Bibliographic Information: He, X., Wandt, B., & Rhodin, H. (2024). LatentKeypointGAN: Controlling Images via Latent Keypoints. arXiv preprint arXiv:2103.15812v5.
Research Objective: This paper introduces LatentKeypointGAN, a novel generative adversarial network (GAN) architecture designed for controllable and interpretable image editing. The research aims to address the limitations of existing GAN-based editing approaches, which often lack fine-grained control and struggle with spatial manipulation of image features.
Methodology: LatentKeypointGAN employs a two-stage architecture. The first stage, a keypoint generator (K), generates keypoint coordinates and their associated embeddings from random noise. These embeddings capture both global style and part-specific appearance information. The second stage, a spatial embedding layer (S), transforms these sparse keypoint representations into dense feature maps. These maps are then fed into an image generator (G), based on a StyleGAN architecture with SPADE normalization, to synthesize the final image. The entire network is trained end-to-end using an adversarial loss, along with a novel background loss to further disentangle background and keypoint representations.
Key Findings:
Main Conclusions: LatentKeypointGAN offers a powerful and intuitive approach for controllable image editing. By disentangling pose and appearance through latent keypoints, it allows for flexible manipulation of image content while maintaining high visual fidelity. The unsupervised nature of the method broadens its applicability to various domains, including portraits, indoor scenes, and human poses.
Significance: This research significantly contributes to the field of GAN-based image editing by introducing a novel architecture that combines the advantages of keypoint-based control with the high image quality of GANs. The unsupervised learning paradigm and strong disentanglement capabilities make it a promising approach for various applications, including image manipulation, content creation, and unsupervised keypoint detection.
Limitations and Future Research: While LatentKeypointGAN demonstrates impressive results, there are limitations, such as occasional artifacts and challenges in handling complex backgrounds. Future research could explore incorporating 3D representations and addressing viewpoint bias in datasets to further enhance the model's capabilities.
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arxiv.org
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by Xingzhe He, ... ב- arxiv.org 10-15-2024
https://arxiv.org/pdf/2103.15812.pdfשאלות מעמיקות