gan中基于梯度的多向控制研究

Zikun Chen, R. Jiang, Brendan Duke, Han Zhao, P. Aarabi
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引用次数: 5

摘要

生成对抗网络(GANs)已广泛应用于各种图像分布的建模。然而,尽管具有令人印象深刻的应用,gan中潜在空间的结构在很大程度上仍然是一个黑盒,使其可控生成成为一个开放问题,特别是当图像分布中存在不同语义属性之间的虚假相关性时。为了解决这个问题,以前的方法通常学习线性方向或控制图像空间中语义属性的单个通道。然而,它们经常遭受不完美的解缠,或者无法获得多向控制。在这项工作中,鉴于上述挑战,我们提出了一种基于学习到的GAN潜在空间中的梯度信息发现非线性控制的新方法,该方法可以实现多向操作以及有效的解纠缠。更具体地说,我们首先通过跟踪属性上单独训练的分类网络的梯度来学习插值方向,然后通过在学习方向上专门控制为目标属性激活的通道来导航潜在空间。从经验上讲,使用小的训练数据,我们的方法能够获得对各种双向和多向属性的细粒度控制,并且我们展示了它在定性和定量上比最先进的方法更好地实现解纠缠的能力。
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Exploring Gradient-based Multi-directional Controls in GANs
Generative Adversarial Networks (GANs) have been widely applied in modeling diverse image distributions. However, despite its impressive applications, the structure of the latent space in GANs largely remains as a black-box, leaving its controllable generation an open problem, especially when spurious correlations between different semantic attributes exist in the image distributions. To address this problem, previous methods typically learn linear directions or individual channels that control semantic attributes in the image space. However, they often suffer from imperfect disentanglement, or are unable to obtain multi-directional controls. In this work, in light of the above challenges, we propose a novel approach that discovers nonlinear controls, which enables multi-directional manipulation as well as effective disentanglement, based on gradient information in the learned GAN latent space. More specifically, we first learn interpolation directions by following the gradients from classification networks trained separately on the attributes, and then navigate the latent space by exclusively controlling channels activated for the target attribute in the learned directions. Empirically, with small training data, our approach is able to gain fine-grained controls over a diverse set of bi-directional and multi-directional attributes, and we showcase its ability to achieve disentanglement significantly better than state-of-the-art methods both qualitatively and quantitatively.
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