Optical encryption based on double random-phase encoding: secure versus unsecure variants
Applied Optics, 2020•opg.optica.org
A smart brute-force double random-phase encoding attack is presented that takes
advantage of an unreported vulnerability: the smoothness of mean squared error (MSE) and
correlation coefficient (CC) curves in a key-sensitivity analysis. The vulnerability reported
here is made visible in a key-sensitivity analysis. It is shown that a modular arithmetic pre-
coding provides significant robustness against this form of attack because the pre-coding
creates a highly nonlinear, highly oscillatory MSE and CC curve in the key space …
advantage of an unreported vulnerability: the smoothness of mean squared error (MSE) and
correlation coefficient (CC) curves in a key-sensitivity analysis. The vulnerability reported
here is made visible in a key-sensitivity analysis. It is shown that a modular arithmetic pre-
coding provides significant robustness against this form of attack because the pre-coding
creates a highly nonlinear, highly oscillatory MSE and CC curve in the key space …
A smart brute-force double random-phase encoding attack is presented that takes advantage of an unreported vulnerability: the smoothness of mean squared error (MSE) and correlation coefficient (CC) curves in a key-sensitivity analysis. The vulnerability reported here is made visible in a key-sensitivity analysis. It is shown that a modular arithmetic pre-coding provides significant robustness against this form of attack because the pre-coding creates a highly nonlinear, highly oscillatory MSE and CC curve in the key space. Knowledge of this new vulnerability and how to prevent this in the first place provides a better understanding of the robustness of various double random-phase encoding designs.
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