378 research outputs found
Capture, Learning, and Synthesis of 3D Speaking Styles
Audio-driven 3D facial animation has been widely explored, but achieving
realistic, human-like performance is still unsolved. This is due to the lack of
available 3D datasets, models, and standard evaluation metrics. To address
this, we introduce a unique 4D face dataset with about 29 minutes of 4D scans
captured at 60 fps and synchronized audio from 12 speakers. We then train a
neural network on our dataset that factors identity from facial motion. The
learned model, VOCA (Voice Operated Character Animation) takes any speech
signal as input - even speech in languages other than English - and
realistically animates a wide range of adult faces. Conditioning on subject
labels during training allows the model to learn a variety of realistic
speaking styles. VOCA also provides animator controls to alter speaking style,
identity-dependent facial shape, and pose (i.e. head, jaw, and eyeball
rotations) during animation. To our knowledge, VOCA is the only realistic 3D
facial animation model that is readily applicable to unseen subjects without
retargeting. This makes VOCA suitable for tasks like in-game video, virtual
reality avatars, or any scenario in which the speaker, speech, or language is
not known in advance. We make the dataset and model available for research
purposes at http://voca.is.tue.mpg.de.Comment: To appear in CVPR 201
Hierarchical Cross-Modal Talking Face Generationwith Dynamic Pixel-Wise Loss
We devise a cascade GAN approach to generate talking face video, which is
robust to different face shapes, view angles, facial characteristics, and noisy
audio conditions. Instead of learning a direct mapping from audio to video
frames, we propose first to transfer audio to high-level structure, i.e., the
facial landmarks, and then to generate video frames conditioned on the
landmarks. Compared to a direct audio-to-image approach, our cascade approach
avoids fitting spurious correlations between audiovisual signals that are
irrelevant to the speech content. We, humans, are sensitive to temporal
discontinuities and subtle artifacts in video. To avoid those pixel jittering
problems and to enforce the network to focus on audiovisual-correlated regions,
we propose a novel dynamically adjustable pixel-wise loss with an attention
mechanism. Furthermore, to generate a sharper image with well-synchronized
facial movements, we propose a novel regression-based discriminator structure,
which considers sequence-level information along with frame-level information.
Thoughtful experiments on several datasets and real-world samples demonstrate
significantly better results obtained by our method than the state-of-the-art
methods in both quantitative and qualitative comparisons
Talking Face Generation by Adversarially Disentangled Audio-Visual Representation
Talking face generation aims to synthesize a sequence of face images that
correspond to a clip of speech. This is a challenging task because face
appearance variation and semantics of speech are coupled together in the subtle
movements of the talking face regions. Existing works either construct specific
face appearance model on specific subjects or model the transformation between
lip motion and speech. In this work, we integrate both aspects and enable
arbitrary-subject talking face generation by learning disentangled audio-visual
representation. We find that the talking face sequence is actually a
composition of both subject-related information and speech-related information.
These two spaces are then explicitly disentangled through a novel
associative-and-adversarial training process. This disentangled representation
has an advantage where both audio and video can serve as inputs for generation.
Extensive experiments show that the proposed approach generates realistic
talking face sequences on arbitrary subjects with much clearer lip motion
patterns than previous work. We also demonstrate the learned audio-visual
representation is extremely useful for the tasks of automatic lip reading and
audio-video retrieval.Comment: AAAI Conference on Artificial Intelligence (AAAI 2019) Oral
Presentation. Code, models, and video results are available on our webpage:
https://liuziwei7.github.io/projects/TalkingFace.htm
You said that?
We present a method for generating a video of a talking face. The method
takes as inputs: (i) still images of the target face, and (ii) an audio speech
segment; and outputs a video of the target face lip synched with the audio. The
method runs in real time and is applicable to faces and audio not seen at
training time.
To achieve this we propose an encoder-decoder CNN model that uses a joint
embedding of the face and audio to generate synthesised talking face video
frames. The model is trained on tens of hours of unlabelled videos.
We also show results of re-dubbing videos using speech from a different
person.Comment: https://youtu.be/LeufDSb15Kc British Machine Vision Conference
(BMVC), 201
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