Fintite Element Analysis

The Finite Element Method (FEM) is a computational technique for simulating and analyzing biomechanical structures under various conditions. Our research applies FEM to model human tissues, predict stress distribution in footwear and orthotics, and optimize designs for improved biomechanical performance and injury prevention.

On Going Works

Development of Foot Diagnosis and Shoe Manufacturing Technology for Disabled

Creation of a quantitative model for foot deformity diagnosis using 3D foot scanning and X-ray imaging.
Predicting foot deformations using Finite Element Analysis (FEM) based on material properties obtained from an indenter.

Related Publications

Assessment of finite element models for prediction of osteoporotic fracture

Yeokyeong Lee, Naomichi Ogihara, Taeyong Lee

Heel pad becomes rapidly stiffer to dissipate the energy: finite element analysis

Jaeyeon Wee, Taeyong Lee

Gaussian process regression-driven deep drawing blank design method

Seungro Lee, Youngbin Lim, Lander Galdos, Taeyong Lee, Luca Quagliato

On improving sheet metal formability in hydrodynamic deep drawing process through a solid oil type mineral grease pressure medium

Vahid Modanloo, Behnam Akhoundi, Taeyong Lee, Luca Quagliato

Page updated

Report abuse