Gait posture estimation using wearable acceleration and gyro sensors

Takeda, Ryo; Tadano, Shigeru; Natorigawa, Akiko; Todoh, Masahiro; Yoshinari, Satoshi

doi:10.1016/j.jbiomech.2009.07.016

Cited by 152 publications

(132 citation statements)

References 18 publications

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“…The Kalman filtering based measurement method stably reduced joint angle error and increased correlation coefficient almost achieving the target values, even if walking speeds or subjects were different. In the previous studies that did not require any special equipments for calibration and time-consuming set up process, the RMSE was 6.42 deg and the correlation coefficient was 0.93 for knee joint angle measurement [1], mean RMSE values were 8.72 deg and 6.79 deg and mean correlation coefficients were 0.88 and 0.92 for hip flexion/extension angle and knee joint angle, respectively [7]. It is considered that the developed system in this study achieved good accuracy considering practical application as a simple gait analysis system.…”

Section: Discussionmentioning

confidence: 93%

“…Therefore, just attaching sensors such as the method of this study is a preferable preparation for the measurement. Considering the practical sensor attachment method, RMSE smaller than 5 deg and correlation coefficient larger than 0.95 were targeted in this study based on previous works [1], [3], [6], [7]. The Kalman filtering based measurement method stably reduced joint angle error and increased correlation coefficient almost achieving the target values, even if walking speeds or subjects were different.…”

Section: Discussionmentioning

confidence: 99%

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Kalman-Filtering-Based Joint Angle Measurement with Wireless Wearable Sensor System for Simplified Gait Analysis

Saito

Watanabe

2011

IEICE Trans. Inf. & Syst.

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SUMMARYThe aim of this study is to realize a simplified gait analysis system using wearable sensors. In this paper, a joint angle measurement method using Kalman filter to correct gyroscope signals from accelerometer signals was examined in measurement of hip, knee and ankle joint angles with a wireless wearable sensor system, in which the sensors were attached on the body without exact positioning. The lower limb joint angles of three healthy subjects were measured during gait with the developed sensor system and a 3D motion measurement system in order to evaluate the measurement accuracy. Then, 10 m walking measurement was performed under different walking speeds with a healthy subject in order to find the usefulness of the system as a simplified gait analysis system. The joint angles were measured with reasonable accuracy, and the system showed joint angle changes that were similar to those shown in a previous report as walking speed changed. It would be necessary to examine the influence of sensor attachment position and method for more stable measurement, and also to study other parameters for gait evaluation.

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Section: Discussionmentioning

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Kalman-Filtering-Based Joint Angle Measurement with Wireless Wearable Sensor System for Simplified Gait Analysis

Saito

Watanabe

2011

IEICE Trans. Inf. & Syst.

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“…From these results, the movement acceleration is considered to be the cause of the error increase as target angle range increases. In this paper, parameter value to determine the gain of the Kalman filter was fixed for all sensors ( 5 10 under the static condition, and 7 10 under the dynamic condition) in analyzing the measurement data. Basically, it is better to correct measured angles with gyroscope more strongly by acceleration signal under the static condition than those under the dynamic condition in the Kalman filtering based method.…”

Section: Discussionmentioning

confidence: 99%

“…Accelerometer outputs were filtered with low-pass filter with cut off frequency of 20Hz. From the results of preliminary experiments, the parameter value of the Kalman filter under the static and dynamic conditions were determined to 5 10 , respectively. For evaluating the accuracy in angle measurement of the sensors, root mean squared error (RMSE) and correlation coefficient between measured angles and reference values were calculated.…”

Section: Experimental Methodsmentioning

confidence: 99%

A Validation Test of Measurement Method of Lower Limb Angles Based on Kalman Filter on Different Type of Inertial Sensors

Teruyama¹,

Watanabe²

2013

IJBBB

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Abstract-Lower limb joint angle measurement method based on Kalman filter was tested using commercially available inertial sensors in our previous study for a rehabilitation use. Although the angle measurement method was effective, measurement with the wireless sensors were affected by wireless communication environment. Wired and wireless inertial sensor systems were developed in our laboratory for solving the wireless communication problem. This paper aimed to examine the 2 developed sensors, since those were different from the previously used sensors in data communication system or resolution in measurement. The 2 developed sensors and 2 commercially available sensors were evaluated in measurements of inclination and joint angles of a rigid body model comparing to the results of an optical motion measurement system. The angles were measured by correcting the angles calculated from outputs of gyroscopes based on a Kalman filter using outputs of accelerometers. All of the sensors showed small RMS errors under the static and dynamic conditions. The results suggested that various inertial sensors could measure inclination and joint angles stably if angles are calculated by using the Kalman filtering based method. It would be possible to replace sensors with inexpensive or latest commercially available sensors.Index Terms-Lower limb, angle, inertial sensor, kalman filter.

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“…Using combined signals from accelerometers, gyroscopes, and magnetometers, the Kalman-based fusion algorithm has been applied to obtain dynamic orientations and positions of human body segments [8À10]. Furthermore, use of segment orientations have been proposed to visualize 3D gait from accelerometer and gyroscopic measurements in a global coordinate system [11]. In addition, a Gaussian particle filter has been used with wearable inertial sensors to evaluate the maximum angle of a walking cycle [12].…”

Section: Angle Measurementmentioning

confidence: 99%

Wearable Inertial Sensors and Their Applications

Tamura

2014

Wearable Sensors

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Gait posture estimation using wearable acceleration and gyro sensors

Cited by 152 publications

References 18 publications

Kalman-Filtering-Based Joint Angle Measurement with Wireless Wearable Sensor System for Simplified Gait Analysis

Kalman-Filtering-Based Joint Angle Measurement with Wireless Wearable Sensor System for Simplified Gait Analysis

A Validation Test of Measurement Method of Lower Limb Angles Based on Kalman Filter on Different Type of Inertial Sensors

Wearable Inertial Sensors and Their Applications

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