Investigating the impact of min-max data normalization on the regression perfor- mance of k-nearest neighbor with different similarity measurements,

· 2022 · DOI 10.14500/aro.10955

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MoTIF: A Mode-Structured Tensor Framework for Multi-Parametric Approximation, Super-Resolution and Forecasting of Unsteady Systems

physics.flu-dyn · 2025-10-29 · unverdicted · novelty 5.0

MoTIF uses HOSVD to separate multi-parametric unsteady flow data into modal components, applies GPR for parametric and spatial interpolation and RNN for temporal forecasting, achieving under 2% relative RMS error on laminar flow cases with varying Reynolds number and angle of attack.

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MoTIF: A Mode-Structured Tensor Framework for Multi-Parametric Approximation, Super-Resolution and Forecasting of Unsteady Systems physics.flu-dyn · 2025-10-29 · unverdicted · none · ref 33
MoTIF uses HOSVD to separate multi-parametric unsteady flow data into modal components, applies GPR for parametric and spatial interpolation and RNN for temporal forecasting, achieving under 2% relative RMS error on laminar flow cases with varying Reynolds number and angle of attack.

Investigating the impact of min-max data normalization on the regression perfor- mance of k-nearest neighbor with different similarity measurements,

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