A look into how sparse priors enhance predictions from limited data.
Ivan Cheltsov, Federico Cornalba, Clarice Poon
― 7 min read
Cutting edge science explained simply
A look into how sparse priors enhance predictions from limited data.
Ivan Cheltsov, Federico Cornalba, Clarice Poon
― 7 min read
Learn how stress impacts crowd dynamics for better safety management.
Daewa Kim, Demetrio Labate, Kamrun Mily
― 6 min read
Explore how magnetic fields interact with fluids in MHD.
Xi-Yuan Yin, Philipp Krah, Jean-Christophe Nave
― 5 min read
Learn about space-time model reduction to analyze complex systems efficiently.
Peter Frame, Aaron Towne
― 7 min read
Learn the basics of quantum chemistry and its importance in science.
James Barker, Michael Griebel, Jan Hamaekers
― 5 min read
Learn how denoising models tackle Poisson noise for clear images.
Abdul Halim, Abdur Rohim
― 7 min read
Exploring methods to simulate acoustic waves and their real-world uses.
Tao Yu, Tailong Jin, Yanfeng Shen
― 8 min read
This article explains discretization errors and a new method to measure them.
Yuto Miyatake, Kaoru Irie, Takeru Matsuda
― 6 min read
Learn how deep learning improves solving complex linear equations efficiently.
Idan Versano, Eli Turkel
― 7 min read
Understanding air pollution sources and impacts on health in central Taiwan.
Shu-Chuan Chen, Jui-Fang Chang, Yintzer Shih
― 6 min read
A look into how gas mixtures with varying masses interact and behave.
Zhen Hao, Ning Jiang, Liu Liu
― 7 min read
New method improves cardiovascular simulations, saving time and enhancing surgical planning.
Dongjie Jia, Mahdi Esmaily
― 5 min read
New methods improve the analysis of aerospace structures for better performance.
Alexander Saccani, Paolo Tiso
― 6 min read
Using machine learning to improve accuracy in numerical model error predictions.
Bozhou Zhuang, Sashank Rana, Brandon Jones
― 7 min read
A look at the complexities of predicting fluid behaviors over time.
Alfred S. Carasso
― 7 min read
Scientists tackle messy data in imaging to reveal hidden information.
Yutong Bu, Julianne Chung
― 7 min read
Learn how researchers improve data collection strategies for complex systems.
Ruhui Jin, Qin Li, Stephen O. Mussmann
― 5 min read
Utilizing neural networks to solve complex high-order elliptic equations efficiently.
Mengjia Bai, Jingrun Chen, Rui Du
― 7 min read
A look into controlling systems with parabolic partial differential equations.
Enrique Fernandez-Cara, Roberto Morales, Diego A. Souza
― 6 min read
A new method improves the accuracy and speed of simulating nonlinear water waves.
Anders Melander, Wojciech Laskowski, Spencer J. Sherwin
― 3 min read
Innovative methods to estimate stationary distributions in McKean-Vlasov stochastic differential equations.
Elsiddig Awadelkarim, Neil K. Chada, Ajay Jasra
― 6 min read
Scientists improve fluid simulations by blending methods for accurate results.
Gauthier Wissocq, Yongle Liu, Rémi Abgrall
― 5 min read
Using machine learning models to predict fluid movements efficiently.
Yadi Cao, Yuxuan Liu, Liu Yang
― 6 min read
Learn how polynomials help us make better guesses and manage errors.
Stefano De Marchi, Giacomo Cappellazzo
― 5 min read
Explore how the LDG method solves heat equations in simple terms.
Sergio Gómez, Chiara Perinati, Paul Stocker
― 6 min read
Learn the basics of the Klein-Gordon equation and HDG method clearly.
Shipra Gupta, Amiya Kumar Pani, Sangita Yadav
― 4 min read
Breaking down equations in science and engineering for clearer answers.
Marcin Łoś, Tomasz Służalec, Maciej Paszyński
― 7 min read
Scientists develop a new approach to predict floods, helping communities prepare better.
Eric Ngondiep
― 5 min read
Learn how shape-morphing solutions aid in solving complex equations with real data.
Zachary T. Hilliard, Mohammad Farazmand
― 7 min read
A new method enhances modeling of material phase changes.
Wolfgang Flachberger, Thomas Antretter, Daniel Acosta-Soba
― 6 min read
A look at how this model helps in fluid dynamics.
Débora A. F. Albanez, Maicon J. Benvenutti, Samuel Little
― 7 min read
Exploring how bacteria navigate fluids using mathematical models and methods.
Bikram Bir, Harsha Hutridurga, Amiya K. Pani
― 6 min read
Research reveals how ECoG signals relate to visual stimuli.
Changqing JI
― 7 min read
A study on how crowd behavior affects viral transmission.
A. I. Delis, N. Bekiaris-Liberis
― 5 min read
Discover how polymers influence fluid behavior in various industries.
Jonas Beddrich, Stephan B. Lunowa, Barbara Wohlmuth
― 5 min read
A simpler look at how the SLAR method predicts fluid and particle movement.
Nanyi Zheng, Daniel Hayes, Andrew Christlieb
― 6 min read
A look at fluid movement in fractured porous media using innovative methods.
Maria Vasilyeva, Ben S. Southworth, Shubin Fu
― 6 min read
Learn how adaptive methods streamline parameter identification in science and engineering.
Paolo Villani, Daniel Andrés-Arcones, Jörg F. Unger
― 7 min read
Exploring how RQR outperforms traditional QR algorithms in finding eigenvalues.
Daan Camps, Thomas Mach, Raf Vandebril
― 5 min read
Learn how new approaches improve cartograms for visual data representation.
Robert C. Sargent
― 5 min read