Adaptive neuro-fuzzy friction compensator in servo hydraulic system

“…Along the solutions of (11), (12), and (13), we have 17) which proves that the equilibrium z; ϵ z ; ; kc À Á ¼ 0 is globally uniformly stable. From the LaSalle-Yoshizawa theorem, it further follows that all the solutions converge to manifold ẑ¼ ϵ z ¼ 0 as t → ∞.…”

“…Due to recent advances in intelligent control, research in friction compensation using intelligent control schemes has appeared in the literature [10][11][12][13][14]. Suraneni et al [10] proposed an adaptive tracking control scheme based on a dynamic fuzzy logic system.…”

“…Due to recent advances in intelligent control, research in friction compensation using intelligent control schemes has appeared in the literature . Suraneni et al .…”

“…The proposed control utilized a PD control structure and an adaptive estimate of the friction force using neural network approximations. A control algorithm based on two neuro‐fuzzy controllers for a hydraulic servo system such that the precompensator neuro‐fuzzy controller is combined with a fuzzy controller was developed in . An adaptive control scheme that uses a high‐order neural network with only a scalar weight can be found in and was developed to approximate unknown nonlinearities and diminish the computational costs dramatically.…”

Adaptive Friction Compensation: Modular Design with Passive Identifier

“…Along the solutions of (11), (12), and (13), we have 17) which proves that the equilibrium z; ϵ z ; ; kc À Á ¼ 0 is globally uniformly stable. From the LaSalle-Yoshizawa theorem, it further follows that all the solutions converge to manifold ẑ¼ ϵ z ¼ 0 as t → ∞.…”

“…Due to recent advances in intelligent control, research in friction compensation using intelligent control schemes has appeared in the literature [10][11][12][13][14]. Suraneni et al [10] proposed an adaptive tracking control scheme based on a dynamic fuzzy logic system.…”

“…Due to recent advances in intelligent control, research in friction compensation using intelligent control schemes has appeared in the literature . Suraneni et al .…”

“…The proposed control utilized a PD control structure and an adaptive estimate of the friction force using neural network approximations. A control algorithm based on two neuro‐fuzzy controllers for a hydraulic servo system such that the precompensator neuro‐fuzzy controller is combined with a fuzzy controller was developed in . An adaptive control scheme that uses a high‐order neural network with only a scalar weight can be found in and was developed to approximate unknown nonlinearities and diminish the computational costs dramatically.…”

Adaptive Friction Compensation: Modular Design with Passive Identifier

On-line parameter tuning of discontinous fuzzy friction compensator in linear drive

Nonlinear adaptive coulomb friction compensation based on passive identifier