针对新项目的创新及协作式同步项目管理
Innovate continuously, and with speed and confidence, to create medical device designs which seamlessly incorporate biomedical user needs and multidisciplinary engineering design outputs.
Deliver medical instruments and equipment with unmatched versatility and flexibility thanks to our mechanical product design solutions which allow device designers to select wireframe, surface, solid parametric or direct modeling techniques with seamless interchange. This flexibility gives designers the opportunity to explore product solutions that previously would have been too costly or time prohibitive.
Innovate continuously, and with speed and confidence, to create medical device designs which seamlessly incorporate biomedical user needs and multidisciplinary engineering design outputs.
Deliver medical instruments and equipment with unmatched versatility and flexibility thanks to our mechanical product design solutions which allow device designers to select wireframe, surface, solid parametric or direct modeling techniques with seamless interchange. This flexibility gives designers the opportunity to explore product solutions that previously would have been too costly or time prohibitive.
Consumer-centric and personalized healthcare therapies demand medical device designers use new materials, leverage additive manufacturing technology, and increase smart functionality via electronics and software.
Our mechanical design solutions provide design teams with an integrated set of capabilities as a single solution, enabling them to explore interdisciplinary options faster and easier. Leverage seamless associativity to quickly make updates as refinements occur on the way to regulatory approval and device production. Fully support product design from concept through manufacture using our integrated tool set which preserves data integrity and design intent in order to streamline product development processes.
Manage the outputs of global multidisciplinary medical device design teams via a web-based platform offering flexibility, scalable change and configuration controls.
Predict and optimize medical device design performance using digital simulation as evidence for verification and validation.
Design and create innovative, personalized devices and instruments with our additive manufacturing and 3D printing technology for medical instruments and equipment.
Rely on an integrated design program, as the system designers must collaborate constantly throughout the development process to prevent conflicts and ensure alignment between each system prior to design completion.
Visually assess and evaluate design inputs, risks, and status information using 3D models of the medical device design as the “canvas” to realize the big picture.
Visualize and interrogate complex multi-CAD 3D medical devices which maintain hundreds, if not thousands, of various components.
Create innovative surface shapes for medical devices using modeling techniques that match with intended fit, function, and user experience of device design.
Utilize globally accessible libraries for assemblies, parts, and features to standardize medical device design while also helping to reduce risk in verification and validation processes.
Create mechatronic medical device concepts early in the development process to explore alternatives, optimize against design inputs, and verify before design detailing.
当今客户期望得到具有复杂的软件驱动功能的互联产品。他们总是希望有更多选择、更多新型材料和装饰,还期望产品更安全、更合规、制造工艺更环保。不仅如此,他们还常常期望产品的价格更低、性能更好,开发时程越短越好。 复杂医疗器械和大型工业机器之类产品已成为超复杂的信息物理系统。这些系统的软件内容即使不超...
Medical devices are rapidly becoming smaller, more connected and more intelligent—enabling comfortable, user-friendly, wearable and implantable dev...