Litcius/Paper detail

Adaptive Affine Transformation: A Simple and Effective Operation for Spatial Misaligned Image Generation

Zhimeng Zhang, Yu Ding

2022Proceedings of the 30th ACM International Conference on Multimedia17 citationsDOI

Abstract

One challenging problem, named spatial misaligned image generation, describing a translation between two face/pose images with large spatial deformation, is widely faced in tasks of face/pose reenactment. Advanced researchers use the dense flow to solve this problem. However, under a complex spatial deformation, even using carefully designed networks, intrinsical complexities make it difficult to compute an accurate dense flow, leading to distorted results. Different from those dense flow based methods, we propose one simple but effective operator named AdaAT (Adaptive Affine Transformation) to realize misaligned image generation. AdaAT simulates spatial deformation by computing hundreds of affine transformations, resulting in less distortions. Without computing any dense flow, AdaAT directly carries out affine transformations in feature channel spaces. Furthermore, we package several AdaAT operators to one universal AdaAT module that is used for different face/pose generation tasks. To validate the effectiveness of our AdaAT, we conduct qualitative and quantitative experiments on four common datasets in the tasks of talking face generation, face reenactment, pose transfer and person image generation. We achieve state-of-the-art results on three of them.

Topics & Concepts

Affine transformationComputer scienceFace (sociological concept)Image (mathematics)Transformation (genetics)Artificial intelligenceComputer visionSimple (philosophy)Feature (linguistics)Operator (biology)Translation (biology)Geometric transformationFlow (mathematics)AlgorithmMathematicsGeometrySociologySocial scienceGeneMessenger RNATranscription factorBiochemistryChemistryLinguisticsPhilosophyEpistemologyRepressorGenerative Adversarial Networks and Image SynthesisFace recognition and analysisHuman Pose and Action Recognition