2017
DOI: 10.1186/s12938-017-0347-6
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Inertial measurement systems for segments and joints kinematics assessment: towards an understanding of the variations in sensors accuracy

Abstract: BackgroundJoints kinematics assessment based on inertial measurement systems, which include attitude and heading reference system (AHRS), are quickly gaining in popularity for research and clinical applications. The variety of the tasks and contexts they are used in require a deep understanding of the AHRS accuracy for optimal data interpretation. However, published accuracy studies on AHRS are mostly limited to a single task measured on a limited number of segments and participants. This study assessed AHRS s… Show more

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Cited by 52 publications
(59 citation statements)
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References 47 publications
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“…As the magnetometer was not used in the AHRS algorithm, the DRIFT was controlled to be acceptable (mean of 2.3 • ) for such short experiments. The drift was slightly higher in the more distal joints, probably due to the higher speed of the movements [26,27]. The drift was slightly lower in the sagittal plane, probably because the drift in this plane was better compensated by the sensor fusion algorithm.…”
Section: Accuracy Of Different Calibration Methods During Straight Wamentioning
confidence: 96%
“…As the magnetometer was not used in the AHRS algorithm, the DRIFT was controlled to be acceptable (mean of 2.3 • ) for such short experiments. The drift was slightly higher in the more distal joints, probably due to the higher speed of the movements [26,27]. The drift was slightly lower in the sagittal plane, probably because the drift in this plane was better compensated by the sensor fusion algorithm.…”
Section: Accuracy Of Different Calibration Methods During Straight Wamentioning
confidence: 96%
“…A common way is to place the devices over the bones and not over the muscles to reduce soft tissue artifact [58]. Additionally, using bundles and straps and having care in positioning the bundles can minimize soft tissue artifact [57].…”
Section: Soft Tissue Artifactmentioning
confidence: 99%
“…Additionally, STA also occurs in optoelectronic systems when placing markers to the subject's segments. This needs to be taken into consideration since optoelectronic systems are often used to validate wearable sensor measurements [22,57,58,61,62]. Few ways to minimize this issue is by having the marker within the field of view of at least two cameras, markers attached to the same segment should be distributed to minimize position error propagation to bone orientation, and the movement between underlying bones and the markers should be minimal [93][94][95][96][97].…”
Section: Soft Tissue Artifactmentioning
confidence: 99%
“…Algorithms derived from navigation applications are adapted to infer the orientation of the body segment of interest and include the Kalman Filter (KF), its extended and unscented variations, and also several implementations of Complementary Filters (CF) [81][82][83][84]. Moreover, IMU sensor data can be exploited to analyze various features of human motion and dedicated algorithms have been developed for tasks such as activity recognition [85], exercise recognition and evaluation [86,87], gait analysis [63,88,89] and jump analysis [90,91].…”
Section: Inertial-based Motion Capturementioning
confidence: 99%
“…Most of the previous validation studies used commercial solutions to obtain the orientation of the wearable sensors, which are used to estimate the orientation of the body segment they are attached to. Their outputs are then combined to form a partial or complete body pose estimation, based on the number of sensors in use [9,[59][60][61][62][63][64]. While there are several proposals for algorithms for the estimation of orientation from inertial sensors' data, the present work analyzes the most used ones, to provide a comparative analysis targeting robust and well-established solutions.…”
Section: Inertial Sensingmentioning
confidence: 99%