Dataset condensation with latent quantile matching

Dataset condensation (DC) methods aim to learn a smaller, synthesized dataset with informative data records to accelerate the training of machine learning models. Current distribution matching (DM) based DC methods learn a synthesized dataset by matching the mean of the latent embeddings between the...

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Bibliographic Details
Main Authors: Wei, Wei, De Schepper, Tom, Mets, Kevin
Format: Conference Proceeding
Language:English
Subjects:
Conferences
Continual graph learning
Current distribution
Data privacy
Dataset condensation
Dataset distillation
Distribution matching
Goodness of fit tests
Machine learning
Measurement
Memory management
Training
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Summary:Dataset condensation (DC) methods aim to learn a smaller, synthesized dataset with informative data records to accelerate the training of machine learning models. Current distribution matching (DM) based DC methods learn a synthesized dataset by matching the mean of the latent embeddings between the synthetic and the real dataset. However, two distributions with the same mean can still be vastly different. In this work, we demonstrate the shortcomings of using Maximum Mean Discrepancy to match latent distributions, i.e., the weak matching power and lack of outlier regularization. To alleviate these shortcomings, we propose our new method: Latent Quantile Matching (LQM), which matches the quantiles of the latent embeddings to minimize the goodness of fit test statistic between two distributions. Empirical experiments on both image and graph-structured datasets show that LQM matches or outperforms previous state of the art in distribution matching based DC. Moreover, we show that LQM improves the performance in continual graph learning (CGL) setting, where memory efficiency and privacy can be important. Our work sheds light on the application of DM based DC for CGL.
ISSN:2160-7516
DOI:10.1109/CVPRW63382.2024.00766