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Smart life support reloaded: design and control of complex therapeutic devices

  • Steffen Leonhardt EMAIL logo
Published/Copyright: April 11, 2017
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Biomedical Engineering / Biomedizinische Technik
From the journal Biomedical Engineering / Biomedizinische Technik Volume 62 Issue 2

Published Online: 2017-4-11
Published in Print: 2017-4-1

©2017 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Editorial
  3. Smart life support reloaded: design and control of complex therapeutic devices
  4. Special Issue Articles
  5. Benefits of object-oriented models and ModeliChart: modern tools and methods for the interdisciplinary research on smart biomedical technology
  6. Parametrization of an in-silico circulatory simulation by clinical datasets – towards prediction of ventricular function following assist device implantation
  7. Design of a right ventricular mock circulation loop as a test bench for right ventricular assist devices
  8. A mock heart engineered with helical aramid fibers for in vitro cardiovascular device testing
  9. Comparison of novel physiological load-adaptive control strategies for ventricular assist devices
  10. High-frequency operation of a pulsatile VAD – a simulation study
  11. Convolutive blind source separation of surface EMG measurements of the respiratory muscles
  12. Determining the appropriate model complexity for patient-specific advice on mechanical ventilation
  13. Physiological closed-loop control of mechanical ventilation and extracorporeal membrane oxygenation
  14. Decentralized safety concept for closed-loop controlled intensive care
  15. Model-based glycaemic control: methodology and initial results from neonatal intensive care
https://doi.org/10.1515/bmt-2017-0027

Articles in the same Issue

  1. Frontmatter
  2. Editorial
  3. Smart life support reloaded: design and control of complex therapeutic devices
  4. Special Issue Articles
  5. Benefits of object-oriented models and ModeliChart: modern tools and methods for the interdisciplinary research on smart biomedical technology
  6. Parametrization of an in-silico circulatory simulation by clinical datasets – towards prediction of ventricular function following assist device implantation
  7. Design of a right ventricular mock circulation loop as a test bench for right ventricular assist devices
  8. A mock heart engineered with helical aramid fibers for in vitro cardiovascular device testing
  9. Comparison of novel physiological load-adaptive control strategies for ventricular assist devices
  10. High-frequency operation of a pulsatile VAD – a simulation study
  11. Convolutive blind source separation of surface EMG measurements of the respiratory muscles
  12. Determining the appropriate model complexity for patient-specific advice on mechanical ventilation
  13. Physiological closed-loop control of mechanical ventilation and extracorporeal membrane oxygenation
  14. Decentralized safety concept for closed-loop controlled intensive care
  15. Model-based glycaemic control: methodology and initial results from neonatal intensive care
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