Atomfair Brainwave Hub: SciBase II / Artificial Intelligence and Machine Learning / AI-driven scientific discovery and automation

AI-driven scientific discovery and automation

Showing 121-132 of 158 articles

During gamma-ray burst afterglows in multi-messenger astrophysics observations

Reengineering Renaissance automata through modern biomechatronic principles

Discovering novel catalysts via machine learning algorithms across axonal propagation delays

Implementing affordance-based manipulation for autonomous robots during extreme mantle convection cycles

Via catalyst discovery algorithms for sustainable chemical manufacturing processes

Merging exoplanet science with extremophile biology to predict habitable zones

Mapping dark matter distributions via gravitational lensing of fast radio bursts

In magnetar magnetic field decay and its implications for high-energy astrophysics

Through lights-out production in fully automated semiconductor fabrication plants

Via catalyst discovery algorithms for efficient hydrogen peroxide synthesis

Via exoplanet atmosphere analysis to detect biosignatures with next-generation space telescopes

Enhancing autonomous lab assistants with CRISPR-Cas12a for high-throughput genetic screening