CONMan: taking the complexity out of network management
Proceedings of the 2006 SIGCOMM workshop on Internet network management
Policies and conflicts in call control
Computer Networks: The International Journal of Computer and Telecommunications Networking
An architecture for virtual organization (VO)-based effective peering of content delivery networks
Proceedings of the second workshop on Use of P2P, GRID and agents for the development of content networks
CONMan: a step towards network manageability
Proceedings of the 2007 conference on Applications, technologies, architectures, and protocols for computer communications
Web-Based Management of Content Delivery Networks
DSOM '08 Proceedings of the 19th IFIP/IEEE international workshop on Distributed Systems: Operations and Management: Managing Large-Scale Service Deployment
Architecture and performance models for QoS-driven effective peering of content delivery networks
Multiagent and Grid Systems - Content management and delivery through P2P-based content networks
A novel server-side proxy caching strategy for large-scale multimedia applications
Journal of Parallel and Distributed Computing
A generic policy-conflict handling model
ISCIS'05 Proceedings of the 20th international conference on Computer and Information Sciences
Addressing the requirements of QoS management for wireless ad hoc networks
Computer Communications
Modeling content delivery networks and their performance
Computer Communications
Optimizing streaming server selection for CDN-Delivered live streaming
IDCS'12 Proceedings of the 5th international conference on Internet and Distributed Computing Systems
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We present a policy-based architecture for the control and management of content distribution networks that form an overlay of caching proxies over an underlying physical network. The architecture extends the policy framework used for controlling network quality of service (QoS) and security to content distribution networks. The fundamental advantage of a policy-based framework is that it allows a machine-independent scheme for managing multiple devices from a single point of control. In this article we describe this architecture and demonstrate how it enables dynamic updates to content distribution policies. Furthermore, we analyze the impact of such dynamic distribution on the cost of content serving