In RIT's microsystems engineering Ph.D., you’ll conduct research in nano-engineering, design methods, and technologies for micro- and nano-scaled systems. State-of-the-art Research Facilities: Labs ...

Generative design helps engineers explore design, delivering 30-50% faster time-to-market, 10-50% weight reductions, and up ...

Introduction to a wide range of computational techniques for engineering design. Modeling, simulation, optimization, design software, examples/projects with emphasis on computational techniques for ...

The Kate Gleason College of Engineering’s doctorate degree in microsystems engineering is a multidisciplinary program that builds upon the fundamentals of traditional engineering and science, combined ...

Developing human-centered, physics-based, and AI-enabled design methods for creating engineering products and systems that address societal challenges Design combines engineering, business, the arts, ...

The primary objective of the introductory engineering projects course is to provide an overview of engineering careers, primarily through open-ended, hands-on design experiences. This text and ...

If you are a traditional engineering major, or undeclared, you’ll likely take the Engineering Design sequence in your first 3-terms. This includes Engineering Design and Data, Introductory Programming ...

The Engineering Design program is intended for students whose academic/scientific interests aren’t aligned with an existing engineering discipline or limited to one engineering discipline. The ideal ...

Laboratory-based design verification testing (DVT) of combination products and medical devices must be performed to demonstrate that the device meets the performance requirements that were set in the ...

When I first started my engineering career, I was thrown to the wolves—my college education didn’t prepare me for a real-life work environment. Now, usually when I touch on this in the context of ...