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General neural network approach to compressive feature extraction

Anthony Giljum, Weidi Liu, Le Li, Reed Weber, and Kevin F. Kelly

Abstract

Computer vision with a single-pixel camera is currently limited by a trade-off between reconstruction capability and image classification accuracy. If random projections are used to sample the scene, then reconstruction is possible but classification accuracy suffers, especially in cases with significant background signal. If data-driven projections are used, then classification accuracy improves and the effect of the background is diminished, but image recovery is not possible. Here, we employ a shallow neural network to nonlinearly convert from measurements acquired with random patterns to measurements acquired with data-driven patterns. The results demonstrate that this improves classification accuracy while still allowing for full reconstruction.

© 2021 Optical Society of America

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Data Availability

COIL-50 and Linnaeus-5 data sets underlying the results presented in this paper are available in Refs. [21,22]. The vehicle data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

21. S. Nene, S. Nayar, and H. Murase, “Columbia object image library (COIL-100),” Columbia University Image Library (1996), https://www1.cs.columbia.edu/CAVE/software/softlib/coil-100.php.

22. G. Chaladze and L. Kalatozishvili, “Linnaeus 5 dataset for machine learning,” chaladze.com (2017), http://chaladze.com/l5/.

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