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Optical label switched networks
IEEE Communications Magazine, 2006This article reviews the performance of an optical-label-controlled packet routing node as implemented in the European FP5-IST STOLAS project including a set of general engineering rules. Experimental networking scenarios and results from a STOLAS based network emulator supporting optical overspill routing are presented.
Monroy, Idelfonso Tafur +7 more
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Label switching over IEEE802.15.4e networks
Transactions on Emerging Telecommunications Technologies, 2013ABSTRACTAn open issue still to be addressed in low‐power lossy networks (LLNs) is how the application requirements, the available transport services, the network layer routes, and the data link‐layer resources are mapped efficiently. This can be explained by the fact that, in most LLNs, link‐layer resources cannot be easily managed; this results in a ...
A. Morell +3 more
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Adaptive optical label packet switching
SPIE Proceedings, 2007This paper introduces a kind of Adaptive Optical Label Packet Switching (AOLPS) technology. Based on Optical Packet Switching (OPS), AOLPS uses optical label to achieve self-routing, and the size of optical packet is self-adaptive. At the edge nodes, IP packets are fist classified into different first-in-fist-out memories (FIFOs) according to their
Shilin Xiao +4 more
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Multiprotocol Label Switching (MPLS)
2011The idea behind Multiprotocol Label Switching (MPLS) is simple. In datagram switching each packet is treated as an independent element by routers. If one implements a Differentiated Services architecture, each independent packet is treated according to a policy specifically for its service class.
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IP next generation label switching
IEEE Workshop on IP Operations and Management, 2003This paper proposes the forwarding of IPv6 packets using label switching techniques, with the same advantages of the multiprotocol label switching (MPLS) architecture. The paper proposes the mapping of all MPLS header fields into the IPv6 header, raising several advantages like the simplicity of the model and the decrease of overhead.
V. Roesler +3 more
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Optical label switched networks
2004Within the STOLAS project, an orthogonal optical labeling scheme using Frequency Shift Keying modulation for the 155 Mbit/s label and intensity modulation for the 10 Gbit/s payload data is being explored. This scheme enables to improve the throughput of packet-switched networks by efficient label processing and all-optical routing of packet bursts. The
Koonen, A.M.J. +10 more
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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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Wireless multiprotocol label switching (WMPLS)
Conference Record of Thirty-Fifth Asilomar Conference on Signals, Systems and Computers (Cat.No.01CH37256), 2001The framework of wireless multiprotocol label switching (WMPLS) technology in applications of broadband wireless mobile communications is presented here. WMPLS has been designed to be a homogeneous protocol to multiprotocol label switching (MPLS), Generalized MPLS (GMPLS), and MPLambdaS, which are the strongest candidates for next generation networking
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