Universal Differential Equations (UDEs) combine mechanistic differential equations with data-driven artificial neural networks, forming a flexible framework for modelling complex biological systems.

Technology has delivered groundbreaking advances in recent decades—from life-saving medical treatments to the everyday convenience of carrying a powerful computer in a pocket. Yet despite the rapid ...

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With a series of new challenges arising, hard optimization problems are more likely encountered in various applications. It is very difficult to obtain favorable outcomes by using the existing methods ...

AlphaEvolve uses large language models to find new algorithms that outperform the best human-made solutions for data center management, chip design, and more. Google DeepMind has once again used large ...

Climate and ocean models use a series of equations to represent complex natural processes. However, the equations used in ...

When I first started working with multi-agent collaboration (MAC) systems, they felt like something out of science fiction. It’s a group of autonomous digital entities that negotiate, share context, ...

Nature has spent millions of years perfecting movement, efficiency, and survival. Engineers are now borrowing those evolutionary lessons to build robots capable of tackling some of humanity’s toughest ...

Indiana University’s Kelley School of Business is preparing to launch a major redesign of its BUS-K201 Foundations of Business Information Systems and Decision Making course this fall, with a new ...

AKRON, Ohio – College classes often conjure thoughts of sitting in a classroom or in front of a screen and taking notes with little ability to apply learning to real-world applications. But a ...