AI agents can handle physics-based modeling complexity while engineers focus on design judgment and tradeoffs.

Modeling-Driven Design of Materials and Electrodes for Beyond Lithium-Ion Batteries with Damla Eroglu, Department of Chem ...

Automation aims to standardize industrial operations and bring overall efficiency to today’s production lines. Such gains, however, may come with considerable effort, as engineering teams must ...

Most 3D design software requires visual dragging and rotating—posing a challenge for blind and low-vision users. As a result, ...

As heterogenous integration increases design complexity and forces engineers out of long-standing silos, model-based systems engineering (MBSE) is becoming essential for improving quality and reducing ...

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, ...

Complexity in hardware design is spilling over to other disciplines, including software, manufacturing, and new materials, creating issues for how to model more data at multiple abstraction levels.

Recognizing the limits of traditional CAD for creating and controlling highly complex designs, a new effort has been launched to combine 3D modeling, simulation, and manufacturing processes into one ...

How in-house-developed and third-party general-purpose simulation tools are limited to a few expert users and aren’t easily shareable. How multiphysics simulation of subsystems can result in an ...

Gain comprehensive knowledge of timber structures from experts. Learn advanced design of timber structures. The advent of mass timber and tall wood buildings has brought timber design back into the ...

To design an effective software engineering organization that delivers business value, software engineering leaders should begin by understanding the IT operating model (ITOM) targeted by their CIO.