End-to-end arguments in system design
ACM Transactions on Computer Systems (TOCS)
FARA: reorganizing the addressing architecture
FDNA '03 Proceedings of the ACM SIGCOMM workshop on Future directions in network architecture
IPv4 address allocation and the BGP routing table evolution
ACM SIGCOMM Computer Communication Review
DNS and BIND (5th Edition)
A proposal for unifying mobility with multi-homing, NAT, & security
Proceedings of the 5th ACM international workshop on Mobility management and wireless access
Six/one router: a scalable and backwards compatible solution for provider-independent addressing
Proceedings of the 3rd international workshop on Mobility in the evolving internet architecture
Site-controlled secure multi-homing and traffic engineering for IP
MILCOM'09 Proceedings of the 28th IEEE conference on Military communications
Enabling mobile networks through secure naming
MILCOM'09 Proceedings of the 28th IEEE conference on Military communications
Multihoming Management for Future Networks
Mobile Networks and Applications
Home as you go: an engineering approach to mobility-capable extended home networking
AINTEC '11 Proceedings of the 7th Asian Internet Engineering Conference
Network layer soft handoff for IP mobility
Proceedings of the 8th ACM workshop on Performance monitoring and measurement of heterogeneous wireless and wired networks
Performance analysis of distributed mapping system in ID/locator separation architectures
Journal of Network and Computer Applications
A survey and taxonomy of ID/Locator Split Architectures
Computer Networks: The International Journal of Computer and Telecommunications Networking
Survey on Mobility and Multihoming in Future Internet
Wireless Personal Communications: An International Journal
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Challenges face the Internet Architecture in order to scale to a greater number of users while providing a suite of increasingly essential functionality, such as multi-homing, traffic engineering, mobility, localised addressing and end-to-end packet-level security. Such functions have been designed and implemented mainly in isolation and retrofitted to the original Internet architecture. The resulting engineering complexity has caused some to think of 'clean slate' designs for the long-term future. Meanwhile, we take the position that an evolutionary approach is possible for a practical and scaleable interim solution, giving much of the functionality required, being backwards compatible with the currently deployed architecture, with incremental deployment capability, and which can reduce the current routing state overhead for the core network. By enhancing the way we use naming in the Internet Architecture, it is possible to provide a harmonised approach to multi-homing, traffic engineering, mobility, localised addressing and end-to-end packet-level security, including specific improvement to the scalability of inter-domain routing, and have these functions coexist harmoniously with reduced engineering complexity. A set of proposed enhancements to the current Internet Architecture, based on naming, are described and analysed, both in terms of architectural changes and engineering practicalities.