Estimation and visualization of sagittal kinematics of lower limbs orientation using body-fixed sensors
A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion...
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| Published in | IEEE transactions on biomedical engineering Vol. 53; no. 7; pp. 1385 - 1393 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
IEEE
01.07.2006
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9294 1558-2531 |
| DOI | 10.1109/TBME.2006.873678 |
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| Abstract | A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion and biomechanical constraints, and provides a solution to fusing the data of gyroscopes and accelerometers that yields stable and drift-free estimates of segment orientation. The method was validated by measuring lower limb motions of eight subjects, walking at three different speeds, and comparing the results with a reference motion measurement system. The results are very close to those of the reference system presenting very small errors (Shank: rms=1.0, Thigh: rms=1.6/spl deg/) and excellent correlation coefficients (Shank: r=0.999, Thigh: r=0.998). Technically, the proposed ambulatory system is portable, easily mountable, and can be used for long term monitoring without hindrance to natural activities. Finally, a gait analysis tool was designed to visualize the motion data as synthetic skeletons performing the same actions as the subjects. |
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| AbstractList | A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion and biomechanical constraints, and provides a solution to fusing the data of gyroscopes and accelerometers that yields stable and drift-free estimates of segment orientation. The method was validated by measuring lower limb motions of eight subjects, walking at three different speeds, and comparing the results with a reference motion measurement system. The results are very close to those of the reference system presenting very small errors (Shank: rms=1.0, Thigh: rms=1.6 degree ) and excellent correlation coefficients (Shank: r=0.999, Thigh: r=0.998). Technically, the proposed ambulatory system is portable, easily mountable, and can be used for long term monitoring without hindrance to natural activities. Finally, a gait analysis tool was designed to visualize the motion data as synthetic skeletons performing the same actions as the subjects. A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion and biomechanical constraints, and provides a solution to fusing the data of gyroscopes and accelerometers that yields stable and drift-free estimates of segment orientation. The method was validated by measuring lower limb motions of eight subjects, walking at three different speeds, and comparing the results with a reference motion measurement system. The results are very close to those of the reference system presenting very small errors (Shank: rms = 1.0, Thigh: rms = 1.6 degrees) and excellent correlation coefficients (Shank: r = 0.999, Thigh: r = 0.998). Technically, the proposed ambulatory system is portable, easily mountable, and can be used for long-term monitoring without hindrance to natural activities. Finally, a gait analysis tool was designed to visualize the motion data as synthetic skeletons performing the same actions as the subjects. A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion and biomechanical constraints, and provides a solution to fusing the data of gyroscopes and accelerometers that yields stable and drift-free estimates of segment orientation. The method was validated by measuring lower limb motions of eight subjects, walking at three different speeds, and comparing the results with a reference motion measurement system. The results are very close to those of the reference system presenting very small errors (Shank: rms=1.0, Thigh: rms=1.6/spl deg/) and excellent correlation coefficients (Shank: r=0.999, Thigh: r=0.998). Technically, the proposed ambulatory system is portable, easily mountable, and can be used for long term monitoring without hindrance to natural activities. Finally, a gait analysis tool was designed to visualize the motion data as synthetic skeletons performing the same actions as the subjects. A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion and biomechanical constraints, and provides a solution to fusing the data of gyroscopes and accelerometers that yields stable and drift-free estimates of segment orientation. The method was validated by measuring lower limb motions of eight subjects, walking at three different speeds, and comparing the results with a reference motion measurement system. The results are very close to those of the reference system presenting very small errors (Shank: rms = 1.0, Thigh: rms = 1.6 degrees) and excellent correlation coefficients (Shank: r = 0.999, Thigh: r = 0.998). Technically, the proposed ambulatory system is portable, easily mountable, and can be used for long-term monitoring without hindrance to natural activities. Finally, a gait analysis tool was designed to visualize the motion data as synthetic skeletons performing the same actions as the subjects.A new method of estimating lower limbs orientations using a combination of accelerometers and gyroscopes is presented. The model is based on estimating the accelerations of ankle and knee joints by placing virtual sensors at the centers of rotation. The proposed technique considers human locomotion and biomechanical constraints, and provides a solution to fusing the data of gyroscopes and accelerometers that yields stable and drift-free estimates of segment orientation. The method was validated by measuring lower limb motions of eight subjects, walking at three different speeds, and comparing the results with a reference motion measurement system. The results are very close to those of the reference system presenting very small errors (Shank: rms = 1.0, Thigh: rms = 1.6 degrees) and excellent correlation coefficients (Shank: r = 0.999, Thigh: r = 0.998). Technically, the proposed ambulatory system is portable, easily mountable, and can be used for long-term monitoring without hindrance to natural activities. Finally, a gait analysis tool was designed to visualize the motion data as synthetic skeletons performing the same actions as the subjects. |
| Author | Dejnabadi, H. Fua, P. Casanova, E. Jolles, B.M. Aminian, K. |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/16830942$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1109/IROS.2001.976367 10.1109/10.554760 10.1016/S0021-9290(02)00008-8 10.1016/j.automatica.2003.11.002 10.1109/TNSRE.2003.822759 10.1016/0268-0033(95)00046-1 10.1137/0717021 10.1021/ac60214a047 10.1109/TBME.2005.851475 10.1016/1049-9660(91)90076-2 10.1016/S0268-0033(01)00040-7 10.1016/S1350-4533(99)00030-2 10.1007/BF02345966 10.1109/TNSRE.2004.827825 10.1016/S0021-9290(97)00001-8 10.1302/0301-620X.67B2.3980533 10.1109/TPAMI.2003.1227995 10.1016/S0531-5131(01)00063-2 10.1016/S0966-6362(97)01110-7 10.1162/pres.1992.1.2.173 10.1109/70.388775 10.1016/S0021-9290(01)00231-7 10.1016/j.medengphy.2004.04.002 10.1109/IEMBS.1996.651817 10.1109/ISWC.2000.888482 10.1016/S0924-980X(98)00053-8 10.1109/VRAIS.1996.490527 10.1016/0021-9290(73)90029-8 10.1145/325165.325242 10.1016/S0021-9290(01)00035-5 10.1016/j.gaitpost.2004.08.008 10.1109/TPAMI.1986.4767851 10.2106/00004623-196951040-00012 10.1016/S0966-6362(03)00093-6 |
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| SubjectTerms | Acceleration Accelerometer and gyroscope Accelerometers Adult Aged Algorithms ambulatory system Biomechanical Phenomena - instrumentation Biomechanical Phenomena - methods Biosensors Computer Graphics Diagnosis, Computer-Assisted - instrumentation Diagnosis, Computer-Assisted - methods Equipment Design Equipment Failure Analysis Estimating Female Gait - physiology gait analysis Gyroscopes Humans Joints Joints - physiology Kinematics Knee Limbs Lower Extremity - physiology Male Mathematical models Middle Aged Monitoring, Ambulatory - instrumentation Monitoring, Ambulatory - methods Motion measurement Orientation Orientation - physiology Range of Motion, Articular - physiology Sensors Software Thigh Transducers User-Computer Interface Visualization |
| Title | Estimation and visualization of sagittal kinematics of lower limbs orientation using body-fixed sensors |
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