• DocumentCode
    286710
  • Title

    Decentralized Hopfield neural network applied to maintenance scheduling of generating units in power systems

  • Author

    Yoshimoto, K. ; Yasuda, K. ; Yokoyama, R. ; Cory, B.J.

  • Author_Institution
    Tokyo Metropolitan Univ., Japan
  • fYear
    1993
  • fDate
    25-27 May 1993
  • Firstpage
    277
  • Lastpage
    281
  • Abstract
    In this paper, an efficient and practical method for solving a maintenance scheduling problem based on a neuro-computing approach is proposed. The objective of this problem is to equalize the capacity reserve over planing periods. The dynamical canonical network for nonlinear programming, into which is incorporated an improved Hopfield neural network for linear programming by Kennedy and Chua (1988), is modified to apply the neural network to 0-1 integer programming. To apply this approach to practical systems, a saving of computation burden has been attempted by decomposing it into a number of subproblems (that is, the maintenance period over one year is decomposed into several sub-periods) and applying a neural network to the respective subproblems. By introducing the decomposition technique and partial modification procedure, efficient and flexible maintenance scheduling of generating units has been obtained. The proposed approach based on the extended Hopfield neural network was applied to two kinds of power system models; medium-scale (15 generators and 24 periods) and practical-scale (60 generators and 52 periods). From the results of simulation, the effectiveness of the present approach has been verified as a fast-approximation solution method for the maintenance scheduling in medium or large scale power systems
  • Keywords
    Hopfield neural nets; distributed processing; electric power generation; integer programming; maintenance engineering; power systems; scheduling; 0-1 integer programming; capacity reserve equalization; decentralized Hopfield neural nets; dynamical canonical network; extended Hopfield neural network; generating units; linear programming; maintenance scheduling; nonlinear programming; power systems; sub-periods;
  • fLanguage
    English
  • Publisher
    iet
  • Conference_Titel
    Artificial Neural Networks, 1993., Third International Conference on
  • Conference_Location
    Brighton
  • Print_ISBN
    0-85296-573-7
  • Type

    conf

  • Filename
    263211