Quasi-implicit alternating-direction splitting combined with isogeometric analysis produces wildfire temperature simulations with 10 times higher accuracy and linear computational cost.
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2026 2verdicts
UNVERDICTED 2representative citing papers
A robust collocation-based PINN framework with variational stability simulates time-dependent pollution propagation, demonstrating that thermal inversions significantly increase particulate matter concentrations from snowmobile traffic in Longyearbyen.
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Wildfires Quasi-Implicit Alternative-Direction Simulations using Isogeometric Finite Element Method
Quasi-implicit alternating-direction splitting combined with isogeometric analysis produces wildfire temperature simulations with 10 times higher accuracy and linear computational cost.
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Collocation-based Robust Physics Informed Neural Networks for time-dependent simulations of pollution propagation under thermal inversion conditions on Spitsbergen
A robust collocation-based PINN framework with variational stability simulates time-dependent pollution propagation, demonstrating that thermal inversions significantly increase particulate matter concentrations from snowmobile traffic in Longyearbyen.