Neuro-Fuzzy Dynamic-Inversion-Based Adaptive Control for Robotic Manipulators—Discrete Time Case

Abstract: In this paper, we present a stable discrete-time adaptive tracking controller using a neuro-fuzzy (NF) dynamicinversion for a robotic manipulator with its dynamics approximated by a dynamic T-S fuzzy model. The NF dynamic-inversion constructed by a dynamic NF (DNF) system is used to compensate for the robot inverse dynamics for a better tracking performance. By assigning the dynamics of the DNF system, the dynamic performance of a robot control system can be guaranteed at the initial control stage, which is ve… Show more

“…k dp (23) It is noted that the error function based on the adaptive RBFNN algorithms (23) is the (k + 2)th step error for robot system, then, we can obtain the kth step system error by defining…”

RBFNN based adaptive control of uncertain robot manipulators in discrete time

“…k dp (23) It is noted that the error function based on the adaptive RBFNN algorithms (23) is the (k + 2)th step error for robot system, then, we can obtain the kth step system error by defining…”

RBFNN based adaptive control of uncertain robot manipulators in discrete time

“…N-degree-of-freedom revolute-joint robotic manipulators dynamic model is considered as follows [21][22][23][24][25][26][27]: ! is the control input torque vector of robotic manipulators.…”

Robust Control for Robotic Manipulators Base on Adaptive Neural Network

“…For system uncertainty, fuzzy logic system (FLS)/NNs can be employed. In the literature, there exist many results of intelligent control which employ intelligent system for approximation and then construct the controller [15][16][17][18][19][20][21]. One concern is whether the FLS or NN has successfully fulfilled the task of approximation.…”

Composite Learning Sliding Mode Control of Flexible-Link Manipulator