Multiscale PCA to distinguish regular and irregular surfaces using tri axial head and trunk acceleration signals
This study uses multiscale principal component analysis (MSPCA) signal processing technique in order to distinguish the two different surfaces, tiled (regular) and cobbled (irregular) using accelerometry data (recorded from MTx sensors). Two MTx sensors were placed on the head and trunk of the subje...
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| Published in | 2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) Vol. 2015; pp. 4122 - 4125 |
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| Main Authors | , , , |
| Format | Conference Proceeding Journal Article |
| Language | English |
| Published |
United States
IEEE
01.01.2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1094-687X 1557-170X |
| DOI | 10.1109/EMBC.2015.7319301 |
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| Abstract | This study uses multiscale principal component analysis (MSPCA) signal processing technique in order to distinguish the two different surfaces, tiled (regular) and cobbled (irregular) using accelerometry data (recorded from MTx sensors). Two MTx sensors were placed on the head and trunk of the subject while the subject walked freely over the regular and irregular surfaces during a free walk. 3D acceleration signals, vertical, medio lateral (ML) and anterior-posterior (AP) were recorded for the head and trunk segments and compared for the free walk on a defined route. The magnitude of the ML and AP acceleration obtained from the MTx sensors (for both head & trunk) was higher when walking over the irregular (cobbled) surface as compared to the regular (tiled) surface. The accelerometry data was initially analysed using MSPCA and was later classified using naïve Bayesian classifier with >86% accuracy. This research study demonstrates that MSPCA can be used to distinguish the regular and irregular surfaces. The proposed method could be very useful as an automated method for classification of the two surfaces. |
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| AbstractList | This study uses multiscale principal component analysis (MSPCA) signal processing technique in order to distinguish the two different surfaces, tiled (regular) and cobbled (irregular) using accelerometry data (recorded from MTx sensors). Two MTx sensors were placed on the head and trunk of the subject while the subject walked freely over the regular and irregular surfaces during a free walk. 3D acceleration signals, vertical, medio lateral (ML) and anterior-posterior (AP) were recorded for the head and trunk segments and compared for the free walk on a defined route. The magnitude of the ML and AP acceleration obtained from the MTx sensors (for both head & trunk) was higher when walking over the irregular (cobbled) surface as compared to the regular (tiled) surface. The accelerometry data was initially analysed using MSPCA and was later classified using naïve Bayesian classifier with >86% accuracy. This research study demonstrates that MSPCA can be used to distinguish the regular and irregular surfaces. The proposed method could be very useful as an automated method for classification of the two surfaces. This study uses multiscale principal component analysis (MSPCA) signal processing technique in order to distinguish the two different surfaces, tiled (regular) and cobbled (irregular) using accelerometry data (recorded from MTx sensors). Two MTx sensors were placed on the head and trunk of the subject while the subject walked freely over the regular and irregular surfaces during a free walk. 3D acceleration signals, vertical, medio lateral (ML) and anterior-posterior (AP) were recorded for the head and trunk segments and compared for the free walk on a defined route. The magnitude of the ML and AP acceleration obtained from the MTx sensors (for both head & trunk) was higher when walking over the irregular (cobbled) surface as compared to the regular (tiled) surface. The accelerometry data was initially analysed using MSPCA and was later classified using naïve Bayesian classifier with >86% accuracy. This research study demonstrates that MSPCA can be used to distinguish the regular and irregular surfaces. The proposed method could be very useful as an automated method for classification of the two surfaces. |
| Author | Acharyya, Amit Naik, Ganesh R. Pendharkar, Gita Nguyen, Hung T. |
| Author_xml | – sequence: 1 givenname: Gita surname: Pendharkar fullname: Pendharkar, Gita email: gita@monash.edu.au organization: Electr. & Comput. Syst. Eng., Monash Univ., Melbourne, VIC, Australia – sequence: 2 givenname: Ganesh R. surname: Naik fullname: Naik, Ganesh R. email: ganesh.naik@uts.edu.au organization: Centre for Health Technol., Univ. of Technol. Sydney, Sydney, NSW, Australia – sequence: 3 givenname: Amit surname: Acharyya fullname: Acharyya, Amit email: amit_acharyya@iith.ac.in organization: Dept. of Electr. Eng., Indian Inst. of Technol., Hyderabad, Hyderabad, India – sequence: 4 givenname: Hung T. surname: Nguyen fullname: Nguyen, Hung T. email: hung.nguyen@uts.edu.au organization: Centre for Health Technol., Univ. of Technol. Sydney, Sydney, NSW, Australia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26737201$$D View this record in MEDLINE/PubMed |
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| Snippet | This study uses multiscale principal component analysis (MSPCA) signal processing technique in order to distinguish the two different surfaces, tiled (regular)... |
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| SubjectTerms | Acceleration Accelerometers Accelerometry - methods Head - physiology Humans Legged locomotion Principal Component Analysis Rough surfaces Sensors Signal Processing, Computer-Assisted Surface roughness Surface treatment Torso - physiology Walking - physiology |
| Title | Multiscale PCA to distinguish regular and irregular surfaces using tri axial head and trunk acceleration signals |
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