A new technical paper titled “Enabling Physical AI at the Edge: Hardware-Accelerated Recovery of System Dynamics” was ...

Mechanical systems dynamics and control encompasses the study of motion, vibration, and stability within interconnected mechanical elements. This field integrates theoretical modelling, numerical ...

Research in dynamics includes theoretical, computational and experimental research in the general area of dynamical systems, dynamics and vibrations, dynamics of flexible bodies, high-dimensional ...

One of the most-common oversights that designers can make is to not fully use available system resources. Typically, design and optimization efforts are focused on performance and efficiency.

Duke University engineers are using artificial intelligence to do something scientists have chased for centuries; turn messy, ...

Our space systems focus prepares you for careers in areas like space system development and testing, satellite telemetry, tracking and control, telecommunications electronics, commercial satellites, ...

The systems engineering master’s degree provides engineers and technology professionals with a deep understanding of the entirety of complex systems and processes. As a student, you will gain insights ...

System Dynamics is a computer-aided approach for strategy and policy design. The main goal is to help people make better decisions when confronted with complex, dynamic systems. The approach provides ...

Failure of rural water infrastructure in developing countries is often caused by the systemic interaction of technical, social, financial, institutional, and environmental factors. Unfortunately, ...

What if the key to unlocking the full potential of artificial intelligence lies not in the models themselves, but in how we frame the information they process? Imagine trying to summarize a dense, 500 ...