Download Code A Matlab guide for the numerical approximation of the exact control and stabilization of the wave equation This webpage contains a free software to compute the control of the wave equation with Matlab. Features With wave control you can explore the following: Exact control of the 1-d wave equation with finite differences and mixed finite elements when the control acts in one extreme. Exact control of the 2-d wave equation with finite differences and mixed finite elements when the control acts in the boundary. The stabilization of the 1-D wave equation in an interval with a damping acting on an internal subset, discretized with finite differences and numerical viscosity. The stabilization of the 2-D wave equation in a square with a damping acting on an internal set, discretized with finite differences and numerical viscosity. Some views are given below, Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Related Posts Averaged dynamics and control for heat equations with random diffusion In this work we address the optimal control of parameter-dependent systems. In particular, we study the dynamics and averaged controllability properties of heat equations with random non-negative diffusivites. Author: Jon Asier Bárcena-Petisco - 23 November 2020 MATLAB Stochastic optimization for simultaneous control Simultaneous control of parameter-depending systems using stochastic optimization algorithms Authors: Ana Navarro, Umberto Biccari, Enrique Zuazua - 03 June 2020 MATLAB Synchronized Oscillators Synchronization of coupled oscillators with the Random Batch Method Authors: Umberto Biccari, Enrique Zuazua - 03 June 2020 MATLAB The interplay of control and deep learning Deep supervised learning roughly consists in solving a discretised optimal control problem subject to a nonlinear, discrete-time dynamical system, called an artificial neural network. Author: Borjan Geshkovski - 30 April 2020 python