Towards a Model for Global-Scale Backbone Networks

被引:0
|
作者
Grey, Michael [1 ]
Theil, Markus [1 ]
Rossberg, Michael [1 ]
Schaefer, Guenter [1 ]
机构
[1] Tech Univ Ilmenau, D-98684 Ilmenau, Germany
来源
2015 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC) | 2015年
关键词
network model; physical layer topologies; beta skeleton;
D O I
暂无
中图分类号
TN [电子技术、通信技术];
学科分类号
0809 ;
摘要
Synthetic network models play an integral role in nowadays research of computer networks. This is for the lack of real network data and to perform experiments with a statistical significant number of replications. While most of the modeling work currently focuses on layer 3 topologies, e.g., AS level, this work is on generating realistic layer 1 topologies. These topologies are of fundamental significance for network resilience, for example. By constructing beta-skeleton graphs, augmented with population and technology indications, our approach is able to generate highly realistic graphs. This is shown by a comparison to US networks, whose topology is publicly available.
引用
收藏
页码:6086 / 6091
页数:6
相关论文
共 50 条
  • [1] TopoHub: Synthetic global-scale backbone networks topologies
    Jurkiewicz, Piotr
    [J]. SOFTWAREX, 2024, 28
  • [2] A novel traffic control architecture against global-scale network attacks in highspeed Internet backbone networks
    Roh, BH
    Choi, W
    Yoon, M
    Yool, SW
    [J]. INFORMATION NETWORKING: CONVERGENCE IN BROADBAND AND MOBILE NETWORKING, 2005, 3391 : 853 - 863
  • [3] Dynamics of a global-scale vegetation model
    Hughes, John K.
    Valdes, Paul J.
    Betts, Richard
    [J]. ECOLOGICAL MODELLING, 2006, 198 (3-4) : 452 - 462
  • [4] Towards a global-scale soil climate mitigation strategy
    Amelung, W.
    Bossio, D.
    de Vries, W.
    Kogel-Knabner, I
    Lehmann, J.
    Amundson, R.
    Bol, R.
    Collins, C.
    Lal, R.
    Leifeld, J.
    Minasny, B.
    Pan, G.
    Paustian, K.
    Rumpel, C.
    Sanderman, J.
    van Groenigen, J. W.
    Mooney, S.
    van Wesemael, B.
    Wander, M.
    Chabbi, A.
    [J]. NATURE COMMUNICATIONS, 2020, 11 (01)
  • [5] Towards a global-scale soil climate mitigation strategy
    W. Amelung
    D. Bossio
    W. de Vries
    I. Kögel-Knabner
    J. Lehmann
    R. Amundson
    R. Bol
    C. Collins
    R. Lal
    J. Leifeld
    B. Minasny
    G. Pan
    K. Paustian
    C. Rumpel
    J. Sanderman
    J. W. van Groenigen
    S. Mooney
    B. van Wesemael
    M. Wander
    A. Chabbi
    [J]. Nature Communications, 11
  • [6] Countries as Agents in a Global-Scale Computational Model
    Walbert, Harold J.
    Caton, James L.
    Norgaard, Julia R.
    [J]. JASSS-THE JOURNAL OF ARTIFICIAL SOCIETIES AND SOCIAL SIMULATION, 2018, 21 (03):
  • [7] Global-scale regionalization of hydrologic model parameters
    Beck, Hylke E.
    van Dijk, Albert I. J. M.
    de Roo, Ad
    Miralles, Diego G.
    McVicar, Tim R.
    Schellekens, Jaap
    Bruijnzeel, L. Adrian
    [J]. WATER RESOURCES RESEARCH, 2016, 52 (05) : 3599 - 3622
  • [8] Global-scale application of the RUSLE model: a comprehensive review
    Kumar, Mithlesh
    Sahu, Ambika Prasad
    Sahoo, Narayan
    Dash, Sonam Sandeep
    Raul, Sanjay Kumar
    Panigrahi, Balram
    [J]. HYDROLOGICAL SCIENCES JOURNAL, 2022, 67 (05) : 806 - 830
  • [9] A high-resolution global-scale groundwater model
    de Graaf, I. E. M.
    Sutanudjaja, E. H.
    van Beek, L. P. H.
    Bierkens, M. F. P.
    [J]. HYDROLOGY AND EARTH SYSTEM SCIENCES, 2015, 19 (02) : 823 - 837
  • [10] Tracking global change using lichen diversity: towards a global-scale ecological indicator
    Matos, Paula
    Geiser, Linda
    Hardman, Amanda
    Glavich, Doug
    Pinho, Pedro
    Nunes, Alice
    Soares, Amadeu M. V. M.
    Branquinho, Cristina
    [J]. METHODS IN ECOLOGY AND EVOLUTION, 2017, 8 (07): : 788 - 798
12345