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Article

Standardized spectral and radiometric calibration of consumer cameras

Details

Citation

Burggraaff O, Schmidt N, Zamorano J, Pauly K, Pascual S, Tapia C, Spyrakos E & Snik F (2019) Standardized spectral and radiometric calibration of consumer cameras. Optics Express, 27 (14), pp. 19075-19101. https://doi.org/10.1364/OE.27.019075

Abstract
Consumer cameras, particularly onboard smartphones and UAVs, are now commonly used as scientific instruments. However, their data processing pipelines are not optimized for quantitative radiometry and their calibration is more complex than that of scientific cameras. The lack of a standardized calibration methodology limits the interoperability between devices and, in the ever-changing market, ultimately the lifespan of projects using them. We present a standardized methodology and database (SPECTACLE) for spectral and radiometric calibrations of consumer cameras, including linearity, bias variations, read-out noise, dark current, ISO speed and gain, flat-field, and RGB spectral response. This includes golden standard ground-truth methods and do-it-yourself methods suitable for non-experts. Applying this methodology to seven popular cameras, we found high linearity in RAW but not JPEG data, inter-pixel gain variations >400% correlated with large-scale bias and read-out noise patterns, non-trivial ISO speed normalization functions, flat-field correction factors varying by up to 2.79 over the field of view, and both similarities and differences in spectral response. Moreover, these results differed wildly between camera models, highlighting the importance of standardization and a centralized database.

Journal
Optics Express: Volume 27, Issue 14

StatusPublished
Funders
Publication date24/06/2019
Publication date online24/06/2019
Date accepted by journal27/05/2019
URL
eISSN1094-4087

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Professor Evangelos Spyrakos

Professor Evangelos Spyrakos

Professor, Biological and Environmental Sciences

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