Direction-aware TDA descriptors, created by embedding the compression axis into filtrations, yield higher accuracy for Young's modulus prediction in porous materials than standard invariant descriptors.
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Three microCT workflows for interphase mass transfer in porous media produce average coefficients within one order of magnitude at fixed injection rates after volume-ratio filtering, but diverge on detailed concentration profiles.
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Direction-aware topological descriptors for Young's modulus prediction in porous materials
Direction-aware TDA descriptors, created by embedding the compression axis into filtrations, yield higher accuracy for Young's modulus prediction in porous materials than standard invariant descriptors.
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Quantifying Injection-Driven Mass Transfer within Porous Media via Time-Elapsed X-ray micro-Computed Tomography
Three microCT workflows for interphase mass transfer in porous media produce average coefficients within one order of magnitude at fixed injection rates after volume-ratio filtering, but diverge on detailed concentration profiles.