Results 91 to 100 of about 159 (143)
Some of the next articles are maybe not open access.
Evolution of multiprotocol label switching
IEEE Communications Magazine, 1998Multiprotocol label switching (MPLS) is rapidly emerging as an Internet Engineering Task Force (IETF) standard intended to enhance the speed, scalability, and service provisioning capabilities in the Internet. MPLS uses the technique of packet forwarding based on labels, to enable the implementation of a simpler high-performance packet forwarding ...
A Viswanathan
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A perspective on photonic multiprotocol label switching
IEEE Network, 2001Various MPLS-based IP over WDM integration techniques are considered in this article. In particular, this includes the circuit-switching MP/spl lambda/S framework for providing logical IP-layer topologies over optical lightpath routing networks. Additionally, an optical code label switching technique for photonic packet switching and its application to
Masayuki Murata
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2015
Last, but not least, is a discussion on Multiprotocol Label Switching (MPLS). This chapter provides an overview of MPLS and covers how to configure and troubleshoot it. It also discusses protocols that commonly use MPLS for their underlying transport.
Chris Carthern +3 more
exaly +2 more sources
Last, but not least, is a discussion on Multiprotocol Label Switching (MPLS). This chapter provides an overview of MPLS and covers how to configure and troubleshoot it. It also discusses protocols that commonly use MPLS for their underlying transport.
Chris Carthern +3 more
exaly +2 more sources
On loop control in multiprotocol label switching
Proceedings ITCC 2003. International Conference on Information Technology: Coding and Computing, 2004MPLS has been enhanced with the capability to precisely engineer traffic tunnels to avoid congestion and utilize all available bandwidth in an efficient manner. The distributed fashion of setting up the labels and formation of data tunnels for the assigned FEC (forwarding equivalence class) is a highly sophisticated mechanism, involving great dexterity
Vasu Jolly, Shahram Latifi
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Designing multiprotocol label switching networks
IEEE Communications Magazine, 2001Multiprotocol label switching adds to the capabilities of IP networks in several ways. Despite new capabilities, MPLS technology has much in common with ordinary IP networks. In turn, the design process for MPLS networks has much in common with the design of any IP network.
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Reroute sequence planning for label switched paths in multiprotocol label switching networks
Proceedings. Sixth IEEE Symposium on Computers and Communications, 2002This paper deals with the problem of reroute sequence planning for label switched paths (LSPs) in multiprotocol label switching (MPLS) networks. This problem arises when the path set is recalculated by a global optimization method for achieving a better resource utilization.
Balázs Gábor Józsa, Gábor Magyar
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M-MPLS: Micromobility-enabled multiprotocol label switching
IEEE International Conference on Communications, 2003. ICC '03., 2004This paper presents the integration of multiprotocol label switching with hierarchical mobile IPv6. The resulting micromobility-based MPLS (M-MPLS) is defined in two modes of operation: overlay and integrated. In an overlay framework MPLS and HMIP operate on their respective layers without having common processes, tables, or signaling. In an integrated
Vasos Vassiliou +5 more
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Analysis of traffic engineering and fast reroute on multiprotocol label switching
Journal of Ambient Intelligence and Humanized Computing, 2020Multiprotocol Label Switching (MPLS) is a technology developed to address the bottleneck of Internet Protocol over Asynchronous Transfer Mode network. It is a packet forwarding technology using labels to make data forwarding decisions. The use of label forwarding instead of IP address consumed a lot less resources in the old days as it was faster but ...
Mohamad Imtiyaz Goulamghoss +1 more
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2003
MPLS introduces connection orientation and packet switching in IP networks. IP datagrams are forwarded by MPLS routers along pre-established paths, based on a short label. This reduces the amount of routing computations, which are carried out only at the times of setting up new paths.
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MPLS introduces connection orientation and packet switching in IP networks. IP datagrams are forwarded by MPLS routers along pre-established paths, based on a short label. This reduces the amount of routing computations, which are carried out only at the times of setting up new paths.
openaire +1 more source