The solution of time-dependent PDE-constrained optimization problems subject to unsteady flow equations presents a challenge to both algorithms and computing power. In this paper we present an all-at-once approach where we solve for all time-steps of the discretized unsteady Stokes problem at once. The most desirable feature of this approach is that for all steps of an iterative scheme we only need approximate solutions of the discretized Stokes operator. This leads to an efficient scheme which exhibits mesh-independent behaviour.</p
The optimization of functions subject to partial differential equations (PDE) plays an important rol...
In this manuscript we consider the development of fast iterative solvers for Stokes control problems...
We apply an all-at-once method for the optimal control of the unsteady Burgers equation. The nonline...
In the present paper we propose an all-at-once multigrid method for generalized Stokes flow problems...
Time-dependent partial differential equations (PDEs) play an important role in applied mathematics a...
Abstract. Time-dependent partial differential equations (PDEs) play an important role in applied mat...
In this thesis, we examine the solution to a range of time-dependent Partial Differential Equation (...
Time-dependent partial differential equations (PDEs) play an important role in applied mathematics a...
Optimization problems subject to unsteady partial differential equations (PDEs) comprise one of the ...
We present a space-time hierarchical solution concept for optimization problems governed by the time...
We consider the numerical solution of time-dependent Stokes control problems, an important class of ...
The single-step one-shot method has proven to be very efficient for PDE-constrained optimization whe...
In this paper we present an all-at-once multigrid method for a distributed Stokes control problem (v...
We present a space-time hierarchical multigrid solution concept for optimisation problems governed b...
The optimization of functions subject to partial differential equations (PDE) plays an important rol...
The optimization of functions subject to partial differential equations (PDE) plays an important rol...
In this manuscript we consider the development of fast iterative solvers for Stokes control problems...
We apply an all-at-once method for the optimal control of the unsteady Burgers equation. The nonline...
In the present paper we propose an all-at-once multigrid method for generalized Stokes flow problems...
Time-dependent partial differential equations (PDEs) play an important role in applied mathematics a...
Abstract. Time-dependent partial differential equations (PDEs) play an important role in applied mat...
In this thesis, we examine the solution to a range of time-dependent Partial Differential Equation (...
Time-dependent partial differential equations (PDEs) play an important role in applied mathematics a...
Optimization problems subject to unsteady partial differential equations (PDEs) comprise one of the ...
We present a space-time hierarchical solution concept for optimization problems governed by the time...
We consider the numerical solution of time-dependent Stokes control problems, an important class of ...
The single-step one-shot method has proven to be very efficient for PDE-constrained optimization whe...
In this paper we present an all-at-once multigrid method for a distributed Stokes control problem (v...
We present a space-time hierarchical multigrid solution concept for optimisation problems governed b...
The optimization of functions subject to partial differential equations (PDE) plays an important rol...
The optimization of functions subject to partial differential equations (PDE) plays an important rol...
In this manuscript we consider the development of fast iterative solvers for Stokes control problems...
We apply an all-at-once method for the optimal control of the unsteady Burgers equation. The nonline...