Search Constraints
Search Results
Select an image to start the slideshow
Development of digital holographic vibrometry methods for determination of mechanical properties of bioengineered tissues
1 of 15
Opto-mechanical Characterization Methods to Understand Physical and Mechanical Properties of Bioengineered Tissue
2 of 15
Rapid prototyping of fiber-optic based micro-force sensors by two-photon polymerization
3 of 15
A Feasibility Study on Using Infrared- transmitting Fiber-optics for Thermal Imaging
4 of 15
Development of an Infrared Direct Viewer Based on a MEMS Focal Plane Array
5 of 15
Development of a multi-wavelength lensless digital holography system for 3D deformations and shape measurements of tympanic membranes
6 of 15
Computational and Experimental Approach for Non-destructive Testing by Laser Shearography
7 of 15
Interferometric Optical Readout System for a MEMS Infrared Imaging Detector
8 of 15
Powering of endoscopic cutting tools for minimally invasive procedures
9 of 15
Development of a High Speed, Robust System for Full Field-of-View 3D Shape Measurements
10 of 15
Development of Sound Presentation System (SPS) for Characterization of Sound Induced Displacements in Tympanic Membranes
11 of 15
Development of an Optoelectronic Holographic Platform for Otolaryngology Applications
12 of 15
Development of an optoelectronic holographic otoscope system for characterization of sound-induced displacements in tympanic membranes
13 of 15
Phase modulating interferometry with stroboscopic illumination for characterization of MEMS
14 of 15
Development of a wireless MEMS inertial system for health monitoring of structures
15 of 15