Szigeti János et al. Evaluation and estimation of the availability of p-cycle protected connections. (2013) TELECOMMUNICATION SYSTEMS 1018-4864 1572-9451 52 2 767-782, 2669470
Article (Journal Article) | Scientific[2669470]
  1. Liew Soung-Yue et al. Toggling dual label: an exact algorithm for finding the optimal pair of link-disjoint paths in path protection. (2016) TELECOMMUNICATION SYSTEMS 1018-4864 1572-9451 61 3 451-469
    Article (Journal Article) | Scientific[25513751] [Approved]
    Független, Idéző: 25513751, Kapcsolat: 25513751
  2. Walkowiak K.. Connection-oriented networks. (2016) In: Studies in Systems, Decision and Control pp. 39-99
    Chapter (Chapter in Book) | Scientific[31196755] [Approved]
    Független, Idéző: 31196755, Kapcsolat: 31137271
  3. Wang Wenjing et al. On the Indicators of Service Availability in Span-Restorable Networks. (2015) In: 7th Workshop on Reliable Networks Design and Modeling (RNDM) pp. 21-26
    Conference paper (Chapter in Book) | Scientific[32700338] [Approved]
    Független, Idéző: 32700338, Kapcsolat: 31137273
  4. Smutnicki A. et al. A heuristic approach to working and spare capacity optimization for survivable anycast streaming protected by p-cycles. (2014) TELECOMMUNICATION SYSTEMS 1018-4864 1572-9451 56 1 141-156
    Article (Journal Article) | Scientific[34445634] [Approved]
    Független, Idéző: 34445634, Kapcsolat: 33755611
Callegati Franco et al. Optical core networks research in the e-photon-one project. (2009) JOURNAL OF LIGHTWAVE TECHNOLOGY 0733-8724 27 20 4415-4423, 2645131
Article (Journal Article) | Scientific[2645131]
  1. Razo-Zapata IS et al. Self-healing in transparent optical packet switching mesh networks: A reinforcement learning perspective. (2014) COMPUTER NETWORKS 1389-1286 1872-7069 60 129-146
    Article (Journal Article) | Scientific[24589211] [Approved]
    Független, Idéző: 24589211, Kapcsolat: 24589211
  2. * Callegati Franco et al. Why Optical Packet Switching failed and can Elastic Optical Networks take its place?. (2022) OPTICAL SWITCHING AND NETWORKING 1573-4277 1872-9770 44
    Article (Journal Article) | Scientific[33003263] [Validated]
    Függő, Idéző: 33003263, Kapcsolat: 31557139
Szigeti J. et al. p-cycle Protection in multi-domain optical networks. (2009) PHOTONIC NETWORK COMMUNICATIONS 1387-974X 1572-8188 17 1 35-47, 32643781
Article (Journal Article) | Scientific[32643781]
  1. Drid H et al. A survey of survivability in multi-domain optical networks. (2010) COMPUTER COMMUNICATIONS 0140-3664 1873-703X 33 8 1005-1012
    Journal Article[23955261] [Admin approved]
    Független, Idéző: 23955261, Kapcsolat: 23949418
  2. Drid H et al. A Topology Aggregation Model for Survivability in Multi-Domain Optical Networks Using p-Cycles. (2009) In: Network and Parallel Computing (NPC), Sixth IFIP International Conference on pp. 211-218
    Conference paper (Chapter in Book) | Scientific[23961699] [Admin approved]
    Független, Idéző: 23961699, Kapcsolat: 23949419
  3. Velasco L et al. GMPLS-based Multidomain Restoration: Analysis, Strategies, Policies and Experimental Assessment. (2010) Optical Communications and Networking, IEEE/OSA Journal of 2 7 427-441
    Journal Article[23949420] [Admin approved]
    Független, Idéző: 23949420, Kapcsolat: 23949420
  4. Drid H et al. Survivability in multi-domain optical networks using p-cycles. (2009) PHOTONIC NETWORK COMMUNICATIONS 1387-974X 1572-8188 19 1 81-89
    Article (Journal Article) | Scientific[23961698] [Approved]
    Független, Idéző: 23961698, Kapcsolat: 23949421
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