• DocumentCode
    1092066
  • Title

    Multiple-model adaptive predictive control of mean arterial pressure and cardiac output

  • Author

    Yu, Clement ; Roy, Rob J. ; Kaufman, Howard ; Bequette, Wayne B.

  • Author_Institution
    BOC Group, Group Tech. Center, Murray Hill, NJ, USA
  • Volume
    39
  • Issue
    8
  • fYear
    1992
  • Firstpage
    765
  • Lastpage
    778
  • Abstract
    A multiple-model adaptive predictive controller has been designed to simultaneously regulate mean arterial pressure and cardiac output in congestive heart failure subjects by adjusting the infusion rates of nitroprusside and dopamine. The algorithm is based on the multiple-model adaptive controller and utilizes model predictive controllers to provide reliable control in each model subspace. A total of 36 linear small-signal models were needed to span the entire space of anticipated responses. To reduce computation time, only the six models with the highest probabilities were used in the control calculations. The controller was evaluated on laboratory animals that were either surgically or pharmacologically altered to exhibit symptoms of congestive heart failure. During trials, the controller performance was robust with respect to excessive switching between models and nonconvergence to a single dominant model. A comparison with a previous multiple-drug controller design is made.
  • Keywords
    adaptive control; biocontrol; cardiology; haemodynamics; physiological models; algorithm; anticipated responses; cardiac output; computation time; congestive heart failure subjects; dopamine; infusion rate; laboratory animals; linear small-signal models; mean arterial pressure; model subspace; multiple-model adaptive predictive controller; nitroprusside; Adaptive control; Animals; Blood pressure; Heart; Laboratories; Predictive control; Predictive models; Pressure control; Probability; Programmable control; Animals; Blood Pressure; Cardiac Output; Dogs; Dopamine; Drug Therapy, Combination; Evaluation Studies as Topic; Heart Failure; Humans; Infusion Pumps; Linear Models; Nitroprusside; Therapy, Computer-Assisted;
  • fLanguage
    English
  • Journal_Title
    Biomedical Engineering, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9294
  • Type

    jour

  • DOI
    10.1109/10.148385
  • Filename
    148385