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Observer design for a schistosomiasis model.

Mouhamadou Diaby1, Abderrahman Iggidr2, Mamadou Sy3

  • 1Inria and Université de Lorraine and CNRS, MASAIE, Institut Élie Cartan de Lorraine (IECL, UMR CNRS 7502), ISGMP Bat.A, Ile de Saulcy, Metz Cedex 01 57045, France; Laboratoire d'Analyse Numérique et Informatique (LANI), Université Gaston Berger de Saint-Louis, UFR SAT BP 234 Saint-Louis, Sénégal.

Mathematical Biosciences
|September 4, 2015
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Summary
This summary is machine-generated.

This study presents state estimation methods for schistosomiasis infection models using observer designs. It addresses both known and uncertain model parameters for accurate disease tracking.

Keywords:
High-gainInterval observerObserverSchistosomiasis modelState estimation

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Area of Science:

  • Epidemiology
  • Control Theory
  • Mathematical Biology

Background:

  • Schistosomiasis infection dynamics are modeled using continuous nonlinear systems.
  • Accurate state estimation is crucial for understanding disease spread and control.
  • Measuring only the infected human population presents a challenge for state estimation.

Purpose of the Study:

  • To develop state estimation techniques for a schistosomiasis dynamical model.
  • To design observers for both known and uncertain model parameters.
  • To evaluate observer performance through numerical simulations.

Main Methods:

  • Construction of a simple observer and a high-gain Luenberger observer for known parameters.
  • Development of a guaranteed interval observer for bounded-error contexts with uncertain parameters.
  • Implementation of observers based on a canonical controller form for nonlinear dynamics.

Main Results:

  • The study successfully designed and implemented observers for schistosomiasis state estimation.
  • Both simple and high-gain Luenberger observers demonstrated effectiveness for known parameters.
  • The interval observer provided guaranteed bounds for uncertain system parameters.

Conclusions:

  • The proposed observer designs are effective for schistosomiasis dynamical models.
  • These methods enhance the ability to estimate disease states even with limited measurements.
  • The findings contribute to better disease surveillance and control strategies.