Title :
LuGre friction model identification and compensator tuning using a Differential Evolution algorithm
Author :
Feyel, Philippe ; Duc, Gilles ; Sandou, Guillaume
Author_Institution :
Sagem Defense & Security, Optronics & Defense Div., Safran Group, Massy, France
Abstract :
This paper proposes a systematic method to identify the parameters of the LuGre friction model and tune the feedback corresponding compensator. Because of the non linearity of the model, those tasks are difficult and often need lots of time-consuming experiments which are not always compatible with industrial constraints. In this work, the use of a Differential Evolution algorithm (belonging to the class of evolutionary algorithms) leads to more than satisfactory results in terms of repeatability and rate of convergence. Furthermore, this approach requires a low number of experiments which finally makes it well-suited to the industrial framework too.
Keywords :
compensation; convergence; evolutionary computation; friction; identification; process control; tuning; LuGre friction model identification; compensator tuning; convergence rate; differential evolution algorithm; industrial control processes; industrial framework; parameter identification; Convergence; Feedforward neural networks; Friction; Optimization; Predictive models; Torque; Tuning; Compensator; Differential Evolution; Friction; Identification;
Conference_Titel :
Differential Evolution (SDE), 2013 IEEE Symposium on
Conference_Location :
Singapore
DOI :
10.1109/SDE.2013.6601446
