A new study by mathematicians at Freie Universität Berlin shows that planar tiling, also known as tessellation, is far more than a decorative ...

Tessellations aren’t just eye-catching patterns—they can be used to crack complex mathematical problems. By repeatedly reflecting shapes to tile a surface, researchers uncovered a method that links ...

Discover how Fourier Analysis breaks down complex time series data into simpler components to identify trends and patterns, despite its limitations in stock forecasting.

Neuromorphic computers, inspired by the architecture of the human brain, are proving surprisingly adept at solving complex ...

It is a central question in neuroscience to understand how different regions of the brain interact, how strongly they "talk" ...

Researchers uncover the mathematical structure behind mesmerizing tiling patterns, linking their visual appeal to the ...

Algae is a ubiquitous feature in waterways throughout the globe, including western North America. Slippery, green epilithic ...

How do caterpillars keep memories after dissolving into soup? How do we transform without fragmenting? A new AI architecture ...

Most of the time, you assume your brain is either “on” or “off,” awake or asleep. A new study shows something far more ...

Abstract: Multilevel Green's function interpolation method (MLGFIM) is a fast numerical method whose computational complexity is O(N log N). Since MLGFIM is based on interpolation techniques, the ...