover framework providing QoS in heterogeneous wireless networks
ISCIT'09 Proceedings of the 9th international conference on Communications and information technologies
A fuzzy reinforcement learning approach for pre-congestion notification based admission control
AIMS'12 Proceedings of the 6th IFIP WG 6.6 international autonomous infrastructure, management, and security conference on Dependable Networks and Services
Providing consistent service levels in IP networks
APNOMS'07 Proceedings of the 10th Asia-Pacific conference on Network Operations and Management Symposium: managing next generation networks and services
Implementing RSVP-based capacity admission in OPNET modeler
Proceedings of the 46th Annual Simulation Symposium
Journal of Network and Systems Management
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The trend toward the integration of current and emerging applications and services in the Internet has launched new challenges regarding service deployment and management. Within service management, admission control has been recognized as a convenient mechanism to keep services under controlled load and ensure the required QoS levels, bringing consistency to the services offered. In this context, this article discusses the role of AC in multiservice IP networks, and surveys current and representative AC approaches. We address and compare the architectural principles of these AC approaches and their main features, virtues, and limitations that have an impact on the quality control of network services. We identify important design aspects that contribute to the successful deployment of flexible and scalable AC solutions in multiservice networks