Now showing items 1-6 of 6

    • An approximate analytical method of analysis of a threshold maintenance policy for a multiphase multicomponent model 

      Anisimov, V. V.; Gürler, Ü. (Springer, 2003)
      A multicomponent system is investigated that consists of n identical unreliable components whose nonfailure operating time consists of a number of sequential phases with exponential times. A maintenance policy is studied ...
    • Creating crowd variation with the OCEAN personality model 

      Durupınar, Funda; Allbeck, J.; Pelechano, N.; Badler, N. (IFAAMAS, 2008-05)
      Most current crowd simulators animate homogeneous crowds, but include underlying parameters that can be tuned to create variations within the crowd. These parameters, however, are specific to the crowd models and may be ...
    • Foraging swarms as Nash equilibria of dynamic games 

      Özgüler, A. B.; Yildiz, A. (IEEE, 2014)
      The question of whether foraging swarms can form as a result of a noncooperative game played by individuals is shown here to have an affirmative answer. A dynamic game played by N agents in 1-D motion is introduced and ...
    • Local pinning of networks of multi-agent systems with transmission and pinning delays 

      Lu, W.; Atay, F. M. (Institute of Electrical and Electronics Engineers, 2016)
      We study the stability of networks of multi-agent systems with local pinning strategies and two types of time delays, namely the transmission delay in the network and the pinning delay of the controllers. Sufficient ...
    • On non-cooperative genomic privacy 

      Humbert, M.; Ayday, Erman; Hubaux J.-P.; Telenti, A. (Springer, Berlin, Heidelberg, 2015)
      Over the last few years, the vast progress in genome sequencing has highly increased the availability of genomic data. Today, individuals can obtain their digital genomic sequences at reasonable prices from many online ...
    • Robust controller design based on reduced order plants 

      Özgüler, A. B.; Gündeş, A. N. (Taylor & Francis, 2006)
      Two dual controller design methods are proposed for linear, time-invariant, multi-input multi-output systems, where designs based on a reduced order plant robustly stabilizer higher order plants with additional poles or ...