The goal of engineering analysis is to use models of the real world to simulate and predict the performance of a design with confidence, explore design modifications, and inform downstream ...

“Single-cell omics” is producing exciting biological data. The field measures how active every gene is in every cell of an organism and promises to yield valuable information on how our bodies work.

Bacteriophages have been used therapeutically to treat infectious bacterial diseases for over a century. As ...

Crack propagation analysis is a critical area in structural engineering that addresses the prediction and management of crack growth in materials under diverse load conditions. This field combines ...

Train professional engineers in advanced methods of engineering analysis and modeling for exploration, simulation and optimization of mechanical engineering systems. Develop theoretical understanding ...

Protein engineering is a powerful biotechnological process that focuses on creating new enzymes or proteins and improving the functions of existing ones by manipulating their natural macromolecular ...

This article evaluates bulk analysis and scratch analysis methods for particle dispersion, highlighting the superiority of bulk analysis for quality assessment.

A deep learning framework combines convolutional and bidirectional recurrent networks to improve protein function prediction from genomic sequences. By automating feature extraction and capturing long ...

Climate change is already fueling dangerous heat waves, raising sea levels and transforming the oceans. Even if countries meet their pledges to reduce the greenhouse gas emissions that are driving ...