Multi-objective model predictive control for microgrids
Thomas Schmitt, Tobias Rodemann, Jürgen Adamy
Abstract
Abstract Economic model predictive control is applied to a simplified linear microgrid model. Monetary costs and thermal comfort are simultaneously optimized by using Pareto optimal solutions in every time step. The effects of different metrics and normalization schemes for selecting knee points from the Pareto front are investigated. For German industry pricing with nonlinear peak costs, a linear programming trick is applied to reformulate the optimization problem. Thus, together with an efficient weight determination scheme, the Pareto front for a horizon of 48 steps is determined in less than 4 s.
Topics & Concepts
Model predictive controlMathematical optimizationNormalization (sociology)Pareto principleLinear programmingMulti-objective optimizationMicrogridComputer sciencePareto optimalOptimal controlNonlinear modelNonlinear systemControl (management)Control theory (sociology)MathematicsArtificial intelligenceAnthropologyPhysicsQuantum mechanicsSociologyAdvanced Control Systems OptimizationSmart Grid Energy ManagementBuilding Energy and Comfort Optimization