about
Architecture of an Ultrasound System for Continuous Real-Time High Frame Rate Imaging.ULA-OP 256: A 256-Channel Open Scanner for Development and Real-Time Implementation of New Ultrasound Methods.A novel ultrasound instrument for investigation of arterial mechanics.Coded Spectral Doppler Imaging: From Simulation to Real-Time Processing.Morphological analysis of neurons: Automatic identification of elongations.A real-time chirp-coded imaging system with tissue attenuation compensation.ULA-OP: an advanced open platform for ultrasound research.A reconfigurable and programmable FPGA-based system for nonstandard ultrasound methods.Estimation of the viscoelastic properties of vessel walls using a computational model and Doppler ultrasound.An automatic angle tracking procedure for feasible vector Doppler blood velocity measurements.Real-Time Blood Velocity Vector Measurement Over a 2-D Region.Density-tapered spiral arrays for ultrasound 3-D imaging.Self-paced frequency of a simple motor task and brain activation. An fMRI study in healthy subjects using an on-line monitor device.High-frame-rate 2-D vector blood flow imaging in the frequency domain.Frequency-domain-based strain estimation and high-frame-rate imaging for quasi-static elastography.Ultrasound Open Platforms for Next-Generation Imaging Technique DevelopmentCompact hardware for real-time multi-line beamformingMulticore DSP-based Front-end board for a high channel, modular, ultrasound research systemReal-time implementation of a novel algorithm for ultrasound freehand elastography of breast lesionsImplementation of non standard methods with the Ultrasound Advanced Open Platform (ULA-OP)Coded excitation can provide simultaneous improvements in sensitivity and axial resolution in Doppler ultrasound systemsA Novel Digital Ultrasound System for Experimental Research ActivitiesAutomatic tracking dual-beam method for vector Doppler applicationsEmbedded System for Real-Time Digital Processing of Medical Ultrasound Doppler SignalsA Dual Transducer Ultrasound System for Quantitative Doppler MeasurementsMultichannel FPGA-based arbitrary waveform generator for medical ultrasound8A-2 ULA-OP: A Novel ULtrasound Advanced Open Platform for Experimental ResearchA programmable real-time system for development and test of new ultrasound investigation methods1J-5 Quantitative Dual-beam Doppler Ultrasound InvestigationsNext-generation ultrasound research scanners designA real-time beamformer for high frame rate ultrasound imagingHigh-Performance FPGA Architecture for Multi-line Beamforming in Ultrasound ApplicationsMulti-line measurements of blood velocity vectors in real-timeOpen Platforms for the Advancement of Ultrasound ResearchReal-time pulse compression in multigate spectral Doppler imagingULA-OP 256: A portable high-performance research scannerMulti-channel Raw-Data Acquisition for Ultrasound ResearchHigh-Frame-Rate Tri-Plane Echocardiography With Spiral Arrays: From Simulation to Real-Time ImplementationReal-Time High-Frame-Rate Cardiac B-Mode and Tissue Doppler Imaging Based on Multiline Transmission and Multiline AcquisitionEffects of ultrasound and selenium on human neurons in vitro
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description
researcher
@en
wetenschapper
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հետազոտող
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name
Enrico Boni
@ast
Enrico Boni
@en
Enrico Boni
@es
Enrico Boni
@nl
type
label
Enrico Boni
@ast
Enrico Boni
@en
Enrico Boni
@es
Enrico Boni
@nl
prefLabel
Enrico Boni
@ast
Enrico Boni
@en
Enrico Boni
@es
Enrico Boni
@nl
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0000-0002-9899-8782