Generating Skyline Datasets for Data Science Models
February 16, 2025 Β· Declared Dead Β· π International Conference on Extending Database Technology
"No code URL or promise found in abstract"
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Authors
Mengying Wang, Hanchao Ma, Yiyang Bian, Yangxin Fan, Yinghui Wu
arXiv ID
2502.11262
Category
cs.DB: Databases
Cross-listed
cs.AI
Citations
1
Venue
International Conference on Extending Database Technology
Last Checked
4 months ago
Abstract
Preparing high-quality datasets required by various data-driven AI and machine learning models has become a cornerstone task in data-driven analysis. Conventional data discovery methods typically integrate datasets towards a single pre-defined quality measure that may lead to bias for downstream tasks. This paper introduces MODis, a framework that discovers datasets by optimizing multiple user-defined, model-performance measures. Given a set of data sources and a model, MODis selects and integrates data sources into a skyline dataset, over which the model is expected to have the desired performance in all the performance measures. We formulate MODis as a multi-goal finite state transducer, and derive three feasible algorithms to generate skyline datasets. Our first algorithm adopts a "reduce-from-universal" strategy, that starts with a universal schema and iteratively prunes unpromising data. Our second algorithm further reduces the cost with a bi-directional strategy that interleaves data augmentation and reduction. We also introduce a diversification algorithm to mitigate the bias in skyline datasets. We experimentally verify the efficiency and effectiveness of our skyline data discovery algorithms, and showcase their applications in optimizing data science pipelines.
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