Publikationen

Explainability of the Implications of Supervised and Unsupervised Face Image Quality Estimations through Activation Map Variation Analyses in Face Recognition Models

AutorFu, Biying; Damer, Naser
Datum2022
ArtConference Paper
AbstraktIt is challenging to derive explainability for unsupervised or statistical-based face image quality assessment (FIQA) methods. In this work, we propose a novel set of explainability tools to derive reasoning for different FIQA decisions and their face recognition (FR) performance implications. We avoid limiting the deployment of our tools to certain FIQA methods by basing our analyses on the behavior of FR models when processing samples with different FIQA decisions. This leads to explainability tools that can be applied for any FIQA method with any CNN-based FR solution using activation mapping to exhibit the network’s activation derived from the face embedding. To avoid the low discrimination between the general spatial activation mapping of low and high-quality images in FR models, we build our explainability tools in a higher derivative space by analyzing the variation of the FR activation maps of image sets with different quality decisions. We demonstrate our tools and analyze the findings on four FIQA methods, by presenting inter and intra-FIQA method analyses. Our proposed tools and the analyses based on them point out, among other conclusions, that high-quality images typically cause consistent low activation on the areas outside of the central face region, while low-quality images, despite general low activation, have high variations of activation in such areas. Our explainability tools also extend to analyzing single images where we show that low-quality images tend to have an FR model spatial activation that strongly differs from what is expected from a high-quality image where this difference also tends to appear more in areas outside of the central face region and does correspond to issues like extreme poses and facial occlusions. The implementation of the proposed tools is accessible here 1 . 1 https://github.com/fbiying87/Explainable FIQA WITH AMVA
KonferenzWinter Conference on Applications of Computer Vision (WACV) <22, 2022, Waikoloa/Hawaii; Online>
ReferenzInstitute of Electrical and Electronics Engineers -IEEE-: IEEE Winter Conference on Applications of Computer Vision Workshops, WACVW 2022. Proceedings: 4-8 January 2022, Waikoloa, Hawaii. Los Alamitos, Calif.: IEEE Computer Society Conference Publishing Services (CPS), 2022, pp. 349-358
SchlüsselISBN : 9781665458252