Reihaneh Ravari scite author profile

Reihaneh Ravari

5Publications

0Citation Statements Received

35Citation Statements Given

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Affiliations

University of Alberta, Islamic Azad University, Mashhad

Publications

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Identifying the Dynamics of Leg Muscle Activation During Human Gait Using Neural Oscillator and Fuzzy Compensator

Ravari

Kobravi

2018

Int Clin Neurosci J

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Background: The goal of this study is to design a model in order to predict the muscle activation pattern because the muscle activation patterns contain valuable information about the muscle dynamics and movement patterns. Therefore, the goal of the presentation of this neural model is to identify the desired muscle activation patterns by Hopf chaotic oscillator during walking. Since the knee muscles activation has a significant effect on the movement pattern during walking, the main concentration of this study is to identify the knee muscles activation dynamics using a modeling technique. Methods: The electromyography (EMG) recording obtained from 5 healthy subjects that electrodes positioned on the tibialis-anterior (TA) and rectus femoris muscles on every 2 feet. In the proposed model, along with the chaotic oscillator, a fuzzy compensator was designed to face the unmolded dynamics. In fact, on the condition, the observed difference between the desired and actual activation patterns violate some specific quantitative ranges, the fuzzy compensator based on predefined rules modify the activity pattern produced by the Hopf oscillator. Results: Some quantitative measures used to evaluate the results. According to the achieved results, the proposed model could generate the trajectories, dynamics of which are similar to the muscle activation dynamics of the studied muscles. In this model, the generated activity pattern by the proposed model cannot follow the desired activity of the TA muscle as well as rectus femoris muscle. Conclusion: The similarity between the generated activity pattern by the model and the activation dynamics of Rectus- Femoris muscle was more in comparison with the similarity observed between activation pattern of Tibialis- Anterior and the pattern generated by the model. In other words, based on the recorded human data, the activation pattern of the Rectus- Femoris is more similar to a rhythmic pattern.

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Differences in angular kinematics when using thigh, implant, or medial knee markers in osseointegrated transfemoral prosthetic gait

Ravari

Lewicke

Vette

et al. 2023

Clinical Biomechanics

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Biomechanical Characteristics of Transfemoral Prosthetic Gait Before and After Osseointegration Surgery

Ravari¹,

Lewicke²,

Hebert³

2021

Preprint

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Biomechanical Characteristics of Transfemoral Prosthetic Gait: A Scoping Review Protocol

Ravari¹,

Rehani²,

Hebert³

2021

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Comparison of Biomechanical Characteristics of Gait Between Osseointegrated and Socket Prosthesis Users following Transfemoral Amputation: A Systematic Review Protocol

Ravari¹,

Rehani²,

Campbell³

et al. 2021

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Reihaneh Ravari

Identifying the Dynamics of Leg Muscle Activation During Human Gait Using Neural Oscillator and Fuzzy Compensator

Differences in angular kinematics when using thigh, implant, or medial knee markers in osseointegrated transfemoral prosthetic gait

Biomechanical Characteristics of Transfemoral Prosthetic Gait Before and After Osseointegration Surgery

Biomechanical Characteristics of Transfemoral Prosthetic Gait: A Scoping Review Protocol

Comparison of Biomechanical Characteristics of Gait Between Osseointegrated and Socket Prosthesis Users following Transfemoral Amputation: A Systematic Review Protocol

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