This paper describes a design procedure for a cascaded control system of induction motors based on compact genetic algorithms (cGAs). CGAs are search methods that process a probability vector (describing the distribution of a hypothetical population) with update rules inspired to the typical selection and recombination operations of a GA. The cGAs well lend themselves to real-time implementations in constrained, low capacity microcontrollers, as they have reduced memory requirements and evenly distributed computational loads with respect to the standard, population-based GA. This paper investigates the applicability of a cGAs selected from literature to simultaneously optimize the couple of position and speed controllers using a weighted cost function that combines indices about position, speed, and current responses. The search is performed on-line, iteratively experimenting new solutions directly on the induction motor drive. The cascaded control system obtained through genetic search outperforms alternative schemes obtained with linear design techniques
Optimization of Position Control of Induction Motors using Compact Genetic Algorithms / Cupertino, Francesco; Mininno, E.; Lino, E.; Naso, David. - (2006), pp. 55-60. (Intervento presentato al convegno 32nd Annual Conference of the IEEE-Industrial-Electronics-Society, IECON 2006 tenutosi a Paris, France nel November 6-10, 2006) [10.1109/IECON.2006.347751].
Optimization of Position Control of Induction Motors using Compact Genetic Algorithms
CUPERTINO, Francesco;NASO, David
2006-01-01
Abstract
This paper describes a design procedure for a cascaded control system of induction motors based on compact genetic algorithms (cGAs). CGAs are search methods that process a probability vector (describing the distribution of a hypothetical population) with update rules inspired to the typical selection and recombination operations of a GA. The cGAs well lend themselves to real-time implementations in constrained, low capacity microcontrollers, as they have reduced memory requirements and evenly distributed computational loads with respect to the standard, population-based GA. This paper investigates the applicability of a cGAs selected from literature to simultaneously optimize the couple of position and speed controllers using a weighted cost function that combines indices about position, speed, and current responses. The search is performed on-line, iteratively experimenting new solutions directly on the induction motor drive. The cascaded control system obtained through genetic search outperforms alternative schemes obtained with linear design techniquesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
