YESSIR: a simple reservation mechanism for the Internet
ACM SIGCOMM Computer Communication Review
HMRSVP: a hierarchical mobile RSVP protocol
Wireless Networks
Performance evaluation of a lightweight resource reservation protocol for mobile Internet hosts
WMCSA '00 Proceedings of the Third IEEE Workshop on Mobile Computing Systems and Applications (WMCSA'00)
On Accommodating Mobile Hosts in an Integrated Services Packet Network
INFOCOM '97 Proceedings of the INFOCOM '97. Sixteenth Annual Joint Conference of the IEEE Computer and Communications Societies. Driving the Information Revolution
A Simple Resource Reservation Protocol for Multicast Communications
ISCC '01 Proceedings of the Sixth IEEE Symposium on Computers and Communications
A Resource Reservation Protocol in Wireless Mobile Networks
ICPPW '01 Proceedings of the 2001 International Conference on Parallel Processing Workshops
Scalable Resource Reservation for the Internet
MMNET '97 Proceedings of the IEEE Conference on Protocols for Multimedia Systems - Multimedia Networking (PROMSMmNet'97)
Beyond QoS signaling: a new generic IP signaling framework
Computer Networks: The International Journal of Computer and Telecommunications Networking
Requirements for a new resource reservation model in hybrid access wireless network
WSEAS TRANSACTIONS on COMMUNICATIONS
WSEAS TRANSACTIONS on COMMUNICATIONS
Reliable RSVP path reservation for multimedia communications under an IP micromobility scenario
IEEE Wireless Communications
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This paper presents our method to improve lightweight reservation protocol. This was inspired by the ever increasing volume of multimedia traffic over the Internet which demanding quality of service beyond the traditional best-effort. The Integrated Services model relies on the Resource reservation Protocol (RSVP) for signaling and reserving resources. RSVP uses the receiver-initiated reservation mechanism to set up the reservation which executes protocol complexity and incurs additional processing and storage overheads on the routers. Due to heavyweight characteristic, many researchers changed the focus to the lightweight reservation protocol. In this paper, we propose a lightweight signaling protocol of Sender-initiated and Mobility-support Reservation Protocol (SMRP) with Crossover Router (COR) as an extension to SMRP. COR scheme cannot provide smooth handover as it affects the SMRP in Mobile hosts. This is the main disadvantage of COR scheme. Pointer Forwarding Scheme makes an advance resource reservation only a forwarding one-step path from the sender along the forwarding chains. In order to make SMRP more suitable for Mobile hosts, we propose a hybrid method combining the advantages of COR scheme with Pointer Forwarding scenarios. We use ns2 Java version network simulator to test it. We evaluate the performance of SMRP in a mobile network environment. The results show that the hybrid scheme can support seamless and also efficient SMRP path rerouting during handoff in respect of decreased the drop probability.