Official pytorch implementation of the paper "Bayesian Meta-Learning for the Few-Shot Setting via Deep Kernels" (NeurIPS 2020)
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Updated
Jan 19, 2022 - Python
Official pytorch implementation of the paper "Bayesian Meta-Learning for the Few-Shot Setting via Deep Kernels" (NeurIPS 2020)
Unofficial Implementation of the paper "Data-Efficient Reinforcement Learning with Probabilistic Model Predictive Control", applied to gym environments
Hyperpatameter Bayesian Optimization for Image Classification in PyTorch
Uncertainty in convolutional neural network predictions using Gaussian processes
Dataset and code for "Coarse-Grained Density Functional Theory Predictions via Deep Kernel Learning"
Proof-of-principle application of Gaussian process modeling to gamma-ray analyses. Code repository associated with the paper https://arxiv.org/abs/2010.10450.
We have created a module to run the Gaussian process model. We have implemented the code based on GPyTorch.
A Fast and Simplified Python Library for Uncertainty Estimation
Distributed surrogate-assisted evolutionary methods for multi-objective optimization of high-dimensional dynamical systems
Bayesian Optimization for MPPI Control of Robot Arm Planar Pushing
Demonstrating the use of Prefect to orchestrate the creation of machine learning surrogate models as applied to mechanistic crop models.
Highly performant and scalable out-of-the-box gaussian process regression and Bernoulli classification. Built upon GPyTorch, with a familiar sklearn api.
Models for EthicML
Explores the application of Gaussian Process (GP) and sparse GP algorithms to handle missing heart rate time series dataset. Our findings emphasize the importance of kernel selection, specifically the RBF kernel, and the careful tuning of hyperparameters to achieve optimal performance in imputation tasks
Implementation of Gaussian Process (GP) models using GPyTorch.
Implementation of Cyclist Pressure Research Paper
Contains code for Adaptive protection platform in Smart grids
Topics include function approximation, learning dynamics, using learned dynamics in control and planning, handling uncertainty in learned models, learning from demonstration, and model-based and model-free reinforcement learning.
Evaluating Deep Gaussian processes
Explore selected topics related to Gaussian processes
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