Throne R D, Olson L G, Windle J R
Electrical Engineering Department, Rose-Hulman Institute of Technology, Terre Haute, IN 47803, USA.
IEEE Trans Biomed Eng. 2002 Sep;49(9):1054-9. doi: 10.1109/TBME.2002.802058.
In this paper, we present a method for incorporating temporal smoothing (TS) into the estimate of epicardial potentials from body surface potential data. Our algorithm employs a different spatial smoothing parameter, chosen by the composite residual error and smoothing operator criteria, at each time step in the sequence. The total spatial smoothing term is then simply partitioned between temporal and spatial smoothing. The algorithm appears to be quite robust with regard to this partitioning. The new method was evaluated in the setting of additive Gaussian noise, but otherwise realistic conditions of body geometry and reference epicardial potentials. In examining the match between estimated and measured electrograms, or the match between estimated isopotential maps and measured isopotential maps, the estimates constructed using the new TS algorithm produced consistently smaller relative errors than those constructed using a quasi-static (QS) algorithm or those constructed by postprocessing the QS estimate with a moving average filter.
在本文中,我们提出了一种将时间平滑(TS)纳入从体表电位数据估计心外膜电位的方法。我们的算法在序列的每个时间步采用不同的空间平滑参数,该参数由复合残差误差和平滑算子准则选择。然后,总空间平滑项简单地在时间平滑和空间平滑之间进行划分。该算法在这种划分方面似乎相当稳健。新方法在加性高斯噪声的环境中进行了评估,但处于身体几何形状和参考心外膜电位的其他现实条件下。在检查估计的心电图与测量的心电图之间的匹配,或者估计的等电位图与测量的等电位图之间的匹配时,使用新的TS算法构建的估计值产生的相对误差始终比使用准静态(QS)算法构建的估计值或通过移动平均滤波器对QS估计值进行后处理构建的估计值更小。