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Gaussian Processes

Gaussian Processes is a powerful framework for several machine learning tasks such as regression, classification and inference. Given a finite set of input output training data that is generated out of a fixed (but possibly unknown) function, the framework models the unknown function as a stochastic process such that the training outputs are a finite number of jointly Gaussian random variables, whose properties can then be used to infer the statistics (the mean and variance) of the function at test values of input.

Source: Sequential Randomized Matrix Factorization for Gaussian Processes: Efficient Predictions and Hyper-parameter Optimization

Papers

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Showing 12711280 of 1963 papers

TitleStatusHype
Hybrid Bayesian Neural Networks with Functional Probabilistic Layers0
Hyperboost: Hyperparameter Optimization by Gradient Boosting surrogate models0
Hyperspectral recovery from RGB images using Gaussian Processes0
Hypervolume-based Multi-objective Bayesian Optimization with Student-t Processes0
Identifying Causal Direction via Variational Bayesian Compression0
Improved active output selection strategy for noisy environments0
Improved Convergence Rates for Sparse Approximation Methods in Kernel-Based Learning0
Improved Inverse-Free Variational Bounds for Sparse Gaussian Processes0
Improve in-situ life prediction and classification performance by capturing both the present state and evolution rate of battery aging0
Improving Output Uncertainty Estimation and Generalization in Deep Learning via Neural Network Gaussian Processes0
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Benchmark Results

#ModelMetricClaimedVerifiedStatus
1ICKy, periodicRoot mean square error (RMSE)0.03Unverified