When you hear the term computer simulation, the first thing that pops into your mind is the bright, colorful graphics that ...

Climate change has become “that” topic – like evolution of species, plate tectonics, or AI – where the public has heard so ...

High-speed atomic force microscopy (HS-AFM) is the only experimental technique to directly watch proteins in dynamic action.

Computational simulation gives researchers the power to explore complex engineering problems that cannot be easily approached through theory and experiment alone. We are creating solutions using ...

Computational modeling is the use of mathematics, physics, and computer science to create complex, dynamic models of systems based on multiple data points. The growth of sophisticated data-gathering ...

Atrial fibrillation (AFib) is a cardiac disorder in which the chambers of the heart beat rapidly and irregularly. It's the ...

The human body’s nervous system is complex. Consisting of the brain, spinal cord and sensory organs, the nervous system acts as the communicator of the body, receiving information, deciding what ...

The Computational Neuroscience Center at Drexel’s Department of Neurobiology and Anatomy brings together a group of computational and experimental researchers with a common interest to understand ...

To pursue a better mechanistic understanding of ventricular arrhythmias, researchers are turning to whole-heart computational models, which are currently witnessing an evolution of a variety of ...

Researchers used computational modeling to uncover mutations in the human genome that likely influenced the evolution of human cognition. This groundbreaking research in human genomics could lead to a ...

Computational Data-Driven Modeling (CDM) II is the second in a sequence of two courses designed to introduce the student to skills in exploratory data analysis and data-driven computational modeling.