Index for sinu

Sinusas, A.J.[Albert J.] Co Author Listing * Boundary Element Method-Based Scattered Feature Interpolation Algorithm in the Analysis of LV Deformation
* Cardiac SPECT restoration using MR-based support constraints
* Continuous-Discrete Filtering for Cardiac Kinematics Estimation under Spatio-Temporal Biomechanical Constrains
* Dense Non-Rigid Motion Tracking from a Sequence of Velocity Fields
* Detection of Complex Vascular Structures using Polar Neighborhood Intensity Profile
* Estimation of 3-d left ventricular deformation from medical images using biomechanical models
* Integrated segmentation and motion analysis of cardiac MR images using a subject-specific dynamical model
* Local Shape Registration Using Boundary-Constrained Match of Skeletons
* Model-Based Integrated Approach to Track Myocardial Deformation Using Displacement and Velocity Constraints, A
* Multi-frame Radial Basis Functions to Combine Shape and Speckle Tracking for Cardiac Deformation Analysis in Echocardiography
* Multiframe nonrigid motion analysis with anisotropic spatial constraints: applications to cardiac image analysis
* Point-tracked quantitative analysis of left ventricular surface motion from 3-D image sequences
* Pointwise motion tracking in echocardiographic images
* Radial Basis Functions for Combining Shape and Speckle Tracking in 4D Echocardiography
* Sampled-Data H- Filtering for Robust Kinematics Estimation: Applications to Biomechanics-Based Cardiac Image Analysis
* Segmentation of left ventricle from 3D cardiac MR image sequences using a subject-specific dynamical model
* Segmentation of left ventricles from echocardiographic sequences via sparse appearance representation
* Segmentation of the Left Ventricle From Cardiac MR Images Using a Subject-Specific Dynamical Model
* Sparsity and Biomechanics Inspired Integration of Shape and Speckle Tracking for Cardiac Deformation Analysis
* Tracking myocardial deformation using phase contrast MR velocity fields: A Stochastic Approach
* Unified Framework to Assess Myocardial Function from 4D Images, A
* Vascular tree reconstruction by minimizing a physiological functional cost
* Volumetric Deformation Analysis Using Mechanics-Based Data Fusion: Applications in Cardiac Motion Recovery
Includes: Sinusas, A.J.[Albert J.] Sinusas, A.J.
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