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Hinf-Riccati-Based Robust Control of Incompressible Flows

Heiland, Jan; Werner, Steffen W. R.

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  "description": "<p>This code package accompanies the paper:</p>\n\n<ul>\n\t<li>P. Benner, J. Heiland, S. W. R. Werner; Robust output-feedback stabilization for incompressible flows using low-dimensional H-infinity-controllers.</li>\n</ul>\n\n<p>and implements the design of low-dimensional robust controllers for two flow benchmark examples. The code is separated into the two computational environments that were used, namely `matlab` and `python`, and supplemented by additional READMEs for individual usage.</p>", 
  "license": "", 
  "creator": [
      "affiliation": "Max Planck Institute for Dynamics of Complex Technical Systems", 
      "@id": "", 
      "@type": "Person", 
      "name": "Heiland, Jan"
      "affiliation": "Max Planck Institute for Dynamics of Complex Technical Systems", 
      "@id": "", 
      "@type": "Person", 
      "name": "Werner, Steffen W. R."
  "url": "", 
  "datePublished": "2021-03-02", 
  "version": "1.0", 
  "keywords": [
    "Robust Control", 
    "Flow Stabilization", 
    "Model Order Reduction", 
    "Balanced Truncation", 
    "LTI Systems", 
    "Differential Algebraic Equations", 
  "@context": "", 
  "identifier": "", 
  "@id": "", 
  "@type": "SoftwareSourceCode", 
  "name": "Hinf-Riccati-Based Robust Control of Incompressible Flows"
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