Although adaptive control for robotic manipulators has been widely studied, most of. Adaptive neural network control of robot manipulators in task space. Adaptive neural network control of robots adaptive. Adaptive control based on neural network 183 performance index signal can be defined as. A neural network, which utilises a radial basis function approximates the robots dynamics.
This paper designs a kind of adaptive fuzzy controller for robotic manipulator considering external disturbances and modeling errors. This paper addresses the problem of trajectory tracking control for industrial robot manipulators irms in the presence of external disturbances and uncertain dynamics. In addition, an adaptive robust compensator is proposed to eliminate uncertainties that consist of. Cordova j and yu w stable fourier neural networks with application to modeling lettuce growth proceedings of the 2009 international joint conference on neural networks, 642647 huang a, wu s and ting w 2006 a fatbased adaptive controller for robot manipulators without regressor matrix. Although adaptive control with neural networks has been widely studied for robotic systems, the classical adaptive laws have been derived by using the gradient algorithm to minimize the tracking error, and thus their sluggish convergence may lead to performance degradation or even affect the operation safety. Neural network adaptive command filtered control of. Adaptive neural control of a twolink flexible manipulator. Adaptive neural network control of robotic manipulators. Learning from issmodular adaptive nn control of nonlinear strictfeedback systems cong wang, min wang, tengfei liu and d. Adaptive neural network control for robotic manipulators with unknown deadzone abstract. Pdf adaptive neural network based fuzzy sliding mode. Adaptive neural network control of robot manipulators in task. This text is dedicated to issues on adaptive control of robots based on neural networks.
This paper presents an indirect adaptive neural network sliding mode control iansmc technique and a neural network sliding mode control nnsmc for underactuated robot manipulators. Adaptive neural tracking control of robotic manipulators. Although adaptive control for robotic manipulators has been widely studied, most of them require the acceleration signals of the joints, which are usually difficult to measure directly. First, link uncertain robotic manipulator dynamics based on the lagrange equation is changed into a twoorder multipleinput multipleoutput mimo system via feedback technique. A study of neural network control of robot manipulators volume 14 issue 1 seul jung, t. Adaptive neural impedance control of a robotic manipulator with input saturation.
In this paper, the adaptive neural network control of robot manipulators in the task space is considered. Adaptive neural network control of a robotic manipulator with timevarying output constraints abstract. By applying recurrent fuzzy wavelet neural networks rfwnns in the positionbackstepping controller, the unknowndynamics problems of the mmr control system are relaxed. Neuraladaptive control of robotic manipulators using a. Adaptive neural network control with optimal number of. Pdf adaptive neural network multiple models sliding mode. Robot manipulators have become increasingly important in. There has been considerable research interest in neural network control of robots, and satisfactory results have been obtained in solving some of the special issues associated with the problems of robot control in an onandoff fasion. Although adaptive control with neural networks has been widely studied for robotic systems, the classical adaptive laws have been derived by using the gradient algorithm to minimize the tracking error, and thus their sluggish convergence may lead to performance.
Although neural networks nns have been used to approximate the unknown nonlinear dynamics in the robotic systems, the conventional adaptive laws for updating the nn weights cannot guarantee that the obtained. Applications of some neural network architectures in robot control are surveyed. Adaptive neural network control of uncertain robotic. The first one is the offline phase in which the neural network is trained with previously known control actions. This paper presents an adaptive neural network control scheme for a class of uncertain robotic manipulators with external disturbance and timevarying output constraints. Adaptive neural network based fuzzy sliding mode control of robot manipulator. The computed torque method was implemented with a multilayer perceptron with online learning. The pd control is used to track the trajectory of the end effector of the wdpr. Adaptive neural network control of uncertain robotic manipulators. Robot manipulator is a very complex multiinput and multioutput nonlinear dynamics system. Adaptive neural network control of robot based on a.
In this paper, adaptive impedance control is developed for an nlink robotic manipulator with input saturation by employing neural networks. Design of a robust adaptive sliding mode control using. An adaptive neural network finitetime controller nnftc for a class of uncertain nonlinear systems is proposed by using the backstepping method, which employs an adaptive neural network nn system to approximate the structure uncertainties and uses a variable structure term to compensate the approximation errors, thus improving the robustness of the system to external. The modeling of robot manipulator is presented in section 2. Journal of systems and control engineering 2011 225. Adaptive neural network multiple models sliding mode control of robotic manipulators using soft switching. Recently, control algorithms represented by fuzzy systems and neural networks nns have been used extensively in the control of robotic manipulators, because these systems can be well used to eliminate the system uncertainties. In order to tackle the uncertainty and the unknown deadzone effect, we introduce adaptive neural network nn control for robotic manipulators. Adaptive neural network control of robotic manipulators world. Weighted multiplemodel neural network adaptive control. Adaptive pd control based on rbf neural network for a wire. Adaptive neural impedance control of a robotic manipulator.
Hill 1 oct 2012 ieee transactions on neural networks and learning systems, vol. Kuchen, member, ieee abstract this paper presents an approach and a systematic design methodology to adaptive motion control based on neural networks nns for highperformance robot manipulators, for. The use of a new recurrent neural network rnn for controlling a robot manipulator is presented in this paper. The proposed controller has the following salient features. Adaptive neural network control of robotic manipulators world scientific robotics and intelligent systems.
Sliding mode control of three degrees of freedom anthropoid robot by driving the controller parameters to an equivalent regime. Neural network model reference adaptive control adaptive. In dynamic analysis, to be able to control a robot manipulator as required by its operation, it is important to consider the dynamic model in design of the control algorithm and simulation of motion. Adaptive control 2 has long been used to achieve globally asymptotically trajectory tracking and the approach is based on expressing robot dynamics in a linearinparameter form. Neural network adaptive command filtered control of robotic manipulators with input saturation lin wang1 and chunzhi yang2 abstract this paper investigates finitetime control of uncertain robotic manipulators with external disturbances by means of. In this paper, a multilayered feedforward neural network is trained online by robust adaptive dead zone scheme to identify simulated faults occurring in the robot system and reconfigure the control law to prevent the tracking performance from deteriorating in the presence of system uncertainty. In this paper, we proposed an adaptive backstepping position control system for mobile manipulator robot mmr. Adaptive neural network control of robot manipulators. The other neural network, which employs a hyperbolic tangent. Nn is the neural network controllers output as defined in 5 and. Tran m and kang h 2017 adaptive terminal sliding mode control of uncertain robotic manipulators based on local approximation of a dynamic system, neurocomputing, 228.
A study of neural network control of robot manipulators. A new neural network control technique for robot manipulators volume issue 5 seul jung, t. The control problem of an uncertain n degrees of freedom robotic manipulator subjected to timevarying output constraints is investigated in this paper. Neural networks for advanced control of robot manipulators. This paper addresses the problem of robotic manipulators with unknown deadzone. Adaptive fuzzy control of uncertain robotic manipulator. Pdf adaptive neural network control for robotic manipulators. An adaptive neural system for positioning control of a puma 560 manipulator is presented. Based on radial basis function neural networks rbfnns, we propose weighted multiplemodel neural network adaptive control wmnnac approach. Recently, there has been considerable research interest in neural network control of robots, and satisfactory results have been obtained in solving some of the special issues associated with the problems of robot control in an onandoff fashion. Neural networks for advanced control of robot manipulators h. Neural network control with disturbance observer for. This study proposes an adaptive neural network controller for a 3dof robotic manipulator that is subject to backlashlike hysteresis and friction. Adaptive neural tracking control of robotic manipulators with.
Neural network mrac for feedback linearisable systems. Hsia skip to main content accessibility help we use cookies to distinguish you from other users and to provide you with a better experience on our websites. The purpose of this chapter is to provide an overview of the research being done in the area of neural network approaches to control of robotic manipulators. Robot manipulators, disturbance observer, rbf neural network, uncertain dynamic. The control scheme combines a pd control and an adaptive control based on a radial basis function rbf neural network. The robust design problem of system 1 can be solved by designing a controller to make j less than a prescribed level. Cmac is the cmac adaptive neural controllers output. Index termsadaptive control, neural network, robot manip ulator, task space. The text has been tailored to give a comprehensive study of robot. In order to solve load uncertainties, a fastload adaptive identification is also employed in.
Adaptive neural network control for robotic manipulators with guaranteed finitetime convergence. The adaptive neural network control is developed based on lyapunov theory in section 4, where the mathematical proof for the stability and convergence of the system is presented. The experimental environment, the external disturbances, and. An adaptive pd control scheme is proposed for the support system of a wiredriven parallel robot wdpr used in a wind tunnel test. Adaptive neural network control for robotic manipulators with. Neural adaptive control of robotic manipulators using a supervisory inertia matrix dean richert, arash beirami, and chris j. Introduction adaptive neural network control of robotic. This book is dedicated to issues on adaptive control of robots based on neural networks. Adaptive neural network control of a robotic manipulator. The neural network approximation is introduced in section 3. Adaptive neural network control for robotic manipulators. Control of a robotic manipulator using artificial neural.
The overall robotic manipulator control system obtained is shown in fig. Abstractin the conventional adaptive neural network control of robotic manipulator, the desired position of robot end effector is specified as a point or trajectory. Then, an adaptive fuzzy logic control scheme is studied by using sliding. A system transformation technique is applied to convert a constrained system into an equivalent unconstrained one for solving the timevarying output constraint problem. Robust adaptive control of robot manipulators using. Two neural networks are used to approximate the dynamics and the hysteresis nonlinearity. Adaptive neural network finitetime control for uncertain. All researchers and students dealing with robotics will find neural systems for robotics of immense interest and assistance. Control of robotic manipulators using neural networks a.
This study addresses the tracking control issue for n link robotic manipulators with largely jumping parameters. Adaptive neural network tracking control of robot manipulators with prescribed performance xl xie, zg hou, l cheng, c ji, m tan, and h yu proceedings of the institution of mechanical engineers, part i. Recently, there has been considerable research interest in neural network control of robots, and satisfactory results have been obtained in solving some of the special issues associated with the problems of robot control. The importance of neural networks in all aspects of robot arm manipulators, neurocontrol, and robotic systems is also given thorough and indepth coverage. Dynamic modelling of robots adaptive neural network. This paper presents a robust adaptive fuzzy neural controller afnc suitable for motion control of multilink robot manipulators. Adaptive neural network control of robotic manipulators by. Pdf adaptive neural network control of a 5 dof robot.
117 976 266 1294 788 1163 638 446 1152 499 1112 763 980 354 39 1574 1536 167 423 399 1177 657 13 196 1622 724 1036 364 1187 868 367 696 864 383 969 699 1527 540 1390 1261 1233 202 180 369 58 237 298 1463 636 215