The quantifiable clinothem--types, shapes and geometric relationships in the plio-pleistocene giant foresets formation, taranaki basin, new zealand

Ingrid Anell, Ivar Midtkandal · 2017

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Pretrain-to-alignment learning paradigm to improve geophysical AI applicability under scarce field labels and synthetic-to-field gaps: A case study of relative geologic time estimation in global shelf-edge clinothems

physics.geo-ph · 2026-05-16 · unverdicted · novelty 5.0

Introduces a staged pretrain-to-alignment workflow for geophysical AI that improves relative geologic time estimation across global field surveys despite limited labels and domain gaps.

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Pretrain-to-alignment learning paradigm to improve geophysical AI applicability under scarce field labels and synthetic-to-field gaps: A case study of relative geologic time estimation in global shelf-edge clinothems physics.geo-ph · 2026-05-16 · unverdicted · none · ref 4
Introduces a staged pretrain-to-alignment workflow for geophysical AI that improves relative geologic time estimation across global field surveys despite limited labels and domain gaps.

The quantifiable clinothem--types, shapes and geometric relationships in the plio-pleistocene giant foresets formation, taranaki basin, new zealand

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