A mathematical model of motion of the heart for use in generating source and attenuation maps for simulating emission imaging.
about
Spillover Compensation in the Presence of Respiratory Motion Embedded in SPECT Perfusion Data.Realistic CT simulation using the 4D XCAT phantomLearning a channelized observer for image quality assessmentBody Deformation Correction for SPECT Imaging.Digital anthropomorphic phantoms of non-rigid human respiratory and voluntary body motion for investigating motion correction in emission imaging.Evaluation of the channelized Hotelling observer with an internal-noise model in a train-test paradigm for cardiac SPECT defect detectionNumerical Surrogates for Human Observers in Myocardial Motion Evaluation From SPECT ImagesAn exponential growth of computational phantom research in radiation protection, imaging, and radiotherapy: a review of the fifty-year history.Dynamic single photon emission computed tomography--basic principles and cardiac applications.MCAT to XCAT: The Evolution of 4-D Computerized Phantoms for Imaging Research: Computer models that take account of body movements promise to provide evaluation and improvement of medical imaging devices and technology.Adaptation and applications of a realistic digital phantom based on patient lung tumor trajectories.A quantitative evaluation study of four-dimensional gated cardiac SPECT reconstructionUse of three-dimensional Gaussian interpolation in the projector/backprojector pair of iterative reconstruction for compensation of known rigid-body motion in SPECT.Estimation of the Rigid-Body Motion from Three-Dimensional Images Using a Generalized Center-of-Mass Points ApproachRespiratory motion detection and correction in ECG-gated SPECT: a new approach.Impact of respiratory motion on the detection of small pulmonary nodules in SPECT imagingAn evaluation of iterative reconstruction strategies based on mediastinal lesion detection using hybrid Ga-67 SPECT imagesDiminishing the impact of the partial volume effect in cardiac SPECT perfusion imaging.Image denoising methods for tumor discrimination in high-resolution computed tomography.Generalization Evaluation of Machine Learning Numerical Observers for Image Quality Assessment.Reconstruction of dynamic gated cardiac SPECT.Fast Monte Carlo-simulator with full collimator and detector response modelling for SPECT.Influence of respiratory motion correction on quantification of myocardial perfusion SPECT.Dynamic model of the left ventricle for use in simulation of myocardial perfusion SPECT and gated SPECT.
P2860
Q33515819-4577ACFA-62A3-482D-BDD0-EBC8B6844799Q33603705-FCF9D88F-C444-4489-9A19-FC47AD1BDD03Q33678635-D3D7B19A-99B3-4936-9680-5218D4B5A1ADQ33750338-0A434A8C-E4AA-4BAC-B14C-36950A9C58D0Q33850112-0396CD73-695D-49F1-BA3A-92971725D0FDQ34059690-4525D211-B2AC-4C69-83A9-07396FC5882AQ34105582-34F412CF-64DE-42CF-882D-B633C1589076Q34217724-878AF735-F5DC-46A2-9356-354E1AF8B874Q35835334-5C3A2957-73BC-4C1F-B85A-9E08FC09F1BDQ36156623-D7B9FF48-5029-4852-BD89-32C8C65518AAQ36819322-5A5E7A8A-DA9A-4FA0-BBCC-13ED5252E9E4Q36950615-AD6509CF-0D68-4BA7-B4D6-4C2B7F81C554Q36969121-E9CC44F1-64F4-4343-90F9-5D3C4D1EA2F6Q37009952-2FFA456C-24C6-4E5A-8EE7-2A2BA5BC7463Q37063169-B73102AB-0616-4F74-BBAC-391217957F0BQ37070930-24395661-2ABF-4641-A940-374A595A1B4FQ37154372-5085C1FE-D270-44C2-9D29-1683E8F80AA4Q37334709-946EBCFE-31DA-44A4-B886-FD1DFDAA13D2Q42731472-C03283B2-6A06-4FED-826F-9AA88E92552FQ42958077-4768B6B8-2369-41F9-8804-EFBF841123EAQ51096205-42D5E3FA-FD71-42F0-ACFB-FA91A0312AA0Q51509616-76AE7C58-158D-447F-8116-635EDDF1754EQ51674366-F800B97F-7442-4983-8002-1E9692300CD3Q51830806-0833986A-2BCF-4AF2-8A6D-E888DE2F1F43
P2860
A mathematical model of motion of the heart for use in generating source and attenuation maps for simulating emission imaging.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
A mathematical model of motion ...... r simulating emission imaging.
@en
A mathematical model of motion ...... r simulating emission imaging.
@nl
type
label
A mathematical model of motion ...... r simulating emission imaging.
@en
A mathematical model of motion ...... r simulating emission imaging.
@nl
prefLabel
A mathematical model of motion ...... r simulating emission imaging.
@en
A mathematical model of motion ...... r simulating emission imaging.
@nl
P2093
P2860
P356
P1433
P1476
A mathematical model of motion ...... r simulating emission imaging.
@en
P2093
P2860
P304
P356
10.1118/1.598746
P407
P577
1999-11-01T00:00:00Z