Backlash compensation with filtered prediction in discrete time nonlinear systems by dynamic inversion using neural networks
First Claim
1. A discrete-time adaptive neural network compensator for compensating backlash of a mechanical system, comprising:
- a feedforward path;
a proportional derivative tracking loop in the feedforward path;
a filter in the feedforward path;
a neural network in the feedforward path and coupled to the filter, the neural network configured to compensate the backlash by estimating an inverse of the backlash and applying the inverse to an input of the mechanical system; and
wherein a tracking error r(k), a backlash estimation error {tilde over (τ
)}(k), and a weight estimation error {tilde over (W)}(k) of the neural network are each weighted in the same Lyapunov function.
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Abstract
Methods and apparatuses for backlash compensation. A dynamics inversion compensation scheme is designed for control of nonlinear discrete-time systems with input backlash. The techniques of this disclosure extend the dynamic inversion technique to discrete-time systems by using a filtered prediction, and shows how to use a neural network (NN) for inverting the backlash nonlinearity in the feedforward path. The techniques provide a general procedure for using NN to determine the dynamics preinverse of an invertible discrete time dynamical system. A discrete-time tuning algorithm is given for the NN weights so that the backlash compensation scheme guarantees bounded tracking and backlash errors, and also bounded parameter estimates. A rigorous proof of stability and performance is given and a simulation example verifies performance. Unlike standard discrete-time adaptive control techniques, no certainty equivalence (CE) or linear-in-the-parameters (LIP) assumptions are needed.
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Citations
15 Claims
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1. A discrete-time adaptive neural network compensator for compensating backlash of a mechanical system, comprising:
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a feedforward path;
a proportional derivative tracking loop in the feedforward path;
a filter in the feedforward path;
a neural network in the feedforward path and coupled to the filter, the neural network configured to compensate the backlash by estimating an inverse of the backlash and applying the inverse to an input of the mechanical system; and
wherein a tracking error r(k), a backlash estimation error {tilde over (τ
)}(k), and a weight estimation error {tilde over (W)}(k) of the neural network are each weighted in the same Lyapunov function. - View Dependent Claims (2, 3, 4)
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5. A discrete time adaptive neural network compensator for compensating backlash of a mechanical system, comprising:
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a filter in a feedforward path;
a neural network in the feedforward path, the neural network configured to compensate the backlash by estimating an inverse of the backlash and applying the inverse to an input of the mechanical system; and
means for tuning the neural network in discrete time without a certainty equivalence assumption. - View Dependent Claims (6, 7)
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8. A method for compensating backlash in a mechanical system, comprising:
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estimating an inverse of the backlash using a discrete-time neural network in a feedforward path;
weighting a tracking error r(k), a backlash estimation error {tilde over (τ
)}(k), and a weight estimation error {tilde over (W)}(k) of the neural network in the same Lyapunov function; and
applying the inverse to an input of the mechanical system to compensate the backlash. - View Dependent Claims (9, 10, 11)
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12. A discrete-time method of adaptively compensating backlash in a mechanical system, comprising:
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estimating an inverse of the backlash using a neural network in a feedforward path;
adjusting weights of the neural network using an algorithm to achieve closed loop stability without a certainty equivalence assumption; and
applying the inverse to an input of the mechanical system to compensate the backlash. - View Dependent Claims (13, 14, 15)
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Specification