Many manufacturers are harnessing systems engineering approaches to mitigate the complexity of developing increasingly sophisticated products. Systems simulation is a key component of such efforts.
The complexity of electrical and electronic (E/E) systems is accelerating across multiple industries and sectors. Manufacturers are adapting their design and development approaches to meet the changing requirements of advancing electrification.
COVID has not only been disruptive to our daily lives but now we’re seeing the effects on our work lives as well. Company operations have had to adapt to accommodate a workforce suddenly no longer in the office. Companies are facing new challenges, from remote tool access to the purchase and distribution of new online tools.
Products are increasing in complexity at an astonishing rate. Smartphones are just one example: today’s devices combine the functionality of yesterday’s phones, cameras, calculators, and pagers and place desktop applications and internet browsers in the palms of our hands. Advancing electrification, mass miniaturization, and IoT-driven digitization are making a vast range of devices smarter and smaller. To cope with these changes, manufacturers must transform the way they develop complex systems. This post compares and contrasts the traditional and modern approaches to developing and verifying products.
Manufacturing wants to leap into the world of the Jetsons. But there is one small problem: every time leadership consults a compass, it shows a different way forward. At first, there was digital automation, which was soon replaced by digitization. Then ...
You may have heard about Zuken’s recent acquisition of a Model-Based Systems Engineering (MBSE) company called Vitech Corporation. Yes, Vitech has an MBSE product called GENESYS, but first and foremost, they are a Systems Engineering company. Let’s take a look at Zuken’s leap into digital engineering and MBSE to understand the WHY.