A Study of clustering for the enhancement of image resolution in Dynamic Photon Emission
A Study of clustering for the enhancement of image resolution in Dynamic Photon Emission
Monday, November 11, 2019: 11:35 AM
Portland Ballrooms 254-255 (Oregon Convention Center)
Summary:
Limited spatial resolution and low signal to noise ratio are some of the main challenges in optical signal observation, especially for photon emission microscopy. As dynamic emission signals are generated in a 3D space, the use of the time dimension in addition to space enables a better localization of switching events. It can actually be used to infer information with a precision above the resolution limits of the acquired signals. Taking advantage of this property, we report on a post-acquisition processing scheme to generate emission images with a larger image resolution than the initial acquisition.
Limited spatial resolution and low signal to noise ratio are some of the main challenges in optical signal observation, especially for photon emission microscopy. As dynamic emission signals are generated in a 3D space, the use of the time dimension in addition to space enables a better localization of switching events. It can actually be used to infer information with a precision above the resolution limits of the acquired signals. Taking advantage of this property, we report on a post-acquisition processing scheme to generate emission images with a larger image resolution than the initial acquisition.