Joint Calibration and Tomography based on Separable Least Squares Approach with Constraints on Linear and Non-Linear Parameters

Venkata PATHURI-BHUVANA; Stefan SCHUSTER; Andreas OCH

doi:10.23919/Eusipco47968.2020.9287717

Joint Calibration and Tomography based on Separable Least Squares Approach with Constraints on Linear and Non-Linear Parameters

Venkata PATHURI-BHUVANA, Stefan SCHUSTER, Andreas OCH

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Research output: Conference proceeding/Chapter in Book/Report/ › Conference Paper › peer-review

Abstract

Most of the existing tomography techniques rely on accurate calibration to reconstruct the features of interest. In several industrial applications, the calibration is typically performed off-line and has to be repeated frequently to counter time varying perturbation caused by aging, operating conditions, and so on. In this paper, a novel online joint calibration and tomography method based on variable projection based separable least squares approach with constraints on linear and non-linear parameters is proposed. The constraints on the linear parameters improve the estimation accuracy of the ill-posed and under determined tomography problem. The constraints on the non-linear parameters restricts the proposed method from departing far away from the initial guess, especially when a good initial guess is available. The proposed method is used to reconstruct the temperature distribution inside a blast furnace and simultaneously to calibrate the positions of acoustic transducers based on simulated acoustic time of flight measurements.

Original language	English
Title of host publication	2020 28th European Signal Processing Conference (EUSIPCO)
Publisher	IEEE Computer Society
Pages	1931-1935
Number of pages	5
ISBN (Electronic)	978-9-0827-9705-3
ISBN (Print)	978-1-7281-5001-7
DOIs	https://doi.org/10.23919/Eusipco47968.2020.9287717
Publication status	Published - 24 Jan 2021
Event	2020 28th European Signal Processing Conference (EUSIPCO) - Amsterdam, Netherlands Duration: 18 Jan 2021 → 21 Jan 2021

Publication series

Name	European Signal Processing Conference
Volume	2021-January

Conference

Conference	2020 28th European Signal Processing Conference (EUSIPCO)
Period	18/01/21 → 21/01/21

Keywords

Temperature measurement
Jacobian matrices
Temperature distribution
Tomography
Position measurement
Time measurement
Calibration

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10.23919/Eusipco47968.2020.9287717

https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=9287717

Cite this

PATHURI-BHUVANA, V., SCHUSTER, S., & OCH, A. (2021). Joint Calibration and Tomography based on Separable Least Squares Approach with Constraints on Linear and Non-Linear Parameters. In 2020 28th European Signal Processing Conference (EUSIPCO) (pp. 1931-1935). Article 9287717 (European Signal Processing Conference; Vol. 2021-January). IEEE Computer Society. https://doi.org/10.23919/Eusipco47968.2020.9287717

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abstract = "Most of the existing tomography techniques rely on accurate calibration to reconstruct the features of interest. In several industrial applications, the calibration is typically performed off-line and has to be repeated frequently to counter time varying perturbation caused by aging, operating conditions, and so on. In this paper, a novel online joint calibration and tomography method based on variable projection based separable least squares approach with constraints on linear and non-linear parameters is proposed. The constraints on the linear parameters improve the estimation accuracy of the ill-posed and under determined tomography problem. The constraints on the non-linear parameters restricts the proposed method from departing far away from the initial guess, especially when a good initial guess is available. The proposed method is used to reconstruct the temperature distribution inside a blast furnace and simultaneously to calibrate the positions of acoustic transducers based on simulated acoustic time of flight measurements.",

keywords = "Temperature measurement, Jacobian matrices, Temperature distribution, Tomography, Position measurement, Time measurement, Calibration",

author = "Venkata PATHURI-BHUVANA and Stefan SCHUSTER and Andreas OCH",

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PATHURI-BHUVANA, V, SCHUSTER, S & OCH, A 2021, Joint Calibration and Tomography based on Separable Least Squares Approach with Constraints on Linear and Non-Linear Parameters. in 2020 28th European Signal Processing Conference (EUSIPCO)., 9287717, European Signal Processing Conference, vol. 2021-January, IEEE Computer Society, pp. 1931-1935, 2020 28th European Signal Processing Conference (EUSIPCO), 18/01/21. https://doi.org/10.23919/Eusipco47968.2020.9287717

Joint Calibration and Tomography based on Separable Least Squares Approach with Constraints on Linear and Non-Linear Parameters. / PATHURI-BHUVANA, Venkata; SCHUSTER, Stefan; OCH, Andreas.
2020 28th European Signal Processing Conference (EUSIPCO). IEEE Computer Society, 2021. p. 1931-1935 9287717 (European Signal Processing Conference; Vol. 2021-January).

Research output: Conference proceeding/Chapter in Book/Report/ › Conference Paper › peer-review

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AU - OCH, Andreas

N1 - DBLP License: DBLP's bibliographic metadata records provided through http://dblp.org/ are distributed under a Creative Commons CC0 1.0 Universal Public Domain Dedication. Although the bibliographic metadata records are provided consistent with CC0 1.0 Dedication, the content described by the metadata records is not. Content may be subject to copyright, rights of privacy, rights of publicity and other restrictions.

PY - 2021/1/24

Y1 - 2021/1/24

N2 - Most of the existing tomography techniques rely on accurate calibration to reconstruct the features of interest. In several industrial applications, the calibration is typically performed off-line and has to be repeated frequently to counter time varying perturbation caused by aging, operating conditions, and so on. In this paper, a novel online joint calibration and tomography method based on variable projection based separable least squares approach with constraints on linear and non-linear parameters is proposed. The constraints on the linear parameters improve the estimation accuracy of the ill-posed and under determined tomography problem. The constraints on the non-linear parameters restricts the proposed method from departing far away from the initial guess, especially when a good initial guess is available. The proposed method is used to reconstruct the temperature distribution inside a blast furnace and simultaneously to calibrate the positions of acoustic transducers based on simulated acoustic time of flight measurements.

AB - Most of the existing tomography techniques rely on accurate calibration to reconstruct the features of interest. In several industrial applications, the calibration is typically performed off-line and has to be repeated frequently to counter time varying perturbation caused by aging, operating conditions, and so on. In this paper, a novel online joint calibration and tomography method based on variable projection based separable least squares approach with constraints on linear and non-linear parameters is proposed. The constraints on the linear parameters improve the estimation accuracy of the ill-posed and under determined tomography problem. The constraints on the non-linear parameters restricts the proposed method from departing far away from the initial guess, especially when a good initial guess is available. The proposed method is used to reconstruct the temperature distribution inside a blast furnace and simultaneously to calibrate the positions of acoustic transducers based on simulated acoustic time of flight measurements.

KW - Temperature measurement

KW - Jacobian matrices

KW - Temperature distribution

KW - Tomography

KW - Position measurement

KW - Time measurement

KW - Calibration

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T3 - European Signal Processing Conference

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EP - 1935

BT - 2020 28th European Signal Processing Conference (EUSIPCO)

PB - IEEE Computer Society

T2 - 2020 28th European Signal Processing Conference (EUSIPCO)

Y2 - 18 January 2021 through 21 January 2021

ER -

Joint Calibration and Tomography based on Separable Least Squares Approach with Constraints on Linear and Non-Linear Parameters

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