Nothing rivals the human brain's complexity. Its 86 billion neurons and 85 billion other cells make an estimated 100 trillion ...

Quantum technologies like quantum computers are built from quantum materials. These types of materials exhibit quantum properties when exposed to the right conditions. Curiously, engineers can also ...

Physicists are using quantum computers to simulate high-intensity electromagnetic interactions to test the limits of light ...

Building the technology is one challenge, but understanding why it matters and how to apply it to construction is another.​ ...

User simulators serve two critical roles when integrated with interactive AI systems: they enable evaluation via repeatable, ...

Abstract: Time-varying quadratic programming (TVQP) problems can be regarded as a challenging issue in a wide range of engineering applications, frequently incorporating equality, inequality, and ...

Like many researchers in the field of computational complexity, Lance Fortnow—Professor and Former Founding Dean at the Illinois Institute of Technology’s College of Computing—has spent a lot of time ...

The big AI companies promised us that 2025 would be “the year of the AI agents.” It turned out to be the year of talking about AI agents, and kicking the can for that transformational moment to 2026 ...

Abstract: While deep learning-based robotic grasping technology has demonstrated strong adaptability, its computational complexity has also significantly increased, making it unsuitable for scenarios ...

On October 8, 2024, the field of physics was plunged into controversy. That day, the Nobel Prize in Physics was awarded for discoveries not involving black holes, cosmology, or strange new subatomic ...