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Assessment of cardiac motion effects on the fiber architecture of the human heart in vivoHigh-quality rendering with depth cueing of volumetric data using Monte Carlo integration.Interactive volume cutting of medical data.Assessment of the Characteristics of Orientation Distribution Functions in HARDI Using Morphological Metrics.Global Diffusion Tractography by Simulated Annealing.Cardiac diffusion tensor imaging based on compressed sensing using joint sparsity and low-rank approximation.Quantitative representation and description of intravoxel fiber complexity in HARDI.Cardiac fiber unfolding by semidefinite programming.Reconstruction from limited-angle projections based on delta-u spectrum analysis.Fast collision detection based on nose augmentation virtual surgery.Feature-preserving smoothing of diffusion weighted images using nonstationarity adaptive filtering.Real-time visualization of large volume datasets on standard PC hardware.Multilevel segmentation of intracranial aneurysms in CT angiography images.Resolving intravoxel fiber architecture using nonconvex regularized blind compressed sensing.Threshold segmentation algorithm for automatic extraction of cerebral vessels from brain magnetic resonance angiography images.Automatic segmentation and volumetric quantification of white matter hyperintensities on fluid-attenuated inversion recovery images using the extreme value distribution.Computation of transmitted and received B1 fields in magnetic resonance imaging.Automatic segmentation and quantitative analysis of white matter hyperintensities on FLAIR images using trimmed-likelihood estimator.Automatic segmentation of white matter lesions on magnetic resonance images of the brain by using an outlier detection strategy.Cardiac fiber tracking using adaptive particle filtering based on tensor rotation invariant in MRI.Denoising by averaging reconstructed images: application to magnetic resonance images.Multifiber pathway reconstruction using bundle constrained streamline.Generalization of intravoxel incoherent motion model by introducing the notion of continuous pseudodiffusion variable.A method of radio-frequency inhomogeneity correction for brain tissue segmentation in MRI.Cardiac cine MR reconstruction from partial k-space using the notion of analytic image.Free-breathing diffusion tensor imaging and tractography of the human heart in healthy volunteers using wavelet-based image fusion.Correction of bias field in MR images using singularity function analysis.Medical image denoising using one-dimensional singularity function model.Multiple information-based spot matching method for 2-DE images.Phase correction-based singularity function analysis for partial k-space reconstruction.Digitally reconstructed radiograph generation by an adaptive Monte Carlo method.Intensity non-uniformity correction in MRI: existing methods and their validation.Quantitative comparison of human myocardial fiber orientations derived from DTI and polarized light imagingModulation transfer function evaluation of linear solid-state x-ray-sensitive detectors using edge techniquesA comparison of the ball, wire, edge, and bar/space pattern techniques for modulation transfer function measurements of linear x-ray detectorsA comparative study of different level interpolations for improving spatial resolution in diffusion tensor imagingImage-Based Investigation of Human in Vivo Myofibre StrainStructure Prior Constrained Estimation of Human Cardiac Diffusion TensorsVarifocal-Net: A Chromosome Classification Approach Using Deep Convolutional Networks
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Q30651383-CEB682A0-D5E7-4711-BFA4-4B2A26413122Q31002115-A8F8632C-4BF8-430F-887F-79970EA016C2Q31087230-8F7D7642-1208-419D-8318-40A4B03BB3CFQ35937424-EBD78450-555D-48DC-8833-418CC3AE4FF7Q39005372-23FF1AF7-F0E1-4632-814F-D592CF5F3BE4Q39779620-EA008280-33A6-4B5A-940E-3FC72A75E08AQ40435104-5CD93973-4DA6-4265-8D4B-135888B751F3Q43554663-C824FA6E-CBC3-4E51-A46B-7D2B19B67398Q44171321-6DAC0B0A-820C-49DE-9536-11A78E587368Q44569915-F5A30203-D67C-4302-A654-62E9219F03B0Q45349600-EF1C4C01-0AE7-4DBD-BD5F-A94A42802290Q46776123-10679105-0F24-4E79-A58F-F66FBF9E74A2Q48059435-8803F0BA-F42F-4A9B-8D2C-E47DD849C231Q48310147-823F024A-DAE0-44FB-B5FB-A81D22B99929Q48416639-744B1DA7-4AF3-416B-B8D1-9B61D3CB97B0Q48453136-4C995186-F09B-453A-BD7B-E88C82EAE77BQ48547373-C375B7A7-40CF-4ECC-8452-AB4FBE55976AQ48571594-7EC85706-49A6-4D3C-B3B7-E6F1A9499F44Q48599261-30B01D0F-0F9C-4676-B0F7-83727EE6B33BQ48628982-58EB8DB1-423D-40C1-89FF-88604DEEF742Q48647446-B1414D6D-396D-47FE-BC8E-5748E174B6CEQ48653395-F19DFFB3-26AB-4EC2-8338-CFE246A9A02BQ48772231-9B663563-9A98-4E20-952F-0415052CB525Q48857793-1DE74D33-0726-4F13-9EC5-DF242732538FQ50865130-F9440E7C-52F0-4869-BAD4-769A52985A4DQ51038617-3E855ACB-9D25-4F63-A5BD-F66440782E9AQ51373661-02D1FC98-03DA-4ACC-8F2B-6910A61505ACQ51790151-0AA6BA6A-BFE8-43E7-9B7F-5B9D5D500E2BQ51807991-DEA8231F-3083-47B4-8854-55DCEE12146EQ51886744-DF13D044-9DDA-4E00-AB09-17F9D7788D41Q51940929-06AFAF80-6CFF-4D40-8436-A296E681C4F6Q51959442-EA550052-1361-4188-8C8B-E102136C83F7Q57799279-452D9118-B55C-445E-AA6D-DDD42140E63CQ82319837-6D3FD3A0-8361-478C-B4CC-E7335BF54B37Q83392743-67C49FD9-4478-4129-9E0E-DA557FD840CEQ87386737-4A707A47-2F3B-45CF-BC78-092003BF1FE6Q87710181-D4CFEA79-5188-43FC-ADC0-112D414B9A7AQ92187696-50EB0768-5EA5-4D1C-BB26-D1AF5E4A6B48Q92597125-4073689B-92BB-4816-9CD9-35066A7ACF54
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Yuemin Zhu
@ast
Yuemin Zhu
@en
Yuemin Zhu
@es
Yuemin Zhu
@nl
type
label
Yuemin Zhu
@ast
Yuemin Zhu
@en
Yuemin Zhu
@es
Yuemin Zhu
@nl
prefLabel
Yuemin Zhu
@ast
Yuemin Zhu
@en
Yuemin Zhu
@es
Yuemin Zhu
@nl
P106
P2456
P31
P496
0000-0001-6814-1449