Now showing items 1-4 of 4

    • Control of subsonic cavity flows by neural networks-Analytical models and experimental validation 

      Efe, M. Ö.; Debiasi, M.; Yan P.; Özbay, H.; Samimy, M. (2005)
      Flow control is attracting an increasing attention of researchers from a wide spectrum of specialties because of its interdisciplinary nature and the associated challenges. One of the main goals of The Collaborative Center ...
    • Experimental study of linear closed-loop control of subsonic cavity flow 

      Yan P.; Debiasi, M.; Yuan X.; Little J.; Özbay H.; Samimy, M. (2006)
      A study is presented of the modeling and implementation of different concepts for linear feedback control of a single-mode resonance shallow cavity flow. When a physics-based linear model is used for cavity pressure ...
    • Modeling of subsonic cavity flows by neural networks 

      Efe, M.Ö.; Debiasi, M.; Özbay H.; Samimy, M. (2004)
      Influencing the behavior of a flow field is a core issue as its improvement can yield significant increase of the efficiency and performance of fluidic systems. On the other hand, the tools of classical control systems ...
    • Reduced-order model-based feedback controller design for subsonic cavity flows 

      Yuan X.; Caraballo, E.; Yan P.; Özbay, H.; Serrani, A.; DeBonis J.; Myatt J.H.; Samimy, M. (2005)
      This paper explores feedback controller design for cavity flows based on reduced-order models derived using Proper Orthogonal Decomposition (POD) along with Galerkin projection method. Our preliminary analysis shows that ...