A theorem on global stabilization of nonlinear systems by linear feedback
Systems & Control Letters
Exponential feedback passivity and stabilizability of nonlinear systems
Automatica (Journal of IFAC)
Robust Output-Control for a Linear System with Uncertain Coefficients
Automation and Remote Control
Survey Constructive nonlinear control: a historical perspective
Automatica (Journal of IFAC)
Brief Circle and Popov criteria as tools for nonlinear feedback design
Automatica (Journal of IFAC)
Singular perturbations in control problems
Automation and Remote Control
An adaptation algorithm for stabilization of nonlinear system in the absence of sector constraints
Automation and Remote Control
Output control algorithm with the compensation of biased harmonic disturbances
Automation and Remote Control
Output control of linear systems with unmodeled dynamics
Automation and Remote Control
Control over the output of nonlinear systems with unaccounted-dynamics
Automation and Remote Control
Compensation of harmonic disturbances in nonlinear plants with parametric and functional uncertainty
Automation and Remote Control
Designing adaptive control in the problem of optimal damping of perturbations
Automation and Remote Control
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Consideration was given to the control by measurements of the output of nonlinear systems with unknown functional and parametric uncertainties. On the basis of the A.L. Fradkov theorem on passification of linear systems, an approach to the design of the control law that stabilizes the system output was proposed. The theoretical results were illustrated by an example and the results of computer modeling.