A Computationally Efficient Model Predictive Control Strategy for Linear Systems with Integer Inputs
Karamanakos, Petros; Geyer, Tobias; Kennel, Ralph (2016-07)
Karamanakos, Petros
Geyer, Tobias
Kennel, Ralph
07 / 2016
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tuni-202003092592
https://urn.fi/URN:NBN:fi:tuni-202003092592
Kuvaus
Peer reviewed
Tiivistelmä
For linear systems with integer inputs, the model predictive control problem with output reference tracking is formulated as an integer least-squares (ILS) problem. The ILS problem is solved using a modified sphere decoding algorithm, which is a particular branch-and-bound method. To reduce the computational complexity of the sphere decoder, a reduction algorithm is added as a preprocessing stage to reshape the search space in which the integer solution lies. The computational complexity of the proposed algorithm is modest, enabling its implementation in a real-time system even when considering long prediction horizons. A variable-speed drive system with a three-level voltage source inverter serves as an illustrative example to demonstrate the effectiveness of the proposed algorithm.
Kokoelmat
- TUNICRIS-julkaisut [16929]