A new study reveals how biological branching networks use surface geometry to shape blood vessels, brains, and plants.

Spatiotemporal Evolution Patterns and Intelligent Forecasting of Passenger Flow in Megacity High-Speed Rail Hubs: A Case ...

The conservation of genome regulatory elements over long periods of evolution is not limited to vertebrates, as previously ...

Oswal Pumps maintained that while headline numbers may appear volatile due to the structure of government-led execution ...

For more than a century, scientists have wondered why physical structures like blood vessels, neurons, tree branches, and ...

Biologists are confronting a problem they thought they had mostly solved: what, exactly, counts as life. A wave of ...

Biologists are quietly rewriting what it means to be alive, and the human body has become one of their strangest frontiers.

Scientists have just organized an enormous collection of predicted protein shapes into families, using artificial intelligence and a powerful new comparison method. Working from AlphaFold models ...

In the vast digital landscape of information, from intricate design specifications to extensive patent literature and complex verification reports, extracting meaningful insights often feels like ...

Computer vision systems combined with machine learning techniques have demonstrated success as alternatives to empirical methods for classification and selection. This study aimed to classify tomatoes ...

Introduction: The unmanned aerial vehicle -based light detection and ranging (UAV-LiDAR) can quickly acquire the three-dimensional information of large areas of vegetation, and has been widely used in ...