Gaussian Process-Gated Hierarchical Mixtures of Experts

Yuhao Liu; Marzieh Ajirak; Petar M. Djuric

doi:10.1109/TPAMI.2024.3381936

Gaussian Process-Gated Hierarchical Mixtures of Experts

Yuhao Liu
, Marzieh Ajirak
, Petar M. Djuric

Stony Brook University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

In this article, we propose novel Gaussian process-gated hierarchical mixtures of experts (GPHMEs). Unlike other mixtures of experts with gating models linear in the input, our model employs gating functions built with Gaussian processes (GPs). These processes are based on random features that are non-linear functions of the inputs. Furthermore, the experts in our model are also constructed with GPs. The optimization of the GPHMEs is performed by variational inference. The proposed GPHMEs have several advantages. They outperform tree-based HME benchmarks that partition the data in the input space, and they achieve good performance with reduced complexity. Another advantage is the interpretability they provide for deep GPs, and more generally, for deep Bayesian neural networks. Our GPHMEs demonstrate excellent performance for large-scale data sets, even with quite modest sizes.

Original language	English
Pages (from-to)	6443-6453
Number of pages	11
Journal	IEEE Transactions on Pattern Analysis and Machine Intelligence
Volume	46
Issue number	9
DOIs	https://doi.org/10.1109/TPAMI.2024.3381936
State	Published - 2024

Keywords

Gaussian processes
and random features
mixtures of experts
soft decision trees

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10.1109/TPAMI.2024.3381936

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title = "Gaussian Process-Gated Hierarchical Mixtures of Experts",

abstract = "In this article, we propose novel Gaussian process-gated hierarchical mixtures of experts (GPHMEs). Unlike other mixtures of experts with gating models linear in the input, our model employs gating functions built with Gaussian processes (GPs). These processes are based on random features that are non-linear functions of the inputs. Furthermore, the experts in our model are also constructed with GPs. The optimization of the GPHMEs is performed by variational inference. The proposed GPHMEs have several advantages. They outperform tree-based HME benchmarks that partition the data in the input space, and they achieve good performance with reduced complexity. Another advantage is the interpretability they provide for deep GPs, and more generally, for deep Bayesian neural networks. Our GPHMEs demonstrate excellent performance for large-scale data sets, even with quite modest sizes.",

keywords = "Gaussian processes, and random features, mixtures of experts, soft decision trees",

author = "Yuhao Liu and Marzieh Ajirak and Djuric, \{Petar M.\}",

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T1 - Gaussian Process-Gated Hierarchical Mixtures of Experts

AU - Liu, Yuhao

AU - Ajirak, Marzieh

AU - Djuric, Petar M.

PY - 2024

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N2 - In this article, we propose novel Gaussian process-gated hierarchical mixtures of experts (GPHMEs). Unlike other mixtures of experts with gating models linear in the input, our model employs gating functions built with Gaussian processes (GPs). These processes are based on random features that are non-linear functions of the inputs. Furthermore, the experts in our model are also constructed with GPs. The optimization of the GPHMEs is performed by variational inference. The proposed GPHMEs have several advantages. They outperform tree-based HME benchmarks that partition the data in the input space, and they achieve good performance with reduced complexity. Another advantage is the interpretability they provide for deep GPs, and more generally, for deep Bayesian neural networks. Our GPHMEs demonstrate excellent performance for large-scale data sets, even with quite modest sizes.

AB - In this article, we propose novel Gaussian process-gated hierarchical mixtures of experts (GPHMEs). Unlike other mixtures of experts with gating models linear in the input, our model employs gating functions built with Gaussian processes (GPs). These processes are based on random features that are non-linear functions of the inputs. Furthermore, the experts in our model are also constructed with GPs. The optimization of the GPHMEs is performed by variational inference. The proposed GPHMEs have several advantages. They outperform tree-based HME benchmarks that partition the data in the input space, and they achieve good performance with reduced complexity. Another advantage is the interpretability they provide for deep GPs, and more generally, for deep Bayesian neural networks. Our GPHMEs demonstrate excellent performance for large-scale data sets, even with quite modest sizes.

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KW - and random features

KW - mixtures of experts

KW - soft decision trees

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JO - IEEE Transactions on Pattern Analysis and Machine Intelligence

JF - IEEE Transactions on Pattern Analysis and Machine Intelligence

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ER -

Gaussian Process-Gated Hierarchical Mixtures of Experts

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Keywords

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