Davide Belli scite author profile

Generative adversarial networks have been successfully applied to inpainting in natural images. However, the current state-of-the-art models have not yet been widely adopted in the medical imaging domain. In this paper, we investigate the performance of three recently published deep learning based inpainting models: context encoders, semantic image inpainting, and the contextual attention model, applied to chest x-rays, as the chest exam is the most commonly performed radiological procedure. We train these generative models on 1.2M 128 × 128 patches from 60K healthy x-rays, and learn to predict the center 64 × 64 region in each patch. We test the models on both the healthy and abnormal radiographs. We evaluate the results by visual inspection and comparing the PSNR scores. The outputs of the models are in most cases highly realistic. We show that the methods have potential to enhance and detect abnormalities. In addition, we perform a 2AFC observer study and show that an experienced human observer performs poorly in detecting inpainted regions, particularly those generated by the contextual attention model.

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Adding Object Detection Skills to Visual Dialogue Agents

Bani

Belli

Dagan

et al. 2019

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Our goal is to equip a dialogue agent that asks questions about a visual scene with object detection skills. We take the first steps in this direction within the GuessWhat?! game. We use Mask R-CNN object features as a replacement for ground-truth annotations in the Guesser module, achieving an accuracy of 57.92%. This proves that our system is a viable alternative to the original Guesser, which achieves an accuracy of 62.77% using ground-truth annotations, and thus should be considered an upper bound for our automated system. Crucially, we show that our system exploits the Mask R-CNN object features, in contrast to the original Guesser augmented with global, VGG features. Furthermore, by automating the object detection in GuessWhat?!, we open up a spectrum of opportunities, such as playing the game with new, non-annotated images and using the more granular visual features to condition the other modules of the game architecture.

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Online Adaptive Personalization for Face Anti-Spoofing

Belli

Das

Major

et al. 2022

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Face authentication systems require a robust anti-spoofing module as they can be deceived by fabricating spoof images of authorized users. Most recent face anti-spoofing methods rely on optimized architectures and training objectives to alleviate the distribution shift between train and test users. However, in real online scenarios, past data from a user contains valuable information that could be used to alleviate the distribution shift. We thus introduce OAP (Online Adaptive Personalization): a lightweight solution which can adapt the model online using unlabeled data. OAP can be applied on top of most anti-spoofing methods without the need to store original biometric images. Through experimental evaluation on the SiW dataset, we show that OAP improves recognition performance of existing methods on both single video setting and continual setting, where spoof videos are interleaved with live ones to simulate spoofing attacks. We also conduct ablation studies to confirm the design choices for our solution.

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Online Adaptive Personalization for Face Anti-spoofing

Belli¹,

Das²,

Major³

et al. 2022

Preprint

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Davide Belli

A Personalized Benchmark for Face Anti-spoofing

Chest X-ray Inpainting with Deep Generative Models

Adding Object Detection Skills to Visual Dialogue Agents

Online Adaptive Personalization for Face Anti-Spoofing

Online Adaptive Personalization for Face Anti-spoofing

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