Synthesising 3D Facial Motion from "In-the-Wild" Speech
This addresses a crucial problem for applications like computer games and movies by enabling realistic facial animation from arbitrary speech inputs, though it is incremental as it builds on prior work in controlled conditions.
The paper tackles the problem of synthesizing 3D facial motion from speech captured in uncontrolled, 'in-the-wild' conditions, achieving the first method to handle different speakers and continuous speech signals in such settings.
Synthesising 3D facial motion from speech is a crucial problem manifesting in a multitude of applications such as computer games and movies. Recently proposed methods tackle this problem in controlled conditions of speech. In this paper, we introduce the first methodology for 3D facial motion synthesis from speech captured in arbitrary recording conditions ("in-the-wild") and independent of the speaker. For our purposes, we captured 4D sequences of people uttering 500 words, contained in the Lip Reading Words (LRW) a publicly available large-scale in-the-wild dataset, and built a set of 3D blendshapes appropriate for speech. We correlate the 3D shape parameters of the speech blendshapes to the LRW audio samples by means of a novel time-warping technique, named Deep Canonical Attentional Warping (DCAW), that can simultaneously learn hierarchical non-linear representations and a warping path in an end-to-end manner. We thoroughly evaluate our proposed methods, and show the ability of a deep learning model to synthesise 3D facial motion in handling different speakers and continuous speech signals in uncontrolled conditions.