Complex systems such as metabolic pathways, ecosystems, the Internet, or human societies are comprised of large numbers of components that interact according to rules that change over time and that ...

Simulation modelling has emerged as a vital tool for understanding and managing the inherent complexity of numerous systems, from healthcare and manufacturing to logistics and business operations. By ...

SURD, an algorithm, reveals causal links in complex systems. Applications may include forecasting climate to projecting population growth to designing efficient aircraft. Getting to the heart of ...

An ever-increasing number of information systems are becoming indispensable in nearly all aspects of health care delivery, from electronic health records (EHRs) and radiology image viewers to ...

Scientists point out that a coherent approach to understanding the threats posed by artificial intelligence is still elusive. They call for a complex systems perspective to better assess and mitigate ...

Calvin Hennick is a freelance journalist who specializes in business and technology writing. He is a contributor to the CDW family of technology magazines. NASA has more programs today than at any ...

This chaotic-looking "double pendulum" follows a large number of rules that govern its motion. Researchers have trained AI to take data from its movements to uncover simple equations that successfully ...

This article is part of a larger project by The Michigan Daily to examine University of Michigan research trends by analyzing academic paper citations. The Michigan Daily spoke with Mark Newman, ...

Study and gain skills in the tools, methods, and processes of designing, analyzing, controlling and improving complex engineered systems from world-renowned faculty who are experts in their field.

Semiconductor devices now anchor the world’s most demanding infrastructures—from hyperscale data centers to advanced automotive platforms and industrial control systems. At scale, even rare faults can ...