Saadah A K, Galatsanos N P, Bless D, Ramos C A
Department of Electrical and Computer Engineering, Chicago, Illinois 60616, USA.
J Acoust Soc Am. 1998 Jun;103(6):3627-41. doi: 10.1121/1.423067.
Videostroboscopy is an examination which yields a permanent record of the moving vocal folds. Thus, it allows the diagnosis of abnormalities which contribute to voice disorders. In this paper, in order to find and quantify the deformation of the vocal folds in videostroboscopic recordings, an active contours- (snakes) based approach is used to delineate the vocal folds in each frame of the videostroboscopic image sequence. After this delineation, a new elastic registration algorithm is used to register the vocal fold contours between adjacent frames of the video sequence. This algorithm is based on the regularization principle and is very effective when large deformations are present. A least-squares approach is used to fit an affine model to the displacement vectors found by elastic registration. The parameters of this model, rotation, translation, and deformation along two principle axes, quantify the deformation and allow the succinct characterization of the videostroboscopic recordings based on the deformations that occurred. Experiments are shown with synthetic and real videostroboscopic data that demonstrate the value of the proposed approach.
频闪喉镜检查是一种能生成动态声带永久记录的检查方法。因此,它有助于诊断导致嗓音障碍的异常情况。在本文中,为了在频闪喉镜记录中找到并量化声带的变形,我们采用了一种基于主动轮廓线(蛇形模型)的方法来勾勒频闪喉镜图像序列每一帧中的声带轮廓。完成轮廓勾勒后,我们使用一种新的弹性配准算法来配准视频序列相邻帧之间的声带轮廓。该算法基于正则化原理,在存在大变形的情况下非常有效。我们使用最小二乘法将仿射模型拟合到通过弹性配准找到的位移向量上。该模型的参数,即旋转、平移以及沿两个主轴的变形,能够量化变形情况,并基于所发生的变形对频闪喉镜记录进行简洁的表征。文中展示了使用合成和真实频闪喉镜数据进行的实验,这些实验证明了所提方法的价值。