TY - JOUR
T1 - Performance evaluation of a two detector camera for real-time video
AU - Lochocki, Benjamin
AU - Gambín-regadera, Adrián
AU - Artal, Pablo
PY - 2016/12/20
Y1 - 2016/12/20
N2 - Single pixel imaging can be the preferred method over traditional 2D-array imaging in spectral ranges where conventional cameras are not available. However, when it comes to real-time video imaging, single pixel imaging cannot compete with the framerates of conventional cameras, especially when high-resolution images are desired. Here we evaluate the performance of an imaging approach using two detectors simultaneously. First, we present theoretical results on how low SNR affects final image quality followed by experimentally determined results. Obtained video framerates were doubled compared to state of the art systems, resulting in a framerate from 22 Hz for a 32 × 32 resolution to 0.75 Hz for a 128 × 128 resolution image. Additionally, the two detector imaging technique enables the acquisition of images with a resolution of 256 × 256 in less than 3 s.
AB - Single pixel imaging can be the preferred method over traditional 2D-array imaging in spectral ranges where conventional cameras are not available. However, when it comes to real-time video imaging, single pixel imaging cannot compete with the framerates of conventional cameras, especially when high-resolution images are desired. Here we evaluate the performance of an imaging approach using two detectors simultaneously. First, we present theoretical results on how low SNR affects final image quality followed by experimentally determined results. Obtained video framerates were doubled compared to state of the art systems, resulting in a framerate from 22 Hz for a 32 × 32 resolution to 0.75 Hz for a 128 × 128 resolution image. Additionally, the two detector imaging technique enables the acquisition of images with a resolution of 256 × 256 in less than 3 s.
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U2 - 10.1364/AO.55.010198
DO - 10.1364/AO.55.010198
M3 - Article
AN - SCOPUS:85009250474
SN - 1559-128X
VL - 55
SP - 10198
EP - 10203
JO - Applied Optics
JF - Applied Optics
IS - 36
ER -