Abstract

Being able to robustly reconstruct 3D faces from 2D images is a topic of pivotal importance for a variety of computer vision branches, such as face analysis and face recognition, whose applications are steadily growing. Unlike 2D facial images, 3D facial data are less affected by lighting conditions and pose. Recent advances in the computer vision field have enabled the use of convolutional neural networks (CNNs) for the production of 3D facial reconstructions from 2D facial images. This paper proposes a novel CNN-based method which targets 3D facial reconstruction from two facial images, one in front and one from the side, as are often available to law enforcement agencies (LEAs). The proposed CNN was trained on both synthetic and real facial data. We show that the proposed network was able to predict 3D faces in the MICC Florence dataset with greater accuracy than the current state-of-the-art. Moreover, a scheme for using the proposed network in cases where only one facial image is available is also presented. This is achieved by introducing an additional network whose task is to generate a rotated version of the original image, which in conjunction with the original facial image, make up the image pair used for reconstruction via the previous method.

Highlights

  • IntroductionBiometric recognition and analysis using 3D facial models is inherently advantageous compared to the use of 2D facial images, as it does not suffer from pose and illumination variations

  • Facial features is time consuming and difficult. 300 Faces in-the-wild challenge dataset (300W)-LP uses a convolutional neural networks (CNNs) to create 3D faces using as input 2D facial images and 68 key-points

  • In this paper we have proposed and evaluated a new method which reconstructs a 3D facial mesh from front and side images using a CNN

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Summary

Introduction

Biometric recognition and analysis using 3D facial models is inherently advantageous compared to the use of 2D facial images, as it does not suffer from pose and illumination variations Capturing such models requires expensive and difficult-to-use 3D imaging devices which, for most tasks, are impractical or even infeasible. 3D face reconstruction attempts to bridge this gap between the 2D and 3D modalities by accurately reconstructing a 3D mesh from 2D facial images. It reduces the need for expensive and slow 3D imaging systems and is applicable in cases where 2D facial data are already available

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