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Research PaperResearchia:202607.08090

Neural-ESO: A Dual-Pathway Architecture for Provably Robust Learning-Based Control

Fan Zhang

Abstract

A learning-enabled disturbance-rejection framework based on a Neural Extended State Observer (Neural-ESO) is presented in this letter. Unlike existing learning-based control methods that largely rely on the learned model once deployed, Neural-ESO adopts a dual-pathway architecture: a predictive pathway uses a neural network to provide a feedforward disturbance estimate that accelerates convergence, while a corrective pathway employs a conventional ESO to compensate prediction errors and prevent ...

Submitted: July 8, 2026Subjects: Robotics; Robotics

Description / Details

A learning-enabled disturbance-rejection framework based on a Neural Extended State Observer (Neural-ESO) is presented in this letter. Unlike existing learning-based control methods that largely rely on the learned model once deployed, Neural-ESO adopts a dual-pathway architecture: a predictive pathway uses a neural network to provide a feedforward disturbance estimate that accelerates convergence, while a corrective pathway employs a conventional ESO to compensate prediction errors and prevent over-reliance on the neural component. Using Lyapunov theory and a small-gain analysis, we show that enforcing a Lipschitz bound on the learning component guarantees uniform ultimate boundedness of the closed-loop error dynamics. The proposed framework is validated on a quadrotor landing task subject to strong ground-effect disturbances across normal and out-of-distribution scenarios, demonstrating accuracy-robustness trade-off and greater operational reliability during training, deployment, and transfer compared with state-of-the-art baselines.


Source: arXiv:2607.06535v1 - http://arxiv.org/abs/2607.06535v1 PDF: https://arxiv.org/pdf/2607.06535v1 Original Link: http://arxiv.org/abs/2607.06535v1

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Submission Info
Date:
Jul 8, 2026
Topic:
Robotics
Area:
Robotics
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