Recent successes in generative modeling have accelerated studies on this subject and attracted the attention of researchers. One of the most important methods used to achieve this success is Generative Adversarial Networks (GANs). It has many application areas such as; virtual reality (VR), augmented reality (AR), super resolution, image enhancement. Despite the recent advances in hair synthesis and style transfer using deep learning and generative modelling, due to the complex nature of hair still contains unsolved challenges. The methods proposed in the literature to solve this problem generally focus on making high-quality hair edits on images. In this thesis, a generative adversarial network method is proposed to solve the hair synthesis problem. While developing this method, it is aimed to achieve real-time hair synthesis while achieving visual outputs that compete with the best methods in the literature. The proposed method was trained with the FFHQ dataset and then its results in hair style transfer and hair reconstruction tasks were evaluated. The results obtained in these tasks and the operating time of the method were compared with MichiGAN, one of the best methods in the literature. The comparison was made at a resolution of 128x128. As a result of the comparison, it has been shown that the proposed method achieves competitive results with MichiGAN in terms of realistic hair synthesis, and performs better in terms of operating time.
翻译:最近基因建模方面的成功加快了对这一问题的研究,并吸引了研究人员的注意。实现这一成功的最重要方法之一是基因对抗网络(GANs)。它有许多应用领域,例如:虚拟现实(VR)、增强现实(AR)、超分辨率、图像增强。尽管由于头发发型性质复杂,因此在发型和发型建模的发型方面最近取得了巨大进展,但是,由于发型性质复杂,仍然存在着尚未解决的挑战。文献中为解决这一问题而提出的方法一般侧重于对图像进行高质量的发型编辑。在这个理论中,提出了一种基因对抗网络方法来解决发型合成问题。在开发这一方法时,目的是实现实时发型合成,同时实现与文献中最佳方法相竞争的视觉产出。拟议的方法通过FFHQ数据集培训,然后对发型转移和发型重建任务的结果进行了评估。这些任务的结果和该方法的操作时间与MichiGAN(这是文献中的最佳方法之一)进行了比较。比较是在开发这一方法的同时实现实时的发型合成结果。在128GMich-128上提出了一种比较,在操作方法上取得了更好的结果。
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