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An Adaptive Data-Driven Iterative Feedforward Tuning Approach Based on Fast Recursive Algorithm: With Application to a Linear Motor

Xuewei Fu, Xiaofeng Yang, Pericle Zanchetta, Mi Tang, Yang Liu, Zhenyu Chen

2022IEEE Transactions on Industrial Informatics18 citationsDOIOpen Access PDF

Abstract

The feedforward control can effectively improve the servo performance in applications with high requirements of velocity and acceleration. The iterative feedforward tuning method (IFFT) enables the possibility of both removing the need for prior knowledge of the system plant in model-based feedforward and improving the extrapolation capability for varying tasks of iterative learning control. However, most IFFT methods require to set the number of basis functions in advance, which is inconvenient to the system design. To tackle this problem, an adaptive data-driven IFFT based on a fast recursive algorithm (IFFT-FRA) is developed in this article. Explicitly, based on FRA, the proposed approach can adaptively tune the feedforward structure, which significantly increases the intelligence of the approach. Additionally, a data-based iterative tuning procedure is introduced to achieve the unbiased estimation of parameters optimization in the presence of noise. Comparative experiments on a linear motor confirm the effectiveness of the proposed approach.

Topics & Concepts

Feed forwardComputer scienceIterative methodIterative learning controlControl theory (sociology)AlgorithmAccelerationFeedforward neural networkAdaptive controlNoise (video)Control engineeringArtificial neural networkArtificial intelligenceControl (management)EngineeringClassical mechanicsPhysicsImage (mathematics)Iterative Learning Control SystemsAdvanced Measurement and Metrology TechniquesAdvanced machining processes and optimization
An Adaptive Data-Driven Iterative Feedforward Tuning Approach Based on Fast Recursive Algorithm: With Application to a Linear Motor | Litcius