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Auteurs principaux: Gao, Hui, Wu, Xinming, Li, Jintao, Sun, Xiaoming, Yang, Jiarun
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2604.17235
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author Gao, Hui
Wu, Xinming
Li, Jintao
Sun, Xiaoming
Yang, Jiarun
author_facet Gao, Hui
Wu, Xinming
Li, Jintao
Sun, Xiaoming
Yang, Jiarun
contents Seismic stratigraphic interpretation of shelf-edge clinothems is essential for revealing tectonic evolution, paleoclimate change, depositional dynamic conditions, and hydrocarbon generation and accumulation during basin filling. However, traditional interpretation methods remain labor-intensive, time-consuming, and highly subjective. Although AI-based method offer a potential solution for automated this task, its development has been limited by the scarcity of comprehensive and representative benchmark datasets for shelf-edge clinothems. This limitation primarily arises from limited field data availability, the scarcity of reliable geological labels, and the structural complexity and strong variability of clinothem-dominated systems. To address this gap, we develop a hybrid benchmark dataset through two complementary strategies of field data curation and geological and geophysical forward modeling, ultimately generating 3,000 unlabeled field and 4,000 labeled synthetic seismic data, respectively. We further evaluate several representative baseline deep learning models on these datasets, and the accurate results demonstrate that the curated dataset provides an effective and representative basis for model training, quantitative assessment, and practical application. Finally, we have publicly released this hybrid benchmark dataset (https://doi.org/10.5281/zenodo.18910271) to facilitate the development, validation, and assessment of deep learning methods for automated seismic stratigraphic interpretation.
format Preprint
id arxiv_https___arxiv_org_abs_2604_17235
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Massive-scale unlabeled field and labeled synthetic seismic datasets of global shelf-edge clinothems
Gao, Hui
Wu, Xinming
Li, Jintao
Sun, Xiaoming
Yang, Jiarun
Geophysics
Seismic stratigraphic interpretation of shelf-edge clinothems is essential for revealing tectonic evolution, paleoclimate change, depositional dynamic conditions, and hydrocarbon generation and accumulation during basin filling. However, traditional interpretation methods remain labor-intensive, time-consuming, and highly subjective. Although AI-based method offer a potential solution for automated this task, its development has been limited by the scarcity of comprehensive and representative benchmark datasets for shelf-edge clinothems. This limitation primarily arises from limited field data availability, the scarcity of reliable geological labels, and the structural complexity and strong variability of clinothem-dominated systems. To address this gap, we develop a hybrid benchmark dataset through two complementary strategies of field data curation and geological and geophysical forward modeling, ultimately generating 3,000 unlabeled field and 4,000 labeled synthetic seismic data, respectively. We further evaluate several representative baseline deep learning models on these datasets, and the accurate results demonstrate that the curated dataset provides an effective and representative basis for model training, quantitative assessment, and practical application. Finally, we have publicly released this hybrid benchmark dataset (https://doi.org/10.5281/zenodo.18910271) to facilitate the development, validation, and assessment of deep learning methods for automated seismic stratigraphic interpretation.
title Massive-scale unlabeled field and labeled synthetic seismic datasets of global shelf-edge clinothems
topic Geophysics
url https://arxiv.org/abs/2604.17235