UCLA researchers in the Department of Electrical Engineering have developed a color calibration method for lens-free and mobile-phone microscopy images allowing for high resolution and accurate color reproduction.
Lens-free holographic microscopy can achieve wide-field imaging of samples in a cost-effective and portable setup, making it a promising technique for point-of-care and telepathology applications. However, due to relatively narrow-band sources used in holographic microscopy, conventional colorization methods that use images reconstructed at discrete wavelengths, corresponding to, red (R), green (G) and blue (B) channels, yield color artifacts and are not truly colorimetric (e.g. non-linear color matching functions). A technology that bridges the benefits of holographic microscopy with true color representation (as seen in light microscopy) would revolutionize large field of view imaging for a variety of applications.
UCLA researchers led by Prof. Aydogan Ozcan have developed a new method to generate high resolution color correct images for lens-free and mobile-phone holographic microscopy imaging. This method combines the wide field of view and high resolution advantages of lens-free holographic microscopy with accurate color reproduction, generating images that match the chromatic perception of human vision. The technology merges pixel super-resolution and the color de-multiplexing process to significantly suppress the artifacts in wavelength multiplexed holographic color imaging.
Holographic imaging, color correction, lens free imaging, lens free, wide field of view imaging, imaging, pathology, on-chip microscopy, on-chip imaging