Title :
Performance benefits of sub-diffraction sized pixels in imaging sensors
Author :
Caulfield, John T. ; Curzan, J.P. ; Dhar, Nibir K.
Author_Institution :
Cyan Syst., Goleta, CA, USA
Abstract :
Infrared Focal Plane Arrays have been developed with reductions in pixel size below the Nyquist limit imposed by the optical systems Point Spread Function (PSF). These smaller sub diffraction limited pixels allows spatial oversampling of the image. We show that oversampling the PSF allows improved fidelity in imaging, resulting in sensitivity improvements due to pixel correlation, reduced false alarm rates, improved detection ranges, and an improved ability to track closely spaced objects.
Keywords :
correlation methods; focal planes; image sampling; infrared detectors; infrared imaging; light diffraction; object tracking; optical sensors; optical transfer function; sensor arrays; Nyquist limit; PSF; closely spaced object tracking; imaging sensor; infrared focal plane array; optical system; pixel correlation; point spread function; reduced false alarm rate; spatial image oversampling; subdiffraction sized pixel; Correlation; Detectors; Image resolution; Noise; Optics; Sensitivity; Focal Plane Array; Modulation Transfer Function; Noise Equivalent Irradiance; Noise Equivalent Power; Point Spread Function; Resolution; Signal Correlation; Spatial Temporal Oversampling;
Conference_Titel :
Applied Imagery Pattern Recognition Workshop (AIPR), 2014 IEEE
Conference_Location :
Washington, DC
DOI :
10.1109/AIPR.2014.7041897
