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Bibliographic Details
Main Authors: Baker, Luke S., Kwon, Sungil, Jyamfi, Kwame, Cole, Quinten, Roybal, Isaac, Garcia, AJ, Torrez, Phil, Castellano, Lawrence
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.00340
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author Baker, Luke S.
Kwon, Sungil
Jyamfi, Kwame
Cole, Quinten
Roybal, Isaac
Garcia, AJ
Torrez, Phil
Castellano, Lawrence
author_facet Baker, Luke S.
Kwon, Sungil
Jyamfi, Kwame
Cole, Quinten
Roybal, Isaac
Garcia, AJ
Torrez, Phil
Castellano, Lawrence
contents An observer framework is presented for robust regulation of RF cavity fields and localized identification of disturbances in RF systems. A standard cavity field observer is augmented with additional states to estimate the evolution of cavity detuning and phase drifts induced by the drive and receiver chains. Monte Carlo simulations are performed to assess the performance of the proposed estimator under realistic conditions for the intended high-power linear accelerator operation. Results showcase precise cavity field regulation and the reliability with which the observer assigns deviations to the correct subsystem. The resulting diagnostic capability provides a foundation for improved fault detection, faster troubleshooting during accelerator operation, and more informed maintenance of RF systems in large accelerator facilities.
format Preprint
id arxiv_https___arxiv_org_abs_2604_00340
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Extended State Observer for Localized Fault Awareness in RF Accelerating Structures
Baker, Luke S.
Kwon, Sungil
Jyamfi, Kwame
Cole, Quinten
Roybal, Isaac
Garcia, AJ
Torrez, Phil
Castellano, Lawrence
Optimization and Control
An observer framework is presented for robust regulation of RF cavity fields and localized identification of disturbances in RF systems. A standard cavity field observer is augmented with additional states to estimate the evolution of cavity detuning and phase drifts induced by the drive and receiver chains. Monte Carlo simulations are performed to assess the performance of the proposed estimator under realistic conditions for the intended high-power linear accelerator operation. Results showcase precise cavity field regulation and the reliability with which the observer assigns deviations to the correct subsystem. The resulting diagnostic capability provides a foundation for improved fault detection, faster troubleshooting during accelerator operation, and more informed maintenance of RF systems in large accelerator facilities.
title Extended State Observer for Localized Fault Awareness in RF Accelerating Structures
topic Optimization and Control
url https://arxiv.org/abs/2604.00340