Reconstructing High-Resolution Face Models from Kinect Depth Sequences

Performing face recognition across 3D scans with different resolution is now attracting an increasing interest thanks to the introduction of a new generation of depth cameras, capable of acquiring color/depth images over time. In fact, these devices acquire and provide depth data with much lower resolution compared to the 3D high-resolution scanners typically used for face recognition applications. If data are acquired without user cooperation, the problem is even more challenging and the gap of resolution between probe and gallery scans can yield to a severe loss in terms of recognition accuracy. Based on these premises, we propose a method to build a higher-resolution 3D face model from 3D data acquired by a low-resolution scanner. This face model is built using data acquired when a person passes in front of the scanner, without assuming any particular cooperation. 3D data are registered and filtered by combining a model of the expected distribution of the acquisition error with a variant of the lowess method to remove outliers and build the final face model. The proposed approach is evaluated in terms of accuracy of face reconstruction and face recognition.