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As user experience and shared brand or product perceptions effectively dictate purchasing decisions, exceeding customers’ expectations in a cost-effective manner is an imperative for manufacturers. Because design trends change so rapidly, a lengthy development cycle may produce outdated products. To optimize time to market, product stakeholders must improve their efficiency in both product and process design to deliver first-time-right products. New sophisticated quality and visualization tools can help predict manufacturing variation and its impact on perceived quality at an earlier stage, when issues can be addressed with minimal cost. In this white paper, discover how preliminary quality assessment is becoming a must-have in current design processes — for a more streamlined product development lifecycle, with a shortened lead time from concept to production.
Powerful engineering simulation tools have an incredible capability to support parametric analyses — in which certain design parameters are modified and the effect of these variations is studied across the entire design in an iterative process. By understanding the impact of each small change, the speed of the product development process can be increased by a factor of 10.
The current “one size fits all” approach to healthcare fails to recognize the significant differences between the bodies and behaviors of different patients. This creates inefficiencies and cost overruns — but it also affects the quality of care provided. By personalizing the specific treatment to each patient, healthcare will become more affordable for patients and more profitable for providers due to increased efficiency. Implanted medical devices and wearables are becoming more commonplace, saving millions of lives each year. Yet personalized healthcare still requires a significant paradigm shift, as well as a new technology toolkit for collecting data via devices and wearables that is used to customize treatment. Engineering simulation provides a cost-effective, rapid and straightforward solution for modeling patients’ bodies and designing devices that interact optimally with the body. This allows healthcare providers to devise truly personalized treatment plans, as well as predict health problems before they occur, enabling early intervention. While this “medical digital twin” concept might seem like science fiction, advanced technology is poised to improve quality of life for people around the world.
This paper describes a complete Systems and Embedded Software Validation & Verification
workflow that uses SCADE® for modeling and simulating the controller software and a
combination of other modeling tools for plant simulation.
Physics-based virtual prototyping allows car interior designers to predict potential lighting issues — and avoid them. Accounting for the interaction between light, materials and human perception early in the development process eliminates costly design fixes downstream.
Recent technology advances make it faster and easier for product developers to predict accurate combustor performance. ANSYS simulation tools eliminate the long-established trade off of accuracy vs. speed, using the right methods and the right chemistry for your specific application.