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Resolvent and spectrum of a nonselfadjoint differential operator in a Hilbert space

Michael Gil — 2012

Annales UMCS, Mathematica

We consider a second order regular differential operator whose coefficients are nonselfadjoint bounded operators acting in a Hilbert space. An estimate for the resolvent and a bound for the spectrum are established. An operator is said to be stable if its spectrum lies in the right half-plane. By the obtained bounds, stability and instability conditions are established.

Resolvent and spectrum of a nonselfadjoint differential operator in a Hilbert space

Michael Gil — 2012

Annales Universitatis Mariae Curie-Skłodowska, sectio A – Mathematica

We consider a second order regular differential operator whose coefficients are nonselfadjoint bounded operators acting in a Hilbert space. An estimate for the resolvent and a bound for the spectrum are established. An operator is said to be stable if its spectrum lies in the right half-plane. By the obtained bounds, stability and instability conditions are established.

Stability of retarded systems with slowly varying coefficient

Michael Iosif Gil — 2012

ESAIM: Control, Optimisation and Calculus of Variations

The “freezing” method for ordinary differential equations is extended to multivariable retarded systems with distributed delays and slowly varying coefficients. Explicit stability conditions are derived. The main tool of the paper is a combined usage of the generalized Bohl-Perron principle and norm estimates for the fundamental solutions of the considered equations.

Exponential stability of nonlinear non-autonomous multivariable systems

Michael I. Gil' — 2015

Discussiones Mathematicae, Differential Inclusions, Control and Optimization

We consider nonlinear non-autonomous multivariable systems governed by differential equations with differentiable linear parts. Explicit conditions for the exponential stability are established. These conditions are formulated in terms of the norms of the derivatives and eigenvalues of the variable matrices, and certain scalar functions characterizing the nonlinearity. Moreover, an estimate for the solutions is derived. It gives us a bound for the region of attraction of the steady state....

Input-to-state stability of neutral type systems

Michael I. Gil' — 2013

Discussiones Mathematicae, Differential Inclusions, Control and Optimization

We consider the system ( t ) - η d R ̃ ( τ ) ( t - τ ) = 0 η d R ( τ ) x ( t - τ ) + [ F x ] ( t ) + u ( t ) (ẋ(t) ≡ dx(t)/dt), where x(t) is the state, u(t) is the input, R(τ),R̃(τ) are matrix-valued functions, and F is a causal (Volterra) mapping. Such equations enable us to consider various classes of systems from the unified point of view. Explicit input-to-state stability conditions in terms of the L²-norm are derived. Our main tool is the norm estimates for the matrix resolvents, as well as estimates for fundamental solutions of the linear parts of the considered systems,...

Stability of retarded systems with slowly varying coefficient

Michael Iosif Gil — 2012

ESAIM: Control, Optimisation and Calculus of Variations

The “freezing” method for ordinary differential equations is extended to multivariable retarded systems with distributed delays and slowly varying coefficients. Explicit stability conditions are derived. The main tool of the paper is a combined usage of the generalized Bohl-Perron principle and norm estimates for the fundamental solutions of the considered equations.

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