The Department of Mechanical Engineering at the University of Texas at El Paso is seeking a highly motivated and experienced graduate student as a paid research assistant (RA) in our new Ph.D. program in Biomedical Engineering for the Fall of 2013 or sooner if key applicant is found. Research will be conducted in the newly established musculoskeletal biomechanics laboratory in our new Biomedical Engineering Building.
This doctoral level RA will focus specifically on computational models of the human knee used to gain a greater understanding of joint kinematics and its implications on internal loading conditions. One of the general aims in our research laboratory is to create subject-specific computational models that quantify intersegmental kinetic differences under varying loading and kinematic knee conditions. Toward that end, we designed an experimental device in which knee specimens can be utilized to evaluate how time-varying muscle loading and ground reaction forces affect intersegmental pressures on the tibial plateau and ligament strain. The data acquired from the knee specimen experiments are then compared to model results under the same loading and kinematic conditions. We believe a validated computational FEA knee model can be used as a non-invasive resource to further the understanding and implications of knee joint geometry, muscle force contribution, ligament strain, and intersegmental force.
The selected Doctoral Student will develop a robust and validated dynamic finite element (FE) knee model, as well as co-develop a rigid body knee model. Student must have previous experience with FE models, MRI segmenting, and meshing.
Interested applicants must send (1) a cover letter clearly indicating their interest and experience, (2) a detailed CV, and (3) copies of representative publications via e-mail to the contacts below. Interested individuals do not necessarily have to have an MS in engineering. Yet, an undergraduate degree in engineering is a must.
Application process closes Jan 31, 2013
Roger V Gonzalez, PhD, PE
Director, Leadership Engineering Program
Professor, Mechanical & Biomedical Engineering
The University of Texas at El Paso
rvgonzalez@utep.edu
This doctoral level RA will focus specifically on computational models of the human knee used to gain a greater understanding of joint kinematics and its implications on internal loading conditions. One of the general aims in our research laboratory is to create subject-specific computational models that quantify intersegmental kinetic differences under varying loading and kinematic knee conditions. Toward that end, we designed an experimental device in which knee specimens can be utilized to evaluate how time-varying muscle loading and ground reaction forces affect intersegmental pressures on the tibial plateau and ligament strain. The data acquired from the knee specimen experiments are then compared to model results under the same loading and kinematic conditions. We believe a validated computational FEA knee model can be used as a non-invasive resource to further the understanding and implications of knee joint geometry, muscle force contribution, ligament strain, and intersegmental force.
The selected Doctoral Student will develop a robust and validated dynamic finite element (FE) knee model, as well as co-develop a rigid body knee model. Student must have previous experience with FE models, MRI segmenting, and meshing.
Interested applicants must send (1) a cover letter clearly indicating their interest and experience, (2) a detailed CV, and (3) copies of representative publications via e-mail to the contacts below. Interested individuals do not necessarily have to have an MS in engineering. Yet, an undergraduate degree in engineering is a must.
Application process closes Jan 31, 2013
Roger V Gonzalez, PhD, PE
Director, Leadership Engineering Program
Professor, Mechanical & Biomedical Engineering
The University of Texas at El Paso
rvgonzalez@utep.edu