In this paper, we propose a Landmark Guided Virtual Try-On (LGVTON) method for clothes, which aims to solve the problem of clothing trials on e-commerce websites. Given the images of two people: a person and a model, it generates a rendition of the person wearing the clothes of the model. This is useful considering the fact that on most e-commerce websites images of only clothes are not usually available. We follow a three-stage approach to achieve our objective. In the first stage, LGVTON warps the clothes of the model using a Thin-Plate Spline (TPS) based transformation to fit the person. Unlike previous TPS-based methods, we use the landmarks (of human and clothes) to compute the TPS transformation. This enables the warping to work independently of the complex patterns, such as stripes, florals, and textures, present on the clothes. However, this computed warp may not always be very precise. We, therefore, further refine it in the subsequent stages with the help of a mask generator (Stage 2) and an image synthesizer (Stage 3) modules. The mask generator improves the fit of the warped clothes, and the image synthesizer ensures a realistic output. To tackle the problem of lack of paired training data, we resort to a self-supervised training strategy. Here paired data refers to the image pair of model and person wearing the same cloth. We compare LGVTON with four existing methods on two popular fashion datasets namely MPV and DeepFashion using two performance measures, FID (Fr\'echet Inception Distance) and SSIM (Structural Similarity Index). The proposed method in most cases outperforms the state-of-the-art methods.
翻译:在本文中, 我们提出一种LGVTON(LDmark Moduction Jirtual Try-On) 服装法( LGVTON), 旨在解决电子商业网站服装测试问题。 根据两个人的图像: 一个人和一个模型, 它生成了身着模型服装的人的解析。 考虑到大多数电子商务网站通常没有仅穿衣服的图像, 我们采用三阶段方法来实现我们的目标。 在第一阶段, LGVTON( TPS) 使用基于Thin- Plate Spline( TPS) 的转换来解决服装测试问题。 与以前基于 TPS 的 方法不同, 我们使用两个里程碑( 人和服装) 来解析 TPS 的变换。 这可以让扭曲工作脱离复杂的模式, 例如条纹、 花卉和纹理。 然而, 这个算法可能并不总是非常精确。 因此, 在随后的阶段里, 我们用一个掩码发电机的帮助( Stat) 和图像合成者( Streferal 3), 我们使用两个版本的缩缩缩缩缩缩的变换的模型 。