Manan Lalit scite author profile

Today, Convolutional Neural Networks (CNNs) are the leading method for image denoising. They are traditionally trained on pairs of images, which are often hard to obtain for practical applications. This motivates self-supervised training methods such as Noise2Void (N2V) that operate on single noisy images. Self-supervised methods are, unfortunately, not competitive with models trained on image pairs. Here, we present Probabilistic Noise2Void (PN2V), a method to train CNNs to predict per-pixel intensity distributions. Combining these with a suitable description of the noise, we obtain a complete probabilistic model for the noisy observations and true signal in every pixel. We evaluate PN2V on publicly available microscopy datasets, under a broad range of noise regimes, and achieve competitive results with respect to supervised state-of-the-art methods.

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Fully Unsupervised Probabilistic Noise2Void

Prakash

Lalit

Tomančák

et al. 2020

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EmbedSeg: Embedding-based Instance Segmentation for Biomedical Microscopy Data

Lalit

Tomančák

Jug

2022

Medical Image Analysis

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Manan Lalit

Probabilistic Noise2Void: Unsupervised Content-Aware Denoising

Fully Unsupervised Probabilistic Noise2Void

EmbedSeg: Embedding-based Instance Segmentation for Biomedical Microscopy Data

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