Neuro-Fuzzy based on support vector machine friction compensator in servo hydraulic system

“…The importance of friction effects in modeling an hydraulic servo system cannot be over-emphasized since friction is an inherent feature of all machine incorporating parts with relative motion [9]. By considering all the difficulties involved in accurately modeling the friction, authors in [4] presented a LuGre model-based adaptive control scheme which gives a better estimation of the friction, good disturbance rejection and general robustness to uncertainties in parameters.…”

“…In [9], a neuro-fuzzy approach which is based on support vector machine friction compensation was proposed. The technique was used to enhance the position tracking and also to reduce the high steady state error and overshoot problems that tend to surface whenever the friction becomes nonlinear.…”

Backstepping control of an electro-hydraulic servo system subject to disturbance and parameter uncertainty

“…The importance of friction effects in modeling an hydraulic servo system cannot be over-emphasized since friction is an inherent feature of all machine incorporating parts with relative motion [9]. By considering all the difficulties involved in accurately modeling the friction, authors in [4] presented a LuGre model-based adaptive control scheme which gives a better estimation of the friction, good disturbance rejection and general robustness to uncertainties in parameters.…”

“…In [9], a neuro-fuzzy approach which is based on support vector machine friction compensation was proposed. The technique was used to enhance the position tracking and also to reduce the high steady state error and overshoot problems that tend to surface whenever the friction becomes nonlinear.…”

Backstepping control of an electro-hydraulic servo system subject to disturbance and parameter uncertainty

“…Owing to this fact, the need to design a controller that adapts to these changes is of paramount importance. One important consideration that has to be carefully addressed in many mechanical systems is friction [9]. A LuGre model-based adaptive control scheme was proposed to model and estimate the frictional effect [2].…”

Artificial Bee Colony-based Adaptive Position Control of Electrohydraulic Servo Systems with Parameter Uncertainty