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Automatic segmentation for one leg stance test with inertial measurement unit

Automatic segmentation for one leg stance test with inertial measurement unit
Automatic segmentation for one leg stance test with inertial measurement unit
One Leg Stance (OLS), a test assessing postural stability, is popularly conducted both in clinic and community settings because it is inexpensive and time-efficient. However, the evaluation based on visual observation and manual time measurement with a stop-watch cannot provide quantitative and detailed parameters for longitudinal or cross-sectional studies. In recent years, to overcome these limitations, the use of Inertial Measurement Unit (IMU) as objective measurement analysis tools is becoming more and more popular. However, the greatest issue is that IMU data segmentation is still time-consuming and prone to errors, as the OLS segmentation is being done manually, off-line, on recorded data. In this paper we proposed a novel algorithm for the automatic segmentation of IMU data of the OLS test. The result showed that the correct rate of detection was over 90% which was close to the correct rate in manual segmentation. Compared to manual segmentation with video, besides being less time-consuming, the proposed algorithm closes the loop making the data acquisition and analysis completely automatic, thus can be integrated in self-assessment smart phone applications, allowing the continuous tracking of postural stability also outside clinics and health-care facilities.
307-312
IEEE
Kong, W.
808d478a-54c0-4ff4-b1df-6103d7d92703
Kodama, T.
5a7c44de-9969-4ce7-bfd8-24d0c8716168
Sessa, S.
dae18bb6-4a40-4581-8c50-f0faa16841df
Cosentino, S.
a9c7ff86-e319-4b43-9deb-9c9692e5a63a
Magistro, D.
ab9296bc-fda6-469e-a3f8-3a574faa1b7e
Kawashima, R.
696ba780-ca26-4227-af1d-3ae821a12d00
Takanishi, A.
856a12a7-dd3f-4f1f-ae54-1fb62989db20
Kong, W.
808d478a-54c0-4ff4-b1df-6103d7d92703
Kodama, T.
5a7c44de-9969-4ce7-bfd8-24d0c8716168
Sessa, S.
dae18bb6-4a40-4581-8c50-f0faa16841df
Cosentino, S.
a9c7ff86-e319-4b43-9deb-9c9692e5a63a
Magistro, D.
ab9296bc-fda6-469e-a3f8-3a574faa1b7e
Kawashima, R.
696ba780-ca26-4227-af1d-3ae821a12d00
Takanishi, A.
856a12a7-dd3f-4f1f-ae54-1fb62989db20

Kong, W., Kodama, T., Sessa, S., Cosentino, S., Magistro, D., Kawashima, R. and Takanishi, A. (2017) Automatic segmentation for one leg stance test with inertial measurement unit. In 2016 IEEE/SICE International Symposium on System Integration (SII). IEEE. pp. 307-312 . (doi:10.1109/SII.2016.7844016).

Record type: Conference or Workshop Item (Paper)

Abstract

One Leg Stance (OLS), a test assessing postural stability, is popularly conducted both in clinic and community settings because it is inexpensive and time-efficient. However, the evaluation based on visual observation and manual time measurement with a stop-watch cannot provide quantitative and detailed parameters for longitudinal or cross-sectional studies. In recent years, to overcome these limitations, the use of Inertial Measurement Unit (IMU) as objective measurement analysis tools is becoming more and more popular. However, the greatest issue is that IMU data segmentation is still time-consuming and prone to errors, as the OLS segmentation is being done manually, off-line, on recorded data. In this paper we proposed a novel algorithm for the automatic segmentation of IMU data of the OLS test. The result showed that the correct rate of detection was over 90% which was close to the correct rate in manual segmentation. Compared to manual segmentation with video, besides being less time-consuming, the proposed algorithm closes the loop making the data acquisition and analysis completely automatic, thus can be integrated in self-assessment smart phone applications, allowing the continuous tracking of postural stability also outside clinics and health-care facilities.

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More information

Published date: 9 February 2017
Venue - Dates: 2016 IEEE/SICE International Symposium on System Integration, SII 2016, , Sapporo, Japan, 2016-12-13 - 2016-12-15

Identifiers

Local EPrints ID: 510628
URI: http://eprints.soton.ac.uk/id/eprint/510628
DOI: doi:10.1109/SII.2016.7844016
PURE UUID: dd30b1f0-78a4-4b06-a6d6-e686b9d7efaa
ORCID for D. Magistro: ORCID iD orcid.org/0000-0002-2554-3701

Catalogue record

Date deposited: 14 Apr 2026 16:46
Last modified: 16 Apr 2026 02:18

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Contributors

Author: W. Kong
Author: T. Kodama
Author: S. Sessa
Author: S. Cosentino
Author: D. Magistro ORCID iD
Author: R. Kawashima
Author: A. Takanishi

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