Athena Jalalian
Cited by
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Computational biomechanical modeling of scoliotic spine: challenges and opportunities
A Jalalian, I Gibson, EH Tay
Spine Deformity 1 (6), 401-411, 2013
Finding line of action of the force exerted on erect spine based on lateral bending test in personalization of scoliotic spine models
A Jalalian, FEH Tay, S Arastehfar, I Gibson, G Liu
Medical & biological engineering & computing 55 (4), 673-684, 2017
An enhanced median filter for removing noise from MR images
S Arastehfar, AA Pouyan, A Jalalian
Journal of Artificial Intelligence & Data Mining 1 (1), 13-17, 2013
A relationship between sweep angle of flapping pectoral fins and thrust generation
S Arastehfar, CM Chew, A Jalalian, G Gunawan, KS Yeo
Journal of mechanisms and robotics 11 (1), 011014, 2019
A patient-specific multibody kinematic model for representation of the scoliotic spine movement in frontal plane of the human body
A Jalalian, FEH Tay, S Arastehfar, G Liu
Multibody system dynamics 39 (3), 197-220, 2017
A new method to approximate load–displacement relationships of spinal motion segments for patient-specific multi-body models of scoliotic spine
A Jalalian, FEH Tay, S Arastehfar, G Liu
Medical & biological engineering & computing 55 (6), 1039-1050, 2017
Data mining in medicine: relationship of scoliotic spine curvature to the movement sequence of lateral bending positions
A Jalalian, FEH Tay, G Liu
Industrial conference on data mining, 29-40, 2016
An automatic visual inspection method based on statistical approach for defect detection of ship hull surfaces
A Jalalian, WF Lu, FS Wong, SM Ahmed, CM Chew
2018 IEEE 14th International Conference on Automation Science and …, 2018
A Review of Computer Simulation of Spine Biomechanics for the Treatment of Scoliosis
A Jalalian, I Gibson, G Tay, E.H. Francis, Liu
The 5th TSME International Conference on Mechanical Engineering, 2014
A patient-specific multibody model of scoliotic spine for surgical correction prediction in the coronal plane
A Jalalian
PQDT-Global, 2016
Mining Motion Data of Scoliotic Spine in the Coronal Plane to Predict the Spine in Lateral Bending Positions
A Jalalian, G Tay, E.H. Francis, Liu
Transactions on Machine Learning and Data Mining 10 (1), 25-39, 2017
How Can Biomechanical Multibody Models of Scoliosis Be Accurate in Simulating Spine Movement Behavior While Neglecting the Changes of Spinal Length?
A Jalalian, S Arastehfar, I Gibson, FEH Tay, G Liu
Journal of Biomechanical Engineering 143 (8), 2021
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