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10 September 2005 Nonuniform quantization for compression of encrypted digital holograms
Alison E. Shortt, Thomas J. Naughton, Bahram Javidi
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Proceedings Volume 5908, Optical Information Systems III; 59081I (2005) https://doi.org/10.1117/12.618350
Event: Optics and Photonics 2005, 2005, San Diego, California, United States
Abstract
Compression and encryption/decryption are necessary for secure and effcient storage and transmission of image data. We present an optical encryption technique that takes advantage of both the massive parallelism inherent in optical systems and the flexibility offered by digital electronics. The encryption is performed using a phase mask and Fresnel propagation. We nonuniformly quantize the complex-valued encrypted hologram pixels using an artificial neural network. The in-line digital holograms of three-dimensional objects were created using phase-shift interferometry. With our lossy data compression technique we achieved good quality decryption and reconstruction from objects with a compression ratio of 32.
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Alison E. Shortt, Thomas J. Naughton, and Bahram Javidi "Nonuniform quantization for compression of encrypted digital holograms", Proc. SPIE 5908, Optical Information Systems III, 59081I (10 September 2005); https://doi.org/10.1117/12.618350
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KEYWORDS
Digital holography
Holograms
Quantization
Image compression
Neurons
Neural networks
Image encryption
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