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W2006278327 abstract "Shortest path tree (SPT) computation is a critical issue for routers using link-state routing protocols, such as the most commonly used open shortest path first and intermediate system to intermediate system. Each router needs to recompute a new SPT rooted from itself whenever a change happens in the link state. Most commercial routers do this computation by deleting the current SPT and building a new one using static algorithms such as the Dijkstra algorithm at the beginning. Such recomputation of an entire SPT is inefficient, which may consume a considerable amount of CPU time and result in a time delay in the network. Some dynamic updating methods using the information in the updated SPT have been proposed in recent years. However, there are still many limitations in those dynamic algorithms. In this paper, a new modified model of pulse-coupled neural networks (M-PCNNs) is proposed for the SPT computation. It is rigorously proved that the proposed model is capable of solving some optimization problems, such as the SPT. A static algorithm is proposed based on the M-PCNNs to compute the SPT efficiently for large-scale problems. In addition, a dynamic algorithm that makes use of the structure of the previously computed SPT is proposed, which significantly improves the efficiency of the algorithm. Simulation results demonstrate the effective and efficient performance of the proposed approach." @default.
W2006278327 created "2016-06-24" @default.
W2006278327 creator A5021975286 @default.
W2006278327 creator A5029827598 @default.
W2006278327 creator A5044544424 @default.
W2006278327 date "2013-06-01" @default.
W2006278327 modified "2023-09-27" @default.
W2006278327 title "Efficient Shortest-Path-Tree Computation in Network Routing Based on Pulse-Coupled Neural Networks" @default.
W2006278327 cites W1529151618 @default.
W2006278327 cites W1554407673 @default.
W2006278327 cites W1602042964 @default.
W2006278327 cites W1967633915 @default.
W2006278327 cites W1974006074 @default.
W2006278327 cites W1984533126 @default.
W2006278327 cites W2002996870 @default.
W2006278327 cites W2003795496 @default.
W2006278327 cites W2008952302 @default.
W2006278327 cites W2009366251 @default.
W2006278327 cites W2032843526 @default.
W2006278327 cites W2037730376 @default.
W2006278327 cites W2046444262 @default.
W2006278327 cites W2050679095 @default.
W2006278327 cites W2070436795 @default.
W2006278327 cites W2094618681 @default.
W2006278327 cites W2097458838 @default.
W2006278327 cites W2097476511 @default.
W2006278327 cites W2098622183 @default.
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W2006278327 cites W2100953237 @default.
W2006278327 cites W2102145388 @default.
W2006278327 cites W2102227134 @default.
W2006278327 cites W2106123028 @default.
W2006278327 cites W2106410292 @default.
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W2006278327 cites W2111123858 @default.
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W2006278327 cites W2114757239 @default.
W2006278327 cites W2117051214 @default.
W2006278327 cites W2119940422 @default.
W2006278327 cites W2128747957 @default.
W2006278327 cites W2132523953 @default.
W2006278327 cites W2135810626 @default.
W2006278327 cites W2141487810 @default.
W2006278327 cites W2143112218 @default.
W2006278327 cites W2145634682 @default.
W2006278327 cites W2146148923 @default.
W2006278327 cites W2146543589 @default.
W2006278327 cites W2148332992 @default.
W2006278327 cites W2149959126 @default.
W2006278327 cites W2150519657 @default.
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W2006278327 cites W2152324445 @default.
W2006278327 cites W2158713778 @default.
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W2006278327 doi "https://doi.org/10.1109/tsmcb.2012.2221695" @default.
W2006278327 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23144039" @default.
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