In an industry racing toward electrification, few innovations have proven as disruptive, or as quietly revolutionary, as the ...

During his time at Northwestern Engineering, Turner Davidson spent countless hours in the workshop inside the Ford Engineering Design Center. Not only was Davidson there to build cars as part of ...

Vehicles can do much more than they were capable of a decade ago. Today’s modern connected vehicles have many convenient capabilities, from lane departure warnings to automated braking and ...

Could you tell us a little about Monolith and how its technology helps carmakers? Monolith empowers engineers to use AI to solve their most intractable physics problems. We do this by enabling ...

The automotive industry has been revolutionized over the decades since 1945, turning it into more than a means of ...

The global chip market has seen a significant increase in demand for high-performance chips due to the rapid growth of the automotive industry. This growth is primarily driven by the adoption of ...

Physics-informed AI platform transforms existing simulation and test data into real-time aerodynamic predictions, enabling instant design decisions and dramatically faster design exploration.

The so-called V-model provides many benefits for organizing the system engineering perspective by depicting the orderly progression, from requirements definition to system-level specification, ...

The forces driving the haptics market. Increased use of touchscreens and smart surface in haptics design. What is in-mold electronics? While mobile-phone designers, gamers, and app programmers might ...

At first glance, the design of modern automobiles appears largely unchanged over the past few decades — four wheels, a few doors, headlights, and an engine remain standard. However, a closer ...