Shape-Informed Clustering of Multi-Dimensional Functional Data via Deep Functional Autoencoders
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Samuel Singh, Shirley Coyle and Mimi Zhang, Shape-Informed Clustering of Multi-Dimensional Functional Data via Deep Functional Autoencoders, Advances in Neural Information Processing Systems (NeurIPS), The 39th Annual Conference on Neural Information Processing Systems, San Diego, 1st - 7th Dec, 2025, 2025
Abstract
We introduce FAEclust, a novel functional autoencoder framework for cluster analysis of multi-dimensional functional data, data that are random realizations of vector-valued random functions. Our framework features a universal-approximator encoder that captures complex nonlinear interdependencies among component functions, and a universal-approximator decoder capable of accurately reconstructing both Euclidean and manifold-valued functional data. Stability and robustness are enhanced through innovative regularization strategies applied to functional weights and biases. Additionally, we incorporate a clustering loss into the network's training objective, promoting the learning of latent representations that are conducive to effective clustering. A key innovation is our shape-informed clustering objective, ensuring that the clustering results are resistant to phase variations in the functions. We establish the universal approximation property of our non-linear decoder and validate the effectiveness of our model through extensive experiments.
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Author's Homepage: http://people.tcd.ie/zhangm3
Other Titles: Advances in Neural Information Processing Systems (NeurIPS)
Type of material: Conference Paper

