Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor

R. Victor Croisfelt; Guilherme B.Da Silva; Daniel S. Batista; Marcelo C. Tosin; Francisco Granziera

doi:10.1109/INDUSCON.2018.8627205

Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor

R. Victor Croisfelt, Guilherme B.Da Silva, Daniel S. Batista, Marcelo C. Tosin, Francisco Granziera

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

Abstrakt

This work describes the implementation and results related to the numerical error and the temporal analysis of the calibration methodology of an embedded magnetometer. The system tested is part of an attitude determination system for aerospace applications, which uses low-cost tri-axial MEMS (micro electromechanical systems) magnetometer and an ARM Cortex-M4 as the processing unit. In order to validate and develop an efficient methodology for in run calibration, two different calibration algorithms were evaluated: a Two-Step process and a Minimum Variance Estimator (MVE), both described in the literature. The sensor's model consists of nine parameters to be estimated: bias, scale factor and misalignment angles between axes. A Test Unit was developed to evaluate both the numerical and temporal results of calibration. It uses IEEE 754 floating point standard variables with 32-bit and 64-bit wide in the ARM Cortex-M4. The former can be executed within the processor's Float Point Unit and the later cannot. The numerical data are compared to the one obtained using a Matlab code simulation. Result shows that the Two-Step present numerical instability for 32-bit wide variables, while the Minimum Variance Estimator has an inferior temporal execution but did not present such numerical issues.

Originalsprog	Engelsk
Titel	2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings
Redaktører	Marcos de Sales Guerra Tsuzuki, Fabricio Junqueira
Antal sider	8
Forlag	Institute of Electrical and Electronics Engineers Inc.
Publikationsdato	25 jan. 2019
Sider	1387-1394
Artikelnummer	8627205
ISBN (Elektronisk)	9781538679951
DOI	https://doi.org/10.1109/INDUSCON.2018.8627205
Status	Udgivet - 25 jan. 2019
Udgivet eksternt	Ja
Begivenhed	13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Sao Paulo, Brasilien Varighed: 11 nov. 2018 → 14 nov. 2018

Konference

Konference	13th IEEE International Conference on Industry Applications, INDUSCON 2018
Land/Område	Brasilien
By	Sao Paulo
Periode	11/11/2018 → 14/11/2018

Navn	2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings

Bibliografisk note

Publisher Copyright:
© 2018 IEEE.

Adgang til dokumentet

10.1109/INDUSCON.2018.8627205

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Link to publication in Scopus

Citationsformater

Victor Croisfelt, R., Silva, G. B. D., Batista, D. S., Tosin, M. C., & Granziera, F. (2019). Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor. I M. de Sales Guerra Tsuzuki, & F. Junqueira (red.), 2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings (s. 1387-1394). [8627205] Institute of Electrical and Electronics Engineers Inc.. 2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings https://doi.org/10.1109/INDUSCON.2018.8627205

Victor Croisfelt, R. ; Silva, Guilherme B.Da ; Batista, Daniel S. et al. / Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor. 2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings. red. / Marcos de Sales Guerra Tsuzuki ; Fabricio Junqueira. Institute of Electrical and Electronics Engineers Inc., 2019. s. 1387-1394 (2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings).

@inproceedings{c1319a204eb4402dbdc54936405c189c,

title = "Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor",

abstract = "This work describes the implementation and results related to the numerical error and the temporal analysis of the calibration methodology of an embedded magnetometer. The system tested is part of an attitude determination system for aerospace applications, which uses low-cost tri-axial MEMS (micro electromechanical systems) magnetometer and an ARM Cortex-M4 as the processing unit. In order to validate and develop an efficient methodology for in run calibration, two different calibration algorithms were evaluated: a Two-Step process and a Minimum Variance Estimator (MVE), both described in the literature. The sensor's model consists of nine parameters to be estimated: bias, scale factor and misalignment angles between axes. A Test Unit was developed to evaluate both the numerical and temporal results of calibration. It uses IEEE 754 floating point standard variables with 32-bit and 64-bit wide in the ARM Cortex-M4. The former can be executed within the processor's Float Point Unit and the later cannot. The numerical data are compared to the one obtained using a Matlab code simulation. Result shows that the Two-Step present numerical instability for 32-bit wide variables, while the Minimum Variance Estimator has an inferior temporal execution but did not present such numerical issues.",

keywords = "ARM Cortex-M4, Magnetic Sensor, Parameter Estimation, Sensor Calibration, Unit Test",

author = "{Victor Croisfelt}, R. and Silva, {Guilherme B.Da} and Batista, {Daniel S.} and Tosin, {Marcelo C.} and Francisco Granziera",

note = "Funding Information: This work was supported in part by the Brazilian Space Agency (AEB) through the UNIESPAC¸ O program, and in part by the Department of Electrical Engineering of the State University of Londrina, Londrina, Brazil. Publisher Copyright: {\textcopyright} 2018 IEEE.; 13th IEEE International Conference on Industry Applications, INDUSCON 2018 ; Conference date: 11-11-2018 Through 14-11-2018",

year = "2019",

month = jan,

day = "25",

doi = "10.1109/INDUSCON.2018.8627205",

language = "English",

series = "2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings",

pages = "1387--1394",

editor = "{de Sales Guerra Tsuzuki}, Marcos and Fabricio Junqueira",

booktitle = "2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Victor Croisfelt, R, Silva, GBD, Batista, DS, Tosin, MC & Granziera, F 2019, Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor. i M de Sales Guerra Tsuzuki & F Junqueira (red), 2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings., 8627205, Institute of Electrical and Electronics Engineers Inc., 2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings, s. 1387-1394, 13th IEEE International Conference on Industry Applications, INDUSCON 2018, Sao Paulo, Brasilien, 11/11/2018. https://doi.org/10.1109/INDUSCON.2018.8627205

Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor. / Victor Croisfelt, R.; Silva, Guilherme B.Da; Batista, Daniel S. et al.

2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings. red. / Marcos de Sales Guerra Tsuzuki; Fabricio Junqueira. Institute of Electrical and Electronics Engineers Inc., 2019. s. 1387-1394 8627205 (2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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AU - Silva, Guilherme B.Da

AU - Batista, Daniel S.

AU - Tosin, Marcelo C.

AU - Granziera, Francisco

N1 - Funding Information: This work was supported in part by the Brazilian Space Agency (AEB) through the UNIESPAC¸ O program, and in part by the Department of Electrical Engineering of the State University of Londrina, Londrina, Brazil. Publisher Copyright: © 2018 IEEE.

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N2 - This work describes the implementation and results related to the numerical error and the temporal analysis of the calibration methodology of an embedded magnetometer. The system tested is part of an attitude determination system for aerospace applications, which uses low-cost tri-axial MEMS (micro electromechanical systems) magnetometer and an ARM Cortex-M4 as the processing unit. In order to validate and develop an efficient methodology for in run calibration, two different calibration algorithms were evaluated: a Two-Step process and a Minimum Variance Estimator (MVE), both described in the literature. The sensor's model consists of nine parameters to be estimated: bias, scale factor and misalignment angles between axes. A Test Unit was developed to evaluate both the numerical and temporal results of calibration. It uses IEEE 754 floating point standard variables with 32-bit and 64-bit wide in the ARM Cortex-M4. The former can be executed within the processor's Float Point Unit and the later cannot. The numerical data are compared to the one obtained using a Matlab code simulation. Result shows that the Two-Step present numerical instability for 32-bit wide variables, while the Minimum Variance Estimator has an inferior temporal execution but did not present such numerical issues.

AB - This work describes the implementation and results related to the numerical error and the temporal analysis of the calibration methodology of an embedded magnetometer. The system tested is part of an attitude determination system for aerospace applications, which uses low-cost tri-axial MEMS (micro electromechanical systems) magnetometer and an ARM Cortex-M4 as the processing unit. In order to validate and develop an efficient methodology for in run calibration, two different calibration algorithms were evaluated: a Two-Step process and a Minimum Variance Estimator (MVE), both described in the literature. The sensor's model consists of nine parameters to be estimated: bias, scale factor and misalignment angles between axes. A Test Unit was developed to evaluate both the numerical and temporal results of calibration. It uses IEEE 754 floating point standard variables with 32-bit and 64-bit wide in the ARM Cortex-M4. The former can be executed within the processor's Float Point Unit and the later cannot. The numerical data are compared to the one obtained using a Matlab code simulation. Result shows that the Two-Step present numerical instability for 32-bit wide variables, while the Minimum Variance Estimator has an inferior temporal execution but did not present such numerical issues.

KW - ARM Cortex-M4

KW - Magnetic Sensor

KW - Parameter Estimation

KW - Sensor Calibration

KW - Unit Test

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Victor Croisfelt R, Silva GBD, Batista DS, Tosin MC, Granziera F. Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor. I de Sales Guerra Tsuzuki M, Junqueira F, red., 2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 2019. s. 1387-1394. 8627205. (2018 13th IEEE International Conference on Industry Applications, INDUSCON 2018 - Proceedings). doi: 10.1109/INDUSCON.2018.8627205

Numerical error and temporal analysis of embedded magnetic sensor calibration using ARM Cortex-M4 Processor

Abstrakt

Konference

Bibliografisk note

Adgang til dokumentet

Andre filer og links

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