Feedback stabilization and observer design for sterile insect technique model
Résumé
This paper focuses on the feedback global stabilization and observer construction for a sterile insect technique model. The Sterile Insect Technique (SIT) is one of the most ecological methods for controlling insect pests responsible for worldwide crop destruction and disease transmission. In this work, we construct a feedback law that globally asymptotically stabilizes a SIT model at extinction equilibrium. Since the application of this type of control requires the measurement of different states of the target insect population, and in practice, some states are more difficult and very expensive to measure than others, it is important to know how to construct a state estimator which from a few measured states, estimates the other ones as the one we build in the second part of our work. In the last part of our work, we show that we can apply the feedback control with estimated states to stabilize the full system.
Mots clés
Sterile Insect Technique
Pest control
Feedback control design
Observer design
Lyapunov stability
Mosquito population control
Vector-borne disease
sterile insect technique pest control feedback control design observer design Lyapunov stability mosquito population control vector-borne disease
sterile insect technique
pest control
feedback control design
observer design
mosquito population control
vector-borne disease
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