Kinematic analysis of traumatic brain injuries in boxing using finite element simulations

Fan, Xuelong

January 2016

The purpose of the thesis was to analyze and evaluate the head injuries due to a striking in a boxing match by LS-DYNA. A simplified arm model was built up and was equipped with three segments which were linked with two spherical joints. The strain-stress curves of the boxing glove foam and glove leather were measured in the Neuronic Lab in School of Technology and Health, KTH. The dimension and weight of the model was also set as adjustable to fulfill various requirements in different cases. Then a method was developed to facilitate the simulation. Finally, 39 video clips from the database were processed and the 13 cases were chosen to test the method and to perform the simulations. Additionally, the reliability of the model was assessed by comparing the outcome of the simulations with the results of the visual analysis from a previous study. The outcome showed that the model was able to restore the scenario from the videos both quantitatively and qualitatively, but it also suggest a high sensitivity of the model to the data artifacts from the video analysis. Interpretations and suggestions for the future work were also discussed.

Finite element simulation

kinematic analysis

human arm modeling

boxing

Medical Engineering

Medicinteknik

Nonlinear Feedforward-Feedback Control of an Uncertain, Time-delayed Musculoskeletal Arm Model for use in Functional Electrical Stimulation

Cooman, Peter

21 February 2014

No description available.

Biomedical Engineering

human arm

spinal cord injury

functional electrical stimulation

feedback control

time delay

Reinforcement Learning for Control of a Multi-Input, Multi-Output Model of the Human Arm

Crowder, Douglas Cale

01 September 2021

No description available.

Biomechanics

Biomedical Engineering

Engineering

reinforcement learning

functional electrical stimulation

FES, human arm

transfer learning

curriculum learning

musculoskeletal model