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Concept
ScanIP
Résumé
Synopsys Simpleware ScanIP is a 3D image processing and model generation software program developed by Synopsys Inc. to visualise, analyse, quantify, segment and export 3D image data from magnetic resonance imaging (MRI), computed tomography (CT), microtomography and other modalities for computer-aided design (CAD), finite element analysis (FEA), computational fluid dynamics (CFD), and 3D printing. The software is used in the life sciences, materials science, nondestructive testing, reverse engineering and petrophysics.
Segmented images can be exported in the file format, surface meshes and point clouds, to CAD and 3D printing or, with the FE module, exported as surface/volume meshes directly into leading computer-aided engineering (CAE) solvers. The CAD and NURBS add-on modules can be used to integrate CAD objects into image data, and to convert scan data into NURBS-based models for CAD. The SOLID, FLOW and LAPLACE add-on modules can be used to calculate effective material properties from scanned samples using homogenisation techniques. Since 2020, Simpleware software has included Simpleware AS Ortho and Simpleware AS Cardio, modules for automated segmentation of medical image data that uses artificial intelligence-based machine learning. In addition, a fully customizable module, Simpleware Custom Modeler, is available.
Simpleware ScanIP generates high-quality 3D models from image data suitable for a wide range of design and simulation applications related to life sciences. Image data from sources like MRI and CT can be visualised, analysed, segmented and quantified, before being exported as CAD, CAE and 3D printing models. Different tissues, bones and other parts of the body can be identified using a wide range of segmentation and processing tools in the software. Options are also available for integrating CAD and image data, enabling medical device research to be conducted into how CAD-designed implants interact with the human body. High-quality CAE models can similarly be used in biomechanics research to simulate movement and the effect of different forces on anatomies.
Source officielle
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