Shigeru Tadano scite author profile

This paper proposes a method for three dimensional gait analysis using wearable sensors and quaternion calculations. Seven sensor units consisting of a tri-axial acceleration and gyro sensors, were fixed to the lower limbs. The acceleration and angular velocity data of each sensor unit were measured during level walking. The initial orientations of the sensor units were estimated using acceleration data during upright standing position and the angular displacements were estimated afterwards using angular velocity data during gait. Here, an algorithm based on quaternion calculation was implemented for orientation estimation of the sensor units. The orientations of the sensor units were converted to the orientations of the body segments by a rotation matrix obtained from a calibration trial. Body segment orientations were then used for constructing a three dimensional wire frame animation of the volunteers during the gait. Gait analysis was conducted on five volunteers, and results were compared with those from a camera-based motion analysis system. Comparisons were made for the joint trajectory in the horizontal and sagittal plane. The average RMSE and correlation coefficient (CC) were 10.14 deg and 0.98, 7.88 deg and 0.97, 9.75 deg and 0.78 for the hip, knee and ankle flexion angles, respectively.

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Gait posture estimation using wearable acceleration and gyro sensors

Takeda

Tadano

Natorigawa

et al. 2009

Journal of Biomechanics

152

117

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A method for gait analysis using wearable acceleration sensors and gyro sensors is proposed in this work. The volunteers wore sensor units that included a tri-axis acceleration sensor and three single axis gyro sensors. The angular velocity data measured by the gyro sensors were used to estimate the translational acceleration in the gait analysis. The translational acceleration was then subtracted from the acceleration sensor measurements to obtain the gravitational acceleration, giving the orientation of the lower limb segments. Segment orientation along with body measurements were used to obtain the positions of hip, knee, and ankle joints to create stick figure models of the volunteers. This method can measure the three dimensional positions of joint centers of the hip, knee, and ankle during movement. Experiments were carried out on the normal gait of three healthy volunteers. As a result, the flexion-extension (F-E) and the adduction-abduction (A-A) joint angles of the hips and the flexion-extension (F-E) joint angles of the knees were calculated and compared with a camera motion capture system. The correlation coefficients were above 0.88 for the hip F-E, higher than 0.721 for the hip A-A, better than 0.924 for the knee F-E. A moving stick figure model of each volunteer was created to visually confirm the walking posture. Further, the knee and ankle joint trajectories in the horizontal plane showed that the left and right legs were

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Wearable Inertial Sensors to Assess Standing Balance: A Systematic Review

Ghislieri

Gastaldi

Pastorelli

et al. 2019

Sensors

126

107

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Wearable sensors are de facto revolutionizing the assessment of standing balance. The aim of this work is to review the state-of-the-art literature that adopts this new posturographic paradigm, i.e., to analyse human postural sway through inertial sensors directly worn on the subject body. After a systematic search on PubMed and Scopus databases, two raters evaluated the quality of 73 full-text articles, selecting 47 high-quality contributions. A good inter-rater reliability was obtained (Cohen’s kappa = 0.79). This selection of papers was used to summarize the available knowledge on the types of sensors used and their positioning, the data acquisition protocols and the main applications in this field (e.g., “active aging”, biofeedback-based rehabilitation for fall prevention, and the management of Parkinson’s disease and other balance-related pathologies), as well as the most adopted outcome measures. A critical discussion on the validation of wearable systems against gold standards is also presented.

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Chondroprotective effects of high-molecular-weight cross-linked hyaluronic acid in a rabbit knee osteoarthritis model

Elmorsy

Funakoshi

Sasazawa

et al. 2014

Osteoarthritis and Cartilage

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Gait characterization for osteoarthritis patients using wearable gait sensors (H-Gait systems)

Tadano

Takeda

Sasaki

et al. 2016

Journal of Biomechanics

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Effects of Degeneration on the Elastic Modulus Distribution in the Lumbar Intervertebral Disc

Umehara

Tadano²,

Abumi³

et al. 1996

Spine

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Long-Term Stress Distribution Patterns Across the Elbow Joint in Baseball Players Assessed by Computed Tomography Osteoabsorptiometry

et al. 2010

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The results indicate that actual stress across the elbow is concentrated in the posterior part of the trochlea in humans. Baseball pitching may produce excessive or repetitive stress against not only this part, but also the anterior part of the capitellum. The majority of osteochondritis dissecans lesions affecting the elbow are found in the anterior part of the capitellum in throwing athletes. The results may support an important role of mechanical conditions in the cause of elbow osteochondritis dissecans.

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Influence of Disc Degeneration on Mechanism of Thoracolumbar Burst Fractures

Shirado

Kaneda²,

Tadano³

et al. 1992

Spine

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Shigeru Tadano

Three Dimensional Gait Analysis Using Wearable Acceleration and Gyro Sensors Based on Quaternion Calculations

Gait posture estimation using wearable acceleration and gyro sensors

Wearable Inertial Sensors to Assess Standing Balance: A Systematic Review

Chondroprotective effects of high-molecular-weight cross-linked hyaluronic acid in a rabbit knee osteoarthritis model

Gait characterization for osteoarthritis patients using wearable gait sensors (H-Gait systems)

Effects of Degeneration on the Elastic Modulus Distribution in the Lumbar Intervertebral Disc

Long-Term Stress Distribution Patterns Across the Elbow Joint in Baseball Players Assessed by Computed Tomography Osteoabsorptiometry

Influence of Disc Degeneration on Mechanism of Thoracolumbar Burst Fractures

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