A framework for the transmission of streaming media to mobile devices
International Journal of Network Management
Evaluation of mobility and quality of service interaction
Computer Networks: The International Journal of Computer and Telecommunications Networking
An End-to-End QoS Architecture for Mobile Hosts
IPDPS '01 Proceedings of the 15th International Parallel & Distributed Processing Symposium
A Study on QoS Provision for IP-Based Radio Access Networks
IWDC '01 Proceedings of the Thyrrhenian International Workshop on Digital Communications: Evolutionary Trends of the Internet
ICCNMC '01 Proceedings of the 2001 International Conference on Computer Networks and Mobile Computing (ICCNMC'01)
RSVP extensions for real-time services in hierarchical mobile IPv6
Mobile Networks and Applications - Mobile networking through IP
Integrated service mobile internet: RSVP over mobile IPv4&6
Mobile Networks and Applications - Mobile networking through IP
User mobility in IP networks: current issues and recent developments
Wireless internet handbook
A New Technique to Expedite RSVP Path Re-establishments in 802.11 Wireless LANs
Wireless Personal Communications: An International Journal
RSVP extensions for real-time services in heterogeneous wireless networks
Computer Communications
Wireless Personal Communications: An International Journal
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RSVP (resource reservation protocol) is a receiver oriented resource reservation setup protocol targeted for integrated services packet networks (ISPNs). RSVP has a number of desirable attributes which make it a leading candidate for Internet standardization. These attributes include flexibility, robustness, and scalability. However, RSVP does not adequately address the issue of resource reservation for mobile hosts. This paper highlights the limitations of RSVP in mobile environments and proposes extensions to obviate these deficiencies. The basic characteristics of the proposed augmentations include: (1) quiescent resource reservations, (2) virtual receivers, (3) intelligent pre-allocation of resources based on analysis of user mobility patterns, and (4) predictive look-ahead dynamic dormant multicast trees.