Rotational Propulsion of Soft Rod-like Robots ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisDynamical Systems, Nonlinear WavesLife SciencesMathematical Aspects of Materials Science Can a rotating magnetic field propel an axisymmetric and fore-aft symmetric robot if it is soft and deformable?
Dynamics of Droplet Formation and Pinch-off with a One-dimensional Mathematical Model ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisDynamical Systems, Nonlinear Waves The droplet formation process is full of physics and mathematics that describe the governing method of droplet pinch-off.
Mass Nutritional Supplementation Initiatives Mitigate Measles Infections in Niger ResearchInsightsCommentaryBlogsiam.org FeedsDynamical Systems, Nonlinear WavesLife Sciences At ICIAM 2023, Navideh Noori modeled the positive impacts of mass nutritional supplementation in the control of measles.
Quantifying the Boundary Conditions of Molting Behavior in Snakes and Caterpillars ResearchInsightsCommentaryBlogsiam.org FeedsApplied GeometryLife Sciences At ICIAM 2023, Taiju Yoneda used mechanical experiments to investigate the molting patterns in snakes and caterpillars.
New Form of Immunotherapy May Improve Outcomes of Melanoma Treatment ResearchInsightsCommentarysiam.org FeedsControl and Systems TheoryLife Sciences Paulo Mancera generated a model to explore the effectiveness of CAR T-cell therapy in combatting advanced melanoma at ICIAM 2023.
Model Investigates the Dynamics of Rabies Transmission in Vampire Bat Colonies ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryGeosciences and Math of Planet EarthLife Sciences During ICIAM 2023, Julie Blackwood integrated data and modeling to understand rabies transmission within vampire bat colonies.
Mathematics Sheds Light on Effective Application of Sterile Insect Technique ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryGeosciences and Math of Planet EarthLife Sciences Yves Dumont modeled the effectiveness of the sterile insect technique for oriental fruit flies and mosquitoes at ICIAM 2023.
Wolbachia-based Biocontrol Methods Limit the Spread of Mosquito-borne Illness ResearchInsightsCommentaryBlogsiam.org FeedsControl and Systems TheoryGeosciences and Math of Planet EarthLife Sciences At ICIAM 2023, Olga Vasilieva compared the use of Wolbachia infections and chemical insecticides to control mosquito populations.
Circulation Models Assess the Impacts of Congenital Heart Defects and Hypergravity ResearchInsightsCommentarysiam.org FeedsControl and Systems TheoryLife SciencesOptimization Zan Ahmad and Alanna Kennard addressed different aspects of control in blood circulation models at CT23.
The Same, but Different, but Still the Same: Discovering Differences Between Neutrophil Elastase and Cathepsin G ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisLife Sciences A workflow compares conformational changes in similar proteins whose amino acid sequences have different lengths.
A Computational Framework for the Simulation of Microswimming ResearchInsightsCommentarysiam.org FeedsComputational Science & Numerical AnalysisLife Sciences The framework for microswimming simulation is based on mathematical models for fluid-structure interactions.
Drift Matters: Unsupervised Anomaly Detection and National Security ResearchInsightsCommentarysiam.org FeedsData ScienceGeosciences and Math of Planet Earth Few existing algorithms can handle the concept drift challenges that are specific to maritime trajectories.
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.