about
Synthetic tracked aperture ultrasound imaging: design, simulation, and experimental evaluation.A multiresolution approach to shear wave image reconstruction.Acoustic reciprocity of spatial coherence in ultrasound imaging.Synthetic aperture focusing for short-lag spatial coherence imaging.Feasibility of Swept Synthetic Aperture Ultrasound Imaging.Equivalence of time and aperture domain additive noise in ultrasound coherence.Evaluation of the transverse oscillation method using the Cramer-Rao lower bound.Blocked Elements in 1-D and 2-D Arrays-Part II: Compensation Methods as Applied to Large Coherent Apertures.Recovery of the Complete Data Set From Focused Transmit Beams.Evaluation of Large-Aperture Imaging Through the ex Vivo Human Abdominal Wall.Evaluation of the Transverse Oscillation Technique for Cardiac Phased Array Imaging: A Theoretical Study.Coherent flow imaging: A power Doppler imaging technique based on backscatter spatial coherenceRecovery of the complete data set from ultrasound sequences with arbitrary transmit delaysA method for intrapulse spatial compoundingLarge coherent apertures: Improvements in deep abdominal imaging and fundamental limits imposed by clutterSynthetic aperture imaging with thinned linear sensor arrays for medical ultrasoundDetection of and compensation for blocked elements using large coherent apertures: ex vivo studiesPhantom and in vivo demonstration of swept synthetic aperture imagingImplementation of swept synthetic aperture imagingUltrasound coherence imaging using hardware receive beamforming and broad transmit beamsApodization schemes for short-lag spatial coherence imagingA synthetic aperture study of aperture size in the presence of noise and in vivo clutterApplication of synthetic aperture focusing to short-lag spatial coherenceComparison of virtual source synthetic aperture beamforming with an element-based modelLag-One Coherence as a Metric for Ultrasonic Image QualityThe Impact of Acoustic Clutter on Large Array Abdominal ImagingVirtual clinical trials in medical imaging: a review
P50
Q30359198-2E23112E-A3D5-4138-8AE5-69B5E006C0CEQ30404216-3171178E-F022-4E62-87B6-7D31321533F3Q30409868-743C4695-2DF1-4454-BB79-AECFF109DFBEQ30441140-BF332A5D-55F2-46B3-919D-81D900F55972Q33838026-71C65744-7E17-4216-B811-294999D9EB0CQ35007712-2B71B7FA-CB28-415F-977D-010ADDDB13CDQ36306268-9C751961-1253-495E-A5F3-9CE210FEE494Q38887049-A65471A5-73BD-415B-A78F-CF94BF091BDAQ47240030-FD4476A6-C415-4202-8508-975BF32591F5Q47242041-B01DB059-C8E2-4D00-9ED6-EAAD86CCB679Q48589888-C00A19D5-0352-48F1-AA1C-996949DE62B5Q57557079-71B90C3F-39C1-4D75-BC8D-8A45EE75B5E0Q57572756-5E9EA0DE-5DFF-4C88-8568-0D39F5730CF8Q57572757-EBAFA839-0BCE-4EA6-97AE-42A268C8E989Q57572759-9EE602DD-46A8-4637-97BE-FBC70F88D727Q57572761-917E9EA2-0376-4BE0-8737-451C33631B5AQ57572763-9A114293-19A3-40C5-9CFD-A35A8DD979E1Q57572769-03F8401D-5130-4E07-ABCB-F2A91D430AC7Q57572772-2A593B0A-90DF-4618-9025-25CE2B1A7506Q57572774-6C4C9F1E-E02E-45CD-A388-98D2CEB79C55Q57572780-24983436-D430-4BD3-87EE-FA82292566A2Q57572783-D60D195B-F9D6-4DA1-AC1B-CBE1A16FA678Q57572788-9A417279-75CD-4072-972F-7DD4EAB94561Q88952985-632C5CE0-3673-42F5-B5BB-59CC628B5499Q90236003-5FCADC42-C334-4218-9C5D-DC1A690B1DE8Q91247216-6D1A61C2-4087-41DE-A5EC-E1ADC2ECD881Q92102835-835F8888-22D5-47C4-8F26-0040C1FFE37E
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-4080-2310
@en
name
Nick Bottenus
@ast
Nick Bottenus
@en
Nick Bottenus
@es
Nick Bottenus
@nl
type
label
Nick Bottenus
@ast
Nick Bottenus
@en
Nick Bottenus
@es
Nick Bottenus
@nl
prefLabel
Nick Bottenus
@ast
Nick Bottenus
@en
Nick Bottenus
@es
Nick Bottenus
@nl
P1053
C-3208-2016
P106
P108
P21
P31
P3829
P496
0000-0002-4080-2310