Normalizing Flow

Normalizing flows are a class of generative models that learn complex probability distributions by transforming a simple base distribution through a series of invertible transformations. Current research focuses on improving the efficiency and scalability of these flows, particularly for high-dimensional and multi-modal data, with advancements in architectures like continuous normalizing flows and the development of novel training algorithms such as flow matching. These models find applications across diverse fields, including image generation, Bayesian inference, and scientific modeling, offering advantages in density estimation, sampling, and uncertainty quantification.

Papers

November 24, 2023

A Comparison of PDF Projection with Normalizing Flows and SurVAE
Paul M. Baggenstoss, Felix Govaers
Consistent Comparison Normalizing Flow Generative Network Lung VAE Perspective Projection Preserving Transformation

November 23, 2023

Multivariate Scenario Generation of Day-Ahead Electricity Prices using Normalizing Flows
Hannes Hilger, Dirk Witthaut, Manuel Dahmen, Leonardo Rydin Gorjao, Julius Trebbien, Eike Cramer
Normalizing Flow Load Forecasting Electricity Market Scenario Generation Day Ahead

November 22, 2023

Guided Flows for Generative Modeling and Decision Making
Qinqing Zheng, Matt Le, Neta Shaul, Yaron Lipman, Aditya Grover, Ricky T. Q. Chen
Generative Modeling Decision Making Normalizing Flow Conditional Generative Classifier Free Guidance Flow Trajectory

November 20, 2023

Gaussian Interpolation Flows
Yuan Gao, Jian Huang, Yuling Jiao
Generative Modeling Normalizing Flow Gaussian Flow

November 12, 2023

November 11, 2023

Topology-Matching Normalizing Flows for Out-of-Distribution Detection in Robot Learning
Jianxiang Feng, Jongseok Lee, Simon Geisler, Stephan Gunnemann, Rudolph Triebel
Distribution Detection Normalizing Flow Robot Learning Density Estimation 2 Dimensional Object Detection Class Conditional Robot Deployment

November 3, 2023

Structured Neural Networks for Density Estimation and Causal Inference
Asic Q. Chen, Ruian Shi, Xiang Gao, Ricardo Baptista, Rahul G. Krishnan
Generative Model Causal Inference Normalizing Flow Density Estimation Efficient Generative Autoregressive Flow Structured Neural Network

October 29, 2023

Rare Event Probability Learning by Normalizing Flows
Zhenggqi Gao, Dinghuai Zhang, Luca Daniel, Duane S. Boning
Normalizing Flow Importance Sampling Rare Event Proposal Distribution

October 25, 2023

October 19, 2023

Canonical normalizing flows for manifold learning
Kyriakos Flouris, Ender Konukoglu
Normalizing Flow Manifold Learning Low Dimensional Manifold Non Linear Manifold

October 18, 2023

Fast Parameter Inference on Pulsar Timing Arrays with Normalizing Flows
David Shih, Marat Freytsis, Stephen R. Taylor, Jeff A. Dror, Nolan Smyth
Normalizing Flow Posterior Inference Simulation Based Inference Gravitational Wave Posterior Distribution McMc Sampling Pulsar Time of Arrival

October 1, 2023

Deterministic Langevin Unconstrained Optimization with Normalizing Flows
James M. Sullivan, Uros Seljak
Bayesian Optimization Normalizing Flow Langevin Dynamic Gradient Free

September 28, 2023

September 26, 2023

PINF: Continuous Normalizing Flows for Physics-Constrained Deep Learning
Feng Liu, Faguo Wu, Xiao Zhang
Normalizing Flow Fokker Planck Equation Physic Constrained Density Evolution