Online Parameter Estimation for Continuously Monitored Quantum Systems

Henrik Glavind Clausen; Pierre Rouchon; Rafal Wisniewski

doi:10.1109/LCSYS.2024.3407608

Online Parameter Estimation for Continuously Monitored Quantum Systems

Henrik Glavind Clausen, Pierre Rouchon, Rafal Wisniewski

Publikation: Bidrag til tidsskrift › Letter › peer review

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Abstract

In this work, we consider the problem of online (real-time, single-shot) estimation of static or slow-varying parameters along quantum trajectories in quantum dynamical systems. Based on the measurement signal of a continuously monitored quantum system, we propose a recursive algorithm for computing the maximum likelihood (ML) estimate of unknown parameters using an approach based on stochastic gradient ascent on the log-likelihood function. We formulate the algorithm in both discrete-time and continuous-time and illustrate the performance of the algorithm through simulations of a simple two-level system undergoing homodyne measurement from which we are able to track multiple parameters simultaneously.

Originalsprog	Engelsk
Artikelnummer	10542346
Tidsskrift	IEEE Control Systems Letters
Vol/bind	8
Sider (fra-til)	1247-1252
Antal sider	6
ISSN	2475-1456
DOI	https://doi.org/10.1109/LCSYS.2024.3407608
Status	Udgivet - 30 maj 2024

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10.1109/LCSYS.2024.3407608

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abstract = "In this letter, we consider the problem of online (real-time, single-shot) estimation of static or slow-varying parameters along quantum trajectories in quantum dynamical systems. Based on the measurement signal of a continuously monitored quantum system, we propose a recursive algorithm for computing the maximum likelihood (ML) estimate of unknown parameters using an approach based on stochastic gradient ascent on the log-likelihood function. We formulate the algorithm in both discrete-time and continuous-time and illustrate the performance of the algorithm through simulations of a simple two-level system undergoing homodyne measurement from which we are able to track multiple parameters simultaneously.",

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AU - Clausen, Henrik Glavind

AU - Rouchon, Pierre

AU - Wisniewski, Rafal

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N2 - In this letter, we consider the problem of online (real-time, single-shot) estimation of static or slow-varying parameters along quantum trajectories in quantum dynamical systems. Based on the measurement signal of a continuously monitored quantum system, we propose a recursive algorithm for computing the maximum likelihood (ML) estimate of unknown parameters using an approach based on stochastic gradient ascent on the log-likelihood function. We formulate the algorithm in both discrete-time and continuous-time and illustrate the performance of the algorithm through simulations of a simple two-level system undergoing homodyne measurement from which we are able to track multiple parameters simultaneously.

AB - In this letter, we consider the problem of online (real-time, single-shot) estimation of static or slow-varying parameters along quantum trajectories in quantum dynamical systems. Based on the measurement signal of a continuously monitored quantum system, we propose a recursive algorithm for computing the maximum likelihood (ML) estimate of unknown parameters using an approach based on stochastic gradient ascent on the log-likelihood function. We formulate the algorithm in both discrete-time and continuous-time and illustrate the performance of the algorithm through simulations of a simple two-level system undergoing homodyne measurement from which we are able to track multiple parameters simultaneously.

KW - Mathematical models

KW - Maximum likelihood estimation

KW - Quantum computing

KW - Quantum information and control

KW - Quantum system

KW - Sensitivity

KW - Signal processing algorithms

KW - estimation

KW - stochastic systems

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EP - 1252

JO - IEEE Control Systems Letters

JF - IEEE Control Systems Letters

M1 - 10542346

ER -

Online Parameter Estimation for Continuously Monitored Quantum Systems

Abstract

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