On selection of candidate paths for proportional routing
Computer Networks: The International Journal of Computer and Telecommunications Networking
How can multi-topology routing be used for intradomain traffic engineering?
Proceedings of the 2007 SIGCOMM workshop on Internet network management
Research challenges in QoS routing
Computer Communications
Reducing the effects of routing inaccuracy by means of prediction and an innovative link-state cost
IEEE Communications Letters
Quality of Service constrained routing optimization using Evolutionary Computation
Applied Soft Computing
Promoting effective service differentiation with Size-oriented Queue Management
Computer Networks: The International Journal of Computer and Telecommunications Networking
ISCC '10 Proceedings of the The IEEE symposium on Computers and Communications
Balancing performance, robustness and flexibility in routing systems
IEEE Transactions on Network and Service Management
IEEE Network: The Magazine of Global Internetworking
A policy-based quality of service management system for IP DiffServ networks
IEEE Network: The Magazine of Global Internetworking
Enhancing web server relative delay services by an integrated SA-fuzzy logic controller
International Journal of Web Engineering and Technology
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The lack of an effective cooperation between the data, control and management plane of QoS routing solutions presented so far, prevents the implementation of service differentiation in the context of pure IP-based networks. Most of paths calculation proposals performed by the control plane are unaware of service characteristics of each flow. Scalable data plane QoS proposals ignore the issue about selecting the best paths to route the traffic. Proposed management plane schemes do not perform the network state maintenance and service level monitoring. Multi-service routing is a flow-based forwarding protocol that implements the service differentiation in pure IP-based networks, using a straight cooperation between data, control and management plane. This cooperation is accomplished by a data plane supporting the DiffServ model and performs route selection based on flows service class, which is exploited by the management plane to carry out the network state maintenance, and performance monitoring by using the RTCP protocol, to provide service metrics to control plane for route calculation. Simulation experiments show better performance results achieved by Multi-service routing compared to those obtained by traditional link state protocol with the DiffServ model and QoS routing in heavy loaded network scenarios of mixed traffic having different service requirements.