Only a handful of molecules and mechanisms can generate such a huge diversity of forms and complexity in multicellular organisms. Recently, researchers investigated how this is possible using a simple ...

Zebras and tigers have stripes, cheetahs and leopards have spots, and the ocellated lizard (Timon lepidus) boasts a labyrinthine pattern of black-and-green chains of scales. Now researchers from the ...

Researchers at the University of Bristol in the U.K. are exploring how mathematical modeling might be used in the development and use of blood-based biomarkers for brain tumors. The development of a ...

Last week, Google Research held an online workshop on the conceptual understanding of deep learning. The workshop, which featured presentations by award-winning computer scientists and neuroscientists ...

Physicists can create serious mathematical models of stuff that is very far from physics—stuff like biology or the human brain. These models are hilarious, but I’m still a sucker for them because of ...

Studying how brain cells respond to signals from their neighbors can aid the understanding of cognition and development. However, experimentally measuring the brain's activity is complicated. Neuron ...

A new study digs into why modern AI models stumble over multi-digit multiplication and what kind of training finally makes ...

The people who happen to be in a city center at any given moment may seem like a random collection of individuals. But new research featuring a simple mathematical law shows that urban travel patterns ...