Student PhD Dissertations

  1. J. Crutison, Understanding Shear Wave Propagation in Loaded Muscle Architecture: Refining Elastography Through Finite Element Analysis, University of Illinois Chicago, 2022.
  2. H. Palnitkar, Novel Perspectives in Non-Invasive Diagnosis of Ailments through Analysis of Mechanical Wave Motion, University of Illinois Chicago, 2021.
  3. M. Sun (co-advisor), Evaluation of Corneal Biomechanics using Silk Biomaterials and Optical Coherence Elastography, University of Illinois Chicago, 2021.
  4. M. Guidetti, Understanding Mechanical Wave Propagation in Anisotropic Samples through Magnetic Resonance Elastography, University of Illinois at Chicago, 2020.
  5. J. Anton, Vibration Isolation of Sensitive Equipment Using Cohesionless Soil, University of Illinois at Chicago, 2018.
  6. A. Khan, Multi Modal Fingertip Elastography and Reconstruction Methods, University of Illinois at Chicago, 2018.
  7. V. Suryadevara (co-advisor), Role of phospholipaseD in idiopathic pulmonary fibrosis and FTIR imaging to detect fibrogenesis, University of Illinois at Chicago, 2018.
  8. B. Henry, The Audible Human Project: Geometric and Acoustic Modeling in the Airways, Lungs and Torso, University of Illinois at Chicago, 2017.
  9. S. Kearney, Advances in Elastography Using Geometrically Focused Actuation, University of Illinois at Chicago, 2015.
  10. Y. Liu, High Resolution Magnetic Resonance Elastography: From Phantoms To Mouse Heart, University of Illinois at Chicago, 2015.
  11. Y. Peng, Development & Experimental Validation of Finite Element Simulation of Sound Transmission in Lungs & Torso, University of Illinois at Chicago, 2015.
  12. T. K. Yasar, Optimal Pulse Sequences for Magnetic Resonance Elastography, University of Illinois at Chicago, 2014. http://indigo.uic.edu/handle/10027/18967
  13. Z. Dai, The Audible Human Project: Modeling Sound Transmission in the Lungs and Torso, University of Illinois at Chicago, 2013.
  14. F. Meral, Advancing MR-Based Elastography Through Improved Instrumentation, Resolution, and Materials Modeling, University of Illinois at Chicago, 2010.
  15. C. Preissner, A High-fidelity Harmonic Drive Model: Experiment, Simulation, and Application, University of Illinois at Chicago, 2009.
  16. S. Acikgoz, New Paradigms in Pulmonary Acoustics with Application to Diagnostics, University of Illinois at Chicago, 2007.
  17. Z. K. Kusculuoglu, New Finite Element Method Techniques in Modeling Smart Structures for Vibration Control Applications, University of Illinois at Chicago, 2005.
  18. T. W. Spohnholtz, A Multimode Sonic and Ultrasonic System for Acoustic and Geometric Imaging of Vascular Structures, University of Illinois at Chicago, 2005.
  19. Y. Yazicioglu, Vibro-Acoustic Radiation from a Fluid-Filled Cylindrical Shell with Internal Turbulent Flow Due to Constriction, University of Illinois at Chicago, 2005.
  20. M. B. Ozer, New Techniques in the Design, Analysis and Optimization of Linear and Non-Linear Smart Material Systems and Structures for Sound and Vibration Control, University of Illinois at Chicago, 2004.
  21. X. Zhang, New Acoustic Paradigms in Biological Tissues With Application to Diagnosis of Pulmonary Disorders, University of Illinois at Chicago, 2002.
  22. S. -H. Lee, Understanding and Finessing Nonlinearity in Electro-Mechanical Actuators Used for Intelligent Vibration Control, University of Illinois at Chicago, 2000.
  23. I. Basdogan, A Theoretical and Experimental Study of the Dynamic Response of High Precision Optical Positioning Systems, University of Illinois at Chicago, 1997.