首页> 外文会议>Computing in Cardiology Conference >A Bayesian approach to quantifying uncertainty in Tikhonov solutions for the inverse problem of electrocardiography

【24h】

A Bayesian approach to quantifying uncertainty in Tikhonov solutions for the inverse problem of electrocardiography

机译：贝叶斯方向量化Tikhonov解决方案对心电图逆问题的情况下的不确定性

获取原文

获取外文期刊封面目录资料

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

This study aimed to quantify differences in uncertainty in Tikhonov solutions arising from mesh discretization, conductivity, and zeroth, first, and second order Tikhonov (ZOT, FOT, and SOT) solutions for the inverse problem of electrocardiography. We indirectly analyzed levels of uncertainty in Tikhonov solutions through deriving their equivalent Bayesian maximum a posteriori (MAP) estimates, and then performing regularized sampling from the Bayesian posterior distributions to form credible intervals (CIs). We calculated the percentage of the true heart voltages that fell between the 95% CIs. For all noise levels, the 95% mean CIs for FOT and SOT always captured 11% to 42% more of the true heart voltages than ZOT, suggesting that regularization with FOT and SOT may provide a greater level of certainty in reconstructing heart voltages. In summary, we provide a methodology for quantifying uncertainty in Tikhonov solutions, and use it to study different regularization techniques.

机译：该研究旨在量化网状离散化，导电性和零型抗体的思科解决方案中不确定性的差异，首先和二阶Tikhonov（ZOT，FOT，SOT）解决方案进行心电图的反问题。我们间接分析了Tikhonov解决方案的不确定性水平，通过导出其等同的贝叶斯最大的后验（地图）估计，然后从贝叶斯后部分布执行正则化采样，以形成可靠的间隔（CIS）。我们计算了95％CI之间落下的真正心脏电压的百分比。对于所有噪声水平，FOT和SOT的95％平均顺应性总是捕获了比ZOT的真正心脏电压的11％至42％，表明具有FOT和SOT的正则化可以在重建心脏电压方面提供更大的确定性。总之，我们提供了一种用于量化Tikhonov解决方案中的不确定性的方法，并使用它来研究不同的正则化技术。

著录项

来源
《Computing in Cardiology Conference》|2014年||共4页
会议地点
作者
France Jessie J.; Gur Yaniv; Kirby Robert M.; Johnson Chris R.;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类在其他方面的应用;
关键词
Bayes methods; bioelectric potentials; electrocardiography; inverse problems; maximum likelihood estimation; medical signal processing; noise; sampling methods; signal reconstruction; uncertainty handling; Bayesian maximum a posteriori estimate; Bayesian posterior distribution; FOT regularization; FOT solution; MAP estimate; SOT regularization Bayesian approach; SOT solution; Tikhonov solution uncertainty quantification; ZOT solution; conductivity; credible interval; electrocardiography; first order Tikhonov solution; heart voltage reconstruction; inverse problem; mesh discretization; noise level; regularized sampling; second order Tikhonov solution; true heart voltage percentage calculation; zeroth order Tikhonov solution; Abstracts; Bayes methods; Electrocardiography; Inverse problems; Uncertainty; Bayesian uncertainty quantification; Tikhonov regularization; electrocardiography; inverse problem; sampling;

机译：贝叶斯方法;心电电位;心电图;逆问题;最大似然估计;医学信号处理;噪声;信号重建;不确定处理;贝叶斯最大估计;贝叶斯后部分布;FOT解决方案;地图估计;SOT 正规化贝叶斯方法;Tikhonov解决方案不确定性量化;ZOT解决方案;电导率;可信间隔;心电图;第一阶Tikhonov解决方案;心电图重建;逆问题;噪声水平;噪声水平;第二阶Tikhonov解决方案;真心电压百分比计算;Zeroth订单Tikhonov解决方案;摘要;贝叶斯方法;心电图;逆问题;不确定;贝叶斯不确定性量化;Tikhonov规则化;心电图;反对问题;取样;取样;取样;取样;

相似文献

外文文献
中文文献
专利

1. Inverse uncertainty quantification using the modular Bayesian approach based on Gaussian process, Part 1: Theory [J] . Wu Xu, Kozlowski Tomasz, Meidani Hadi, Nuclear Engineering and Design . 2018,第AUGa期

机译：使用基于高斯过程的模块化贝叶斯方法进行逆不确定性量化，第1部分：理论
2. Inverse uncertainty quantification using the modular Bayesian approach based on Gaussian Process, Part 2: Application to TRACE [J] . Wu Xu, Kozlowski Tomasz, Meidani Hadi, Nuclear Engineering and Design . 2018,第AUGa期

机译：使用基于高斯过程的模块化贝叶斯方法进行逆不确定性量化，第2部分：在TRACE中的应用
3. Improved Performance of Bayesian Solutions for Inverse Electrocardiography Using Multiple Information Sources [J] . Serinagaoglu Y., Brooks D.H., Macleod R.S. IEEE Transactions on Biomedical Engineering . 2006,第10期

机译：使用多个信息源的逆心电图的贝叶斯解决方案的改进性能
4. A Bayesian approach to quantifying uncertainty in Tikhonov solutions for the inverse problem of electrocardiography [C] . France Jessie J., Gur Yaniv, Kirby Robert M., Computing in Cardiology Conference . 2014

机译：贝叶斯方法量化Tikhonov解心电图逆问题的不确定性
5. Computational approaches to efficiently maximize solution capabilities and quantify uncertainty for inverse problems in mechanics [D] . Notghi, Bahram 2014

机译：计算方法可有效地最大化求解能力并量化力学中反问题的不确定性
6. A Bayesian approach to quantifying uncertainty from experimental noise in DEER spectroscopy [O] . Thomas H. Edwards, Stefan Stoll -1

机译：贝叶斯方法量化DEER光谱中实验噪声的不确定性
7. Accurate solution of Bayesian inverse uncertainty quantification problems combining reduced basis methods and reduction error models [O] . Manzoni A., Pagani S., Lassila T. 100

机译：准确求解贝叶斯逆不确定性量化问题，结合简化基方法和约简误差模型
8. PDE-Constrained Optimization Approach to Uncertainty Quantification in Inverse Problems, with Applications to Inverse Scattering [R] . Ghattas, O., Wilcox, J., Bui-Thanh, T., 2010

机译：反问题中不确定性量化的偏微分约束优化方法及其在逆散射中的应用

A Bayesian approach to quantifying uncertainty in Tikhonov solutions for the inverse problem of electrocardiography

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅