We developed a novel uncertainty-aware framework MatPhase to predict material phases of electrodes from low contrast SEM images.
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Simulations of red blood cells are important for a variety of biomedical applications, ranging from studies of blood diseases to the transport of circulating tumor cells.
A group of ORNL researchers and collaborators have been working to develop a pipeline that simulates radiotherapy across different scales, e.g., the individual cellular scale, multicellular/tissue scale, organ scale, and whole-body scale.
Members and students of the Computational Urban Sciences group demonstrated a method for generating scenarios of urban neighborhood growth based on existing physical structures and placement of buildings in neighborhoods.
Joseph M. Lukens, Nicholas A. Peters, and Raphael C.
Raphael C. Pooser and Benjamin Lawrie have been recognized as authors of one of Optica’s top 15 most-cited papers for 2015 for "Ultrasensitive measurement of microcantilever displacement below the shot-noise limit," Optica 2, 393-399 (2015).