1 July 2009 Real-time photon beam localization methods using high-resolution imagers and parallel processing using a reconfigurable system
Peter F. I. Scott, Anton S. Kachatkou, Nicholas R. C. Kyele, Roelof G. Van Silfhout
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Abstract
We report on a high-precision, real-time photon beam localization and characterization instrument. The device uses a 2-D (image) sensor coupled to a hardware image processing system. The system uses two different algorithms that both run in parallel on field programmable gate array logic using data from a single active pixel array sensor. The first algorithm mimics the ubiquitous quadrant photodiode design that features high precision but has limited range and requires calibration cycles. The second algorithm calculates the location of the center of gravity. We compare the merits of both methods by measuring the displacement of a light beam. It is shown that the center of gravity (or centroid) method offers the advantage of large dynamic range with excellent linearity. By the method of operating on identical image data captured from these experiments, we aim to investigate both algorithms and compare their performance.
©(2009) Society of Photo-Optical Instrumentation Engineers (SPIE)
Peter F. I. Scott, Anton S. Kachatkou, Nicholas R. C. Kyele, and Roelof G. Van Silfhout "Real-time photon beam localization methods using high-resolution imagers and parallel processing using a reconfigurable system," Optical Engineering 48(7), 073601 (1 July 2009). https://doi.org/10.1117/1.3158957
Published: 1 July 2009
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CITATIONS
Cited by 10 scholarly publications and 3 patents.
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KEYWORDS
Imaging systems

Image processing

Sensors

Light emitting diodes

Field programmable gate arrays

Calibration

Cameras

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