Sarit Shwartz scite author profile

Differential entropy is a quantity used in many signal processing problems. Often we need to calculate not only the entropy itself, but also its gradient with respect to various variables, for efficient optimization, sensitivity analysis, etc. Entropy estimation can be based on an estimate of the probability density function, which is computationally costly if done naively. Some prior algorithms use computationally efficient non-parametric entropy estimators. However, differentiation of the previously proposed estimators is difficult and may even be undefined. To counter these obstacles, we consider non-parametric kernel entropy estimation that is differentiable. We present two different accelerated kernel algorithms. The first accelerates the entropy gradient calculation based on a back propagation principle. It allows calculating the differential entropy gradient in the same complexity as that of calculating the entropy itself. The second algorithm accelerates the estimation of both entropy and its gradient by using fast convolution over a uniform grid. As an example, we apply both algorithms to blind source separation.

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Sarit Shwartz

Blind Haze Separation

Clinical results of a novel wide beam reconstruction method for shortening scan time of Tc-99m cardiac SPECT perfusion studies

Ordered subset expectation maximization and wide beam reconstruction “half-time” gated myocardial perfusion SPECT functional imaging: A comparison to “full-time” filtered backprojection

Fast kernel entropy estimation and optimization

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