用于高分辨率三维人体数字化的多级像素对齐隐函数

Prerna Shirish Kulkarni, Simran Raju Mulani, Shruti Shrikant Wagaj, G. B. Birajadar
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摘要

由于深度近程网络(deep NN)在描绘能力方面的显著进步,依赖于图像的三维人体轮廓估算取得了长足进步。尽管在实际应用中取得了长足进步,但现有方法在生成与原始图像中常见的复杂细节相匹配的重建方面仍然存在不足。我们认为,这种不足主要源于两种相互竞争的需求之间的冲突:准确的预测需要广泛的上下文信息,而精确的预测则取决于更高的分辨率。由于当前硬件内存的限制,先前的技术倾向于利用低分辨率图像来涵盖更广泛的空间背景,从而导致三维估算不够精确或分辨率较低。为了克服这一障碍,我们设计了一种多层次的算法,这种算法需要经过端向训练。在粗略层面,模型以较低的分辨率全面处理整个图像,强调整体推理。这一粗略层次为更精细的层次提供了重要的背景,而更精细的层次则侧重于通过仔细检查更高分辨率的图像来估计高度复杂的几何形状。与之前的方法相比,我们的研究大大提高了性能,展示了我们方法的卓越能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-Level Pixel-Aligned Implicit Function for High- Resolution 3D Human Digitization
Current strides of image dependent 3 dimension human outline estimation have progressed due to remarkable strides in depiction capabilities facilitated by deep NN. Despite the strides made in real-world applications, existing methods still fall short in generating reconstructions that match the intricate details often found in the original images. We posit that this deficiency primarily arises from the clash between two competing demands: accurate predictions necessitate extensive contextual information, while precise predictions hinge on higher resolutions. Owing to the limitations in current hardware memory, prior techniques have leaned towards utilizing low-resolution images to encompass broader spatial context, resulting in less precise or lower-resolution 3D estimations. To overcome this hurdle, we have devised multi layered algorithm that undergoes endwise training. At rough level, model comprehensively processes the entire image at a reduced resolution, emphasizing holistic reasoning. This coarse level furnishes essential context to a finer level, which focuses on estimating highly intricate geometries by scrutinizing higher-resolution images. Our research demonstrates a substantial enhancement in performance compared to prior methodologies, showcasing the superior capabilities of our approach.
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