Hamed Ziaeipoor scite author profile

Multivariate Linear Regression-based (MLR) surrogate models were explored to reduce the computational cost of predicting femoral strains during normal activity in comparison with finite element analysis. The musculoskeletal model of one individual, the finite-element model of the right femur, and experimental force and motion data for normal walking, fast walking, stair ascent, stair descent, and rising from a chair were obtained from a previous study. Equivalent Von Mises strain was calculated for 1000 frames uniformly distributed across activities. MLR surrogate models were generated using training sets of 50, 100, 200 and 300 samples. The finite-element and MLR analyses were compared using linear regression. The Root Mean Square Error (RMSE) and the 95 th percentile of the strain error distribution were used as indicators of average and peak error. The MLR model trained using 200 samples (RMSE < 108 µε; peak error < 228 µε) was used as a reference. The finiteelement method required 66 secs per frame on a standard desktop computer. The MLR model required 0.1 sec per frame plus 1848 secs of training time. RMSE ranged from 1.2% to 1.3% while peak error ranged from 2.2% to 3.6% of the maximum micro-strain (5020 με). Performance within an activity was lower during early and late stance, with RMSE of 4.1% and peak error of 8.6% of the maximum computed micro-strain. These results show that MLR surrogate models may be used to rapidly and accurately estimate strain fields in long bones during daily physical activity.

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Population-Based Bone Strain During Physical Activity: A Novel Method Demonstrated for the Human Femur

Ziaeipoor

Taylor

Martelli

2020

Ann Biomed Eng

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A study on the electro-hydraulic clinching of aluminum and carbon fiber reinforced plastic sheets

Menghari

Babalo

Fazli

et al. 2020

International Journal of Lightweight Materials and Manufacture

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Hamed Ziaeipoor

A novel training-free method for real-time prediction of femoral strain

Efficacy and efficiency of multivariate linear regression for rapid prediction of femoral strain fields during activity

Population-Based Bone Strain During Physical Activity: A Novel Method Demonstrated for the Human Femur

A study on the electro-hydraulic clinching of aluminum and carbon fiber reinforced plastic sheets

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