Output Feedback Stabilization of Coupled Reaction-Diffusion Processes with Constant Parameters
From MaRDI portal
Publication:4599724
DOI10.1137/15M1034325zbMath1386.93224OpenAlexW2781393074MaRDI QIDQ4599724
No author found.
Publication date: 4 January 2018
Published in: SIAM Journal on Control and Optimization (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1137/15m1034325
Heat equation (35K05) Variable structure systems (93B12) Wave equation (35L05) Robust stability (93D09)
Related Items
Event-triggered boundary stabilization for coupled semilinear reaction-diffusion systems with spatially varying coefficients ⋮ Fixed-time stabilization of parabolic distributed parameter systems with spatially and temporally varying reactivity ⋮ Observer design for time fractional reaction–diffusion systems with spatially varying coefficients and weighted spatial averages measurement ⋮ Boundary control of coupled non-constant parameter systems of time fractional PDEs with different-type boundary conditions ⋮ Adaptive stabilization based on passive and swapping identifiers for a class of uncertain linearized Ginzburg–Landau equations ⋮ Adaptive stabilisation for a class of uncertain coupled parabolic equations ⋮ Output regulation for coupled linear parabolic PIDEs ⋮ Boundary time-varying feedbacks for fixed-time stabilization of constant-parameter reaction-diffusion systems ⋮ Event-triggered boundary control of constant-parameter reaction-diffusion PDEs: a small-gain approach ⋮ Adaptive stabilization for a reaction-diffusion equation with uncertain nonlinear actuator dynamics ⋮ Semiglobal oblique projection exponential dynamical observers for nonautonomous semilinear parabolic-like equations ⋮ Boundary observers for coupled diffusion-reaction systems with prescribed convergence rate ⋮ Global fuzzy adaptive asymptotic tracking control for nonlinear reaction-diffusion equations with time-varying coefficients ⋮ Bilateral backstepping control of coupled linear parabolic PDEs with spatially varying coefficients ⋮ Event-Triggered Gain Scheduling of Reaction-Diffusion PDEs ⋮ Boundary Stabilizability of the Linearized Compressible Navier--Stokes System in One Dimension by Backstepping Approach
Cites Work
- Control of higher-dimensional PDEs. Flatness and backstepping designs.
- Boundary control of coupled reaction-diffusion processes with constant parameters
- Continuous state-feedback tracking of an uncertain heat diffusion process
- Magnetohydrodynamic state estimation with boundary sensors
- Tracking control for boundary controlled parabolic PDEs with varying parameters: combining backstepping and differential flatness
- Backstepping observers for linear PDEs on higher-dimensional spatial domains
- Boundary control of an anti-stable wave equation with anti-damping on the uncontrolled boundary
- Boundary second-order sliding-mode control of an uncertain heat process with unbounded matched perturbation
- Backstepping observer design for parabolic PDEs with measurement of weighted spatial averages
- Backstepping observers for a class of parabolic PDEs
- Local Exponential $H^2$ Stabilization of a $2\times2$ Quasilinear Hyperbolic System Using Backstepping
- Sliding mode control and active disturbance rejection control to the stabilization of one-dimensional Schrödinger equation subject to boundary control matched disturbance
- Tracking Control of the Uncertain Heat and Wave Equation via Power-Fractional and Sliding-Mode Techniques
- Boundary Controllers and Observers for the Linearized Schrödinger Equation
- Boundary Control of PDEs
- Boundary Feedback Stabilization of an Unstable Heat Equation
- Discontinuous feedback stabilization of minimum-phase semilinear infinite-dimensional systems with application to chemical tubular reactor
- Closed-Form Boundary State Feedbacks for a Class of 1-D Partial Integro-Differential Equations
- Boundary Control of Coupled Reaction-Advection-Diffusion Systems With Spatially-Varying Coefficients
- Boundary Control of the Linearized Ginzburg--Landau Model of Vortex Shedding
- Exponential Stabilization of the Uncertain Wave Equation via Distributed Dynamic Input Extension
- Disturbance rejection in 2 x 2 linear hyperbolic systems
- Stabilization of a System of <formula formulatype="inline"> <tex Notation="TeX">$n+1$</tex></formula> Coupled First-Order Hyperbolic Linear PDEs With a Single Boundary Input
- Anticollocated backstepping observer design for a class of coupled reaction-diffusion PDEs
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
