Real Time Nonlinear Model Predictive Control Strategy for Multivariable Coupled Tank System

1. Real Time Nonlinear Model Predictive Control Strategy forMultivariable Coupled Tank System Kayode Owa Supervisor - Sanjay Sharma University of Plymouth UKACC PhD Presentation Showcase

2. Introduction • Most chemical processes are multivariable and have strong nonlinear dynamics. • Linear models and conventional controllers are not sufficient to handle these processes. • This creates challenges in developing nonlinear multi input multi output (MIMO) models and advance control strategies. • Background and motivation for research • Process dynamics change over time, equipment degrade and valves do wear out. • Original mathematical models tend to mismatch with the real plant. • Models are limited to small range of operations. UKACC PhD Presentation Showcase

3. Research methodology • System identification – use raw data for modelling • Wavelet activated neural network nonlinear model • Online real time optimisation using genetic algorithm (GA) • Nonlinear model predictive control (NMPC) strategy • Simulation and Real time practical implementation • Current status • Real time practical implementation stage for abnormal conditions • Contribution to knowledge • Novel approach using WNN-NMPC for coupled tank system (CTS) UKACC PhD Presentation Showcase

4. NMPC Strategy Results mse=0.0049 ace=82.41 mse=0.0036 ace=55.01 mse=0.0046 ace=78.26 mse=0.0022 ace=65.92 (a) ANN (a) ANN (b) WNN (b) WNN sReal time Results sSimulation Results UKACC PhD Presentation Showcase mse=mean squared error, unit is m2 ace=average controller energy, unit is v2

5. Conclusion • The proposed wavelet neural network (WNN) NMPC strategy is more efficient than ANN in MIMO case. • Real time optimisation (RTO) of the controller actions is achieved using GA. • Future works will check the robustness of this approach for abnormal conditions of plants dynamic. UKACC PhD Presentation Showcase