面部重建的关节-颅骨概率建模

Dennis Madsen, M. Lüthi, Andreas Schneider, T. Vetter
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引用次数: 15

摘要

我们提出了一种新的两种独立统计形状模型的共配准方法。采用基于马尔可夫链蒙特卡罗(Markov Chain Monte Carlo, MCMC)的随机优化方法解决了人脸模型与颅骨模型的对齐问题。我们创建了一个概率关节面部-头骨模型,并展示了如何获得一个合理的面部形状给定颅骨形状的分布。由于环境和遗传因素的影响,同一个头骨可能产生不同的脸型。我们提出面部重建作为一个条件分布似是而非的面部形状给定的头骨形状。由于很难直接从MRI或CT数据中获得人脸-颅骨的分布,我们创建了一个人工人脸-颅骨对数据集。为此,我们建议结合三个独立来源的数据源:脸型模型、颅骨形状模型和组织深度标记信息来建模关节面-颅骨分布。对于给定的颅骨,我们用Metropolis-Hastings计算了与组织深度分布相匹配的人脸后验分布。我们估计关节面-颅骨分布从样本的后侧。为了找到与未知头骨匹配的人脸,我们在人脸-头骨联合模型下估计人脸的概率。据我们所知,我们是第一个提供由头骨产生的完整的貌似合理的面部分布,而不仅仅是单一的重建。我们展示了人脸-头骨模型如何用于对人脸数据集进行排序,并平均成功识别出前30%的正确匹配。人脸排序甚至在从二维图像中获取人脸形状时也有效。我们进一步展示了脸-头骨模型如何在核磁共振图像中用于估计头骨位置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Probabilistic Joint Face-Skull Modelling for Facial Reconstruction
We present a novel method for co-registration of two independent statistical shape models. We solve the problem of aligning a face model to a skull model with stochastic optimization based on Markov Chain Monte Carlo (MCMC). We create a probabilistic joint face-skull model and show how to obtain a distribution of plausible face shapes given a skull shape. Due to environmental and genetic factors, there exists a distribution of possible face shapes arising from the same skull. We pose facial reconstruction as a conditional distribution of plausible face shapes given a skull shape. Because it is very difficult to obtain the distribution directly from MRI or CT data, we create a dataset of artificial face-skull pairs. To do this, we propose to combine three data sources of independent origin to model the joint face-skull distribution: a face shape model, a skull shape model and tissue depth marker information. For a given skull, we compute the posterior distribution of faces matching the tissue depth distribution with Metropolis-Hastings. We estimate the joint face-skull distribution from samples of the posterior. To find faces matching to an unknown skull, we estimate the probability of the face under the joint face-skull model. To our knowledge, we are the first to provide a whole distribution of plausible faces arising from a skull instead of only a single reconstruction. We show how the face-skull model can be used to rank a face dataset and on average successfully identify the correct match in top 30%. The face ranking even works when obtaining the face shapes from 2D images. We furthermore show how the face-skull model can be useful to estimate the skull position in an MR-image.
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