Predicting Biophysical Properties of Proteins ResearchInsightsCommentarysiam.org FeedsApplied GeometryComputational Science & Numerical AnalysisLife Sciences Machine learning models can help discover the useful information that is hidden in protein structural data.
Mathematical Model Explores Clinical Biomarkers and Personalized Treatment for Alzheimer’s Disease ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryLife SciencesOptimization AT CT23, Wenrui Hao presented a mathematical model of Alzheimer's disease that describes the progression of clinical biomarkers.
Modeling Permafrost: Soil, Ice, and Some Really Hard Mathematics ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisGeosciences and Math of Planet EarthMathematical Aspects of Materials Science Efficient computational models for permafrost thaw require accurate mathematical representations of physical processes.
How Do Adélie Penguins Move Optimally Over Varying Terrain? ResearchInsightsCommentarysiam.org FeedsControl and Systems TheoryGeosciences and Math of Planet EarthLife SciencesOptimization At CT23, Angelia O’Toole developed a dynamic optimization formulation for predicting penguin travel across terrain.
Adaptive Feedback Control Finds Applications in Pest Management ResearchInsightsCommentarysiam.org FeedsControl and Systems TheoryGeosciences and Math of Planet EarthLife Sciences Richard Rebarber used adaptive feedback control methods to model pest management of the Diaprepes root weevil at CT23.
Model Represents Metastatic Tumor Growth to Explore Treatments ResearchInsightsCommentarysiam.org FeedsControl and Systems TheoryLife Sciences Iulia Martina Bulai described a metastatic tumor growth model and associated numerical methods at CT23.
Novel Space Planning Framework Improves Underwater Mapping Process ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryOptimizationUncertainty Quantification At CT23, Brendan Englot introduced a space planning framework for underwater robots that utilizes simultaneous localization and mapping.
Quantifying Social and Nonsocial Influences in Substance Use Disorder ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryLife SciencesOptimization Leigh Pearcy used optimal control theory to determine effective management strategies for substance use disorder at CT23.
Foraging Behaviors, Predation Risk, and the Landscape of Fear ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryGeosciences and Math of Planet EarthOptimization At CT23, Marissa Gee explored the delicate balance between foraging behaviors and predation risk in Samango monkeys.
Predicting the Unexpected: Early Warning of Impending Climate Tipping Points ResearchInsightsCommentarysiam.org FeedsDynamical Systems, Nonlinear WavesGeosciences and Math of Planet Earth Relatively fast anthropogenic forcing may invoke rate-induced tipping in climate systems, which can have devastating global effects.
Gone with the Wind: Adaptive Mesh Refinement Captures the Turbulent Whirls and Eddies in Aerodynamics ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisDiscrete Mathematics and Theoretical Computer ScienceDynamical Systems, Nonlinear WavesGeosciences and Math of Planet Earth The simultaneous use of multiple solvers and meshes supports a dynamic overset mesh system for wind farm modeling.
Advancing Wind Energy Forecasts with Continuous Generative Representations ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisData ScienceDiscrete Mathematics and Theoretical Computer ScienceDynamical Systems, Nonlinear WavesGeosciences and Math of Planet EarthOptimization Continuous generative representations have the potential to improve wind data resolution and enhance renewable energy forecasts.
Self-assembly and Particle Aggregation in Stratified Fluids ResearchInsightsCommentarySIAM Newssiam.org FeedsComputational Science & Numerical AnalysisDynamical Systems, Nonlinear WavesMathematical Aspects of Materials ScienceAnalysis and Partial Differential Equations Under certain conditions, small-scale particulates can slowly form aggregates without external random flows or adhesion.
Untangling Topology with California Blackworms ResearchInsightsCommentarySIAM Newssiam.org FeedsApplied GeometryLife SciencesMathematical Aspects of Materials Science Experimental measurements of California blackworm tangles serve as the basis for a mathematical model.
Astroids Under Water ResearchInsightsCommentarySIAM Newssiam.org FeedsApplied GeometryClassical Applied Mathematics As an observer's eye moves, the image of a pebble at the bottom of a clear lake also moves along a stretched astroid.