Matej Vitek scite author profile

In this chapter, we address the problem of biometric identity recognition from the vasculature of the human sclera. Specifically, we focus on the challenging task of multi-view sclera recognition, where the visible part of the sclera vasculature changes from image to image due to varying gaze (or view) directions. We propose a complete solution for this task built around Convolutional Neural Networks (CNNs) and make several contributions that result in state-of-the-art recognition performance, i.e.: (i) we develop a cascaded CNN assembly that is able to robustly segment the sclera vasculature from the input images regardless of gaze direction, and (ii) we present ScleraNET, a CNN model trained in a multi-task manner (combining losses pertaining to identity and view-direction recognition) that allows for the extraction of discriminative vasculature descriptors that can be used for identity inference. To evaluate the proposed contributions, we also introduce a new dataset of ocular images, called the Sclera Blood Vessels, Periocular and Iris (SBVPI) dataset, which represents one of the few publicly available datasets suitable for research in multi-view sclera segmentation and recognition. The datasets come with a rich P. Rot and M. Vitek are first authors with equal contributions.

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A comprehensive investigation into sclera biometrics: a novel dataset and performance study

Vitek

Rot

Peer

2020

Neural Comput & Applic

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SSBC 2020: Sclera Segmentation Benchmarking Competition in the Mobile Environment

Vitek

Das

Pourcenoux

et al. 2020

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NIR Iris Challenge Evaluation in Non-cooperative Environments: Segmentation and Localization

Wang

Wang²,

Zhang³

et al. 2021

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Deep Iris Feature Extraction

Hafner

Peer

Emeršič

et al. 2021

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Matej Vitek

Deep Sclera Segmentation and Recognition

A comprehensive investigation into sclera biometrics: a novel dataset and performance study

SSBC 2020: Sclera Segmentation Benchmarking Competition in the Mobile Environment

NIR Iris Challenge Evaluation in Non-cooperative Environments: Segmentation and Localization

Deep Iris Feature Extraction

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