Detecting, localizing and classifying visual traits from arbitrary viewpoints using probabilistic local feature modeling

Detecting, localizing and classifying visual traits from arbitrary viewpoints using probabilistic local feature modeling

Toews, Matthew and Arbel, Tal

Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) 2007

Abstract : We present the first framework for detecting, localizing and classifying visual traits of object classes, e.g.gender or age of human faces, from arbitrary viewpoints. We embed all three tasks in a viewpoint-invariant model derived from local scale-invariant features (e.g. SIFT), where features are probabilistically quantified in terms of their occurrence, appearance, geometry and relationship to visual traits of interest. An appearance model is first learned for the object class, after which a Bayesian classifier is trained to identify the model features indicative of visual traits. The advantage of our framework is that it can be applied and evaluated in realistic scenarios, unlike other trait classification techniques that assume data that is single-viewpoint, pre-aligned and cropped from background distraction. Experimentation on the standard color FERET database shows our approach can automatically identify the visual cues in face images linked to the trait of gender. Combined detection, localization and gender classification error rates are a) 15% over a 180-degree range of face viewpoint and b) 13% in frontal faces, lower than other reported results. © Springer-Verlag Berlin Heidelberg 2007.