Aerospace & Defense
Innovation and collaborative, synchronized program management for new programs
Explore the key areas of this solution.
Create innovative surface shapes for medical devices using modeling techniques that match with intended fit, function and user experience of device design.
Combine innovative medical device shapes with design of engineered features and drawing production using 2D/3D modeling techniques.
Visualize and interrogate complex multi-CAD 3D medical devices with hundreds or even thousands of components.
Increase smart functionality in a complete 3D system environment, combining mechanical and electrical design.
Create mechatronic medical device concepts early in the development process to explore alternatives, optimize against design inputs and verify before design detailing.
Create and optimize personalized devices and surgical instruments with additive manufacturing and 3D printing technology.
Leverage 3D geometry from biomedical images as input for device designs or in collections for testing and optimization.
Leverage compliant 3D model annotations to communicate device specifications to manufacturing instead of producing traditional 2D drawings.
Use globally accessible libraries for assemblies, parts and features to standardize medical device design and accelerate and reduce risk in verification and validation.
Visually assess and evaluate design inputs, risks, and status information using 3D models of the medical device design as the “canvas” to see the big picture.
Predict and optimize design performance using digital simulation as evidence for verification and validation.
Manage outputs of global multidisciplinary design teams on the web with scalable change and configuration controls.
Consumer-centric and personalized healthcare therapies demand medical device design to use new materials, leverage additive manufacturing technology and increase smart functionality via electronics and software.
Our solution provides design teams an integrated set of capabilities as a single solution, enabling them to explore interdisciplinary options faster and easier, while leveraging seamless associativity to quickly make updates as refinements occur on the way to regulatory approval and device production.