DPS Library

DPS Library contains a set of blocks to be used for the distributed parameter control design within Simulink environment. To learn more about applications, please see Examples section or run Demos in your Matlab & Simulink installation. To get more familiar with the workflow, please run Wizard that guides you through the simulation case setup procedure. Following is the short description of library blocks.

Temporal synthesis library

HLDS – the zero-order hold lumped-input and distributed-output representation of controlled systems dynamics based on pre-calculated distributed transient characteristics.

Space synthesis library

Space synthesis – performs the control synthesis on the spatial-scale domain by solving approximation problems.

Temporal synthesis library

PID synthesis – performs the control synthesis on the time-scale domain using a set of PID controllers.

Algebraic synthesis – performs the control synthesis on the time-scale domain according to lupmed parameter algebraic control theory.

State synthesis – performs the control synthesis on the time-scale domain according to lumped parameter state space control theory.

Robust synthesis – performs the control synthesis on the time-scale domain according to lumped robust control theory.

MPC synthesis – performs the control synthesis on the time-scale domain according to lumped parameter MPC control theory.

Visualization

Display – block displays the values from the input port onto mesh domain (defined through workspace variables) during simulation time steps.

Source – block outputs and displays the values defined through the workspace variables on to mesh domain during simulation time steps.

How to…

DPS Examples – provides the description of some distributed parameter control problems

(1) Control of the temperature field in the volume of complex shape metal body,

(2) Oscillation control of the „smart“ structure beam,

(3) Control of the temperature field in the glass melting furnace,

(4) Groundwater remediation control.

DPS Demos – Simulink models

(1) Control of the temperature field in the volume of complex shape metal body,

(2) Control of the temperature field in the metal bar,

(3) Oscillation control of the „smart“ structure string,

(4) Control of the temperature field in the glass melting furnace.