Neural Estimators for Conditional Mutual Information Using Nearest Neighbors Sampling

The estimation of mutual information (MI) or conditional mutual information (CMI) from a set of samples is a longstanding problem. A recent line of work in this area has leveraged the approximation power of artificial neural networks and has shown improvements over conventional methods. One importan...

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Bibliographic Details
Published in:IEEE transactions on signal processing 2021, Vol.69, p.766-780
Main Authors: Molavipour, Sina, Bassi, German, Skoglund, Mikael
Format: Article
Language:English
Subjects:
Artificial neural networks
Channel estimation
Codes
Conditional mutual information
Confidence
Density functional theory
Estimation
Estimators
Mutual information
Nearest neighbor methods
nearest neighbors
Neural networks
Random variables
Resampling
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Summary:The estimation of mutual information (MI) or conditional mutual information (CMI) from a set of samples is a longstanding problem. A recent line of work in this area has leveraged the approximation power of artificial neural networks and has shown improvements over conventional methods. One important challenge in this new approach is the need to obtain, given the original dataset, a different set where the samples are distributed according to a specific product density function. This is particularly challenging when estimating CMI. In this paper, we introduce a new technique, based on k nearest neighbors (k-NN), to perform the resampling and derive high-confidence concentration bounds for the sample average. Then the technique is employed to train a neural network classifier and the CMI is estimated accordingly. We propose three estimators using this technique and prove their consistency, make a comparison between them and similar approaches in the literature, and experimentally show improvements in estimating the CMI in terms of accuracy and variance of the estimators.
ISSN:1053-587X
1941-0476
1941-0476
DOI:10.1109/TSP.2021.3050564