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Autores principales: Zou, Yuetian, Zhang, Hanlei, Xu, Hua, Li, Songze, Xiao, Long
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2511.16685
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author Zou, Yuetian
Zhang, Hanlei
Xu, Hua
Li, Songze
Xiao, Long
author_facet Zou, Yuetian
Zhang, Hanlei
Xu, Hua
Li, Songze
Xiao, Long
contents Textual open intent classification is crucial for real-world dialogue systems, enabling robust detection of unknown user intents without prior knowledge and contributing to the robustness of the system. While adaptive decision boundary methods have shown great potential by eliminating manual threshold tuning, existing approaches assume isotropic distributions of known classes, restricting boundaries to balls and overlooking distributional variance along different directions. To address this limitation, we propose EliDecide, a novel method that learns ellipsoid decision boundaries with varying scales along different feature directions. First, we employ supervised contrastive learning to obtain a discriminative feature space for known samples. Second, we apply learnable matrices to parameterize ellipsoids as the boundaries of each known class, offering greater flexibility than spherical boundaries defined solely by centers and radii. Third, we optimize the boundaries via a novelly designed dual loss function that balances empirical and open-space risks: expanding boundaries to cover known samples while contracting them against synthesized pseudo-open samples. Our method achieves state-of-the-art performance on multiple text intent benchmarks and further on a question classification dataset. The flexibility of the ellipsoids demonstrates superior open intent detection capability and strong potential for generalization to more text classification tasks in diverse complex open-world scenarios.
format Preprint
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publishDate 2025
record_format arxiv
spellingShingle Ellipsoid-Based Decision Boundaries for Open Intent Classification
Zou, Yuetian
Zhang, Hanlei
Xu, Hua
Li, Songze
Xiao, Long
Computation and Language
Artificial Intelligence
Textual open intent classification is crucial for real-world dialogue systems, enabling robust detection of unknown user intents without prior knowledge and contributing to the robustness of the system. While adaptive decision boundary methods have shown great potential by eliminating manual threshold tuning, existing approaches assume isotropic distributions of known classes, restricting boundaries to balls and overlooking distributional variance along different directions. To address this limitation, we propose EliDecide, a novel method that learns ellipsoid decision boundaries with varying scales along different feature directions. First, we employ supervised contrastive learning to obtain a discriminative feature space for known samples. Second, we apply learnable matrices to parameterize ellipsoids as the boundaries of each known class, offering greater flexibility than spherical boundaries defined solely by centers and radii. Third, we optimize the boundaries via a novelly designed dual loss function that balances empirical and open-space risks: expanding boundaries to cover known samples while contracting them against synthesized pseudo-open samples. Our method achieves state-of-the-art performance on multiple text intent benchmarks and further on a question classification dataset. The flexibility of the ellipsoids demonstrates superior open intent detection capability and strong potential for generalization to more text classification tasks in diverse complex open-world scenarios.
title Ellipsoid-Based Decision Boundaries for Open Intent Classification
topic Computation and Language
Artificial Intelligence
url https://arxiv.org/abs/2511.16685