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Development of a display system for visualization in medical Applications

Halah Basim Almgoter, Ziad T. Al-Dahan

2020Journal of Physics Conference Series12 citationsDOIOpen Access PDF

Abstract

Abstract Imaging capabilities have been enhanced by scan modality. A review and comparison of some of the most effective open source libraries and medical application development has been implemented. A system composed of Ultrasound-Diagnostic-Machine-CMS600B2, a core i7-9750h Intel laptop processor, an easy-to-use capture tool for converting ultrasound analog images to digital images stored in a laptop and VR receiver to imagine a full organ. The understanding of 3D medical information earned very little consideration when it was intended to look at the ability of investigators to solve problems in 3D space. The aim of this research is to develop powerful computational techniques for integrating, interpreting and analyzing images for creative use in clinical practice. It’s turning into extra common to speak regarding 3D, 4D images formed by modern imaging techniques. The potential will be demonstrated by the evolution of medical imaging and VR systems that led to this system.

Topics & Concepts

LaptopComputer scienceModality (human–computer interaction)VisualizationMedical imagingComputer graphics (images)Human–computer interactionMedical ultrasoundArtificial intelligenceComputer visionUltrasoundOperating systemMedicineRadiologyVirtual Reality Applications and ImpactsAugmented Reality ApplicationsSurgical Simulation and Training
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