• DocumentCode
    3238385
  • Title

    Automated network fault management

  • Author

    Baras, J.S. ; Ball, M. ; Gupta, S. ; Viswanathan, P. ; Shah, P.

  • Author_Institution
    Inst. for Syst. Res., Maryland Univ., College Park, MD, USA
  • Volume
    3
  • fYear
    1997
  • fDate
    2-5 Nov 1997
  • Firstpage
    1244
  • Abstract
    Future military communication networks will have a mixture of backbone terrestrial, satellite and wireless terrestrial networks. The speeds of these networks vary and they are very heterogeneous. As networks become faster, it is not enough to do reactive fault management. Our approach combines proactive and reactive fault management. Proactive fault management is implemented by dynamic and adaptive routing. Reactive fault management is implemented by a combination of a neural network and an expert system. The system has been developed for the X.25 protocol. Several fault scenarios were modeled and included in the study reduced switch capacity, increased packet generation rate of a certain application, disabled switch in the X.25 cloud, and disabled links. We also modeled the occurrence of alarms including the severity of the problem, location of the event and a threshold. To detect and identify faults we use both numerical data associated with the performance objects (attributes) in the MIB as well as SNMP traps (alarms). Simulation experiments have been performed in order to understand the convergence of the algorithms, the timing of the neural network involved and the G2/NeurOn-Line software environment and MIB design
  • Keywords
    convergence of numerical methods; expert systems; internetworking; military communication; military computing; neural nets; protocols; telecommunication network management; telecommunication network routing; G2/NeurOn-Line software environment; MIB design; SNMP traps; X.25 protocol; adaptive routing; alarms; algorithm convergence; attributes; automated network fault management; backbone terrestrial networks; disabled links; disabled switch; dynamic routing; expert system; fault detection; fault diagnosis; military communication network; neural network; numerical data; packet generation rate; performance objects; proactive fault management; reactive fault management; reduced switch capacity; satellite networks; simulation experiments; wireless terrestrial networks; Artificial satellites; Expert systems; Military communication; Military satellites; Neural networks; Packet switching; Protocols; Routing; Spine; Switches;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    MILCOM 97 Proceedings
  • Conference_Location
    Monterey, CA
  • Print_ISBN
    0-7803-4249-6
  • Type

    conf

  • DOI
    10.1109/MILCOM.1997.644967
  • Filename
    644967