革新的でコラボラティブ、かつ同期姓を確保した新規プログラムの管理
Automotive & Transportation
Integration of mechanical, software and electronic systems technologies for vehicle systems
この産業を詳しく見るエネルギー&ユーティリティー
Supply chain collaboration in design, construction, maintenance and retirement of mission-critical assets
この産業を詳しく見る産業機械 (生産・工作機械) /重機業界
Integration of manufacturing process planning with design and engineering for today’s machine complexity
この業界を詳しく見るInsurance & Financial
Visibility, compliance and accountability for insurance and financial industries
Explore IndustryMedia & Telecommunications
Siemens PLM Software, a leader in media and telecommunications software, delivers digital solutions for cutting-edge technology supporting complex products in a rapidly changing market.
Explore IndustrySmall & Medium Business
Remove barriers and grow while maintaining your bottom line. We’re democratizing the most robust digital twins for your small and medium businesses.
Explore IndustryMedical Device’s Secret Weapon: R & D Driven Simulation
Learn how system simulation can be used early in the medical device design process to size and balance device attributes, and frontload the development process.
The potential benefits resulting from proactive use of simulation and CAE in medical devices are huge: saving lives and millions of dollars for the industry. These benefits can be realized by optimizing designs for performance and reliability, reducing the number of required benchtop tests and clinical trials, and accelerating the regulatory approval process.
The successful use of simulation in product engineering begins at the concept stage, even before CAD exists. The key to effective innovation is using a process that tracks requirements, manages simulation and test requests, and makes use of simulation to investigate innovative concepts before a physical prototype is built. As part of this process, system simulation techniques can be used to explore various concepts, size and balance device attributes, verify that performance goals are achieved, and optimize the architecture of a device. Hundreds of concepts can be explored in this way, far exceeding what could be accomplished by building prototypes and testing, resulting in more innovative and better performing designs.
And since the concept will have been thoroughly vetted on the computer, there is a high likelihood that requirements will be met without having to repeatedly iterate/backtrack through the detailed design effort. This results in faster product development, lower cost, fewer prototypes, faster time to release and much lower risk of product performance issues.
This is the third webinar in a series of five stand-alone webinars covering the topic of design excellence/digital evidence for medical device companies. In this webinar, simulation experts will review concepts of design excellence and walk through a practical example to show how system simulation can be used to develop a more robust and innovative product development process.
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Learn how system simulation can be used early in the medical device design process to size and balance device attributes, and frontload the development process.
The potential benefits resulting from proactive use of simulation and CAE in medical devices are huge: saving lives and millions of dollars for the industry. These benefits can be realized by optimizing designs for performance and reliability, reducing the number of required benchtop tests and clinical trials, and accelerating the regulatory approval process.
The successful use of simulation in product engineering begins at the concept stage, even before CAD exists. The key to effective innovation is using a process that tracks requirements, manages simulation and test requests, and makes use of simulation to investigate innovative concepts before a physical prototype is built. As part of this process, system simulation techniques can be used to explore various concepts, size and balance device attributes, verify that performance goals are achieved, and optimize the architecture of a device. Hundreds of concepts can be explored in this way, far exceeding what could be accomplished by building prototypes and testing, resulting in more innovative and better performing designs.
And since the concept will have been thoroughly vetted on the computer, there is a high likelihood that requirements will be met without having to repeatedly iterate/backtrack through the detailed design effort. This results in faster product development, lower cost, fewer prototypes, faster time to release and much lower risk of product performance issues.
This is the third webinar in a series of five stand-alone webinars covering the topic of design excellence/digital evidence for medical device companies. In this webinar, simulation experts will review concepts of design excellence and walk through a practical example to show how system simulation can be used to develop a more robust and innovative product development process.
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