Dynamic Mode Decomposition

Dynamic Mode Decomposition (DMD) is a data-driven technique used to analyze complex dynamical systems by decomposing them into a set of simpler, time-evolving modes. Current research focuses on improving DMD's accuracy and efficiency, particularly through the development of kernel-based methods, deep learning integrations, and variations like higher-order DMD (HODMD) and optimized DMD (OPT-DMD) to handle noise, non-uniform data, and high dimensionality. These advancements are enabling more accurate modeling and prediction across diverse fields, including fluid dynamics, atmospheric science, and even the analysis of neural network training dynamics and biological signals. The resulting reduced-order models offer significant computational advantages for real-time applications and enhanced interpretability of complex systems.

Papers

November 8, 2024

October 22, 2024

Parsimonious Dynamic Mode Decomposition: A Robust and Automated Approach for Optimally Sparse Mode Selection in Complex Systems
Arpan Das, Pier Marzocca, Oleg Levinski
Robust Version Complex System Dynamic Mode Decomposition Automated Approach Motor Augmented Mode Orthogonal Matching Pursuit Mode Estimation

October 17, 2024

Data-Augmented Predictive Deep Neural Network: Enhancing the extrapolation capabilities of non-intrusive surrogate models
Shuwen Sun, Lihong Feng, Peter Benner
Surrogate Model Dynamic Mode Decomposition Convolutional Autoencoder Extrapolation Capability

October 8, 2024

When Graph Neural Networks Meet Dynamic Mode Decomposition
Dai Shi, Lequan Lin, Andi Han, Zhiyong Wang, Yi Guo, Junbin Gao
Graph Neural Network Dynamical System Dynamic Mode Decomposition

September 27, 2024

Analysis of Truncated Singular Value Decomposition for Koopman Operator-Based Lane Change Model
Chinnawut Nantabut
General Analysis Koopman Operator Singular Value Decomposition Dynamic Mode Decomposition Truncated Singular Value Decomposition

September 25, 2024

A parametric framework for kernel-based dynamic mode decomposition using deep learning
Konstantinos Kevopoulos, Dongwei Ye
Deep Learning High Dimensional Dynamic Mode Decomposition Parametric Model Surrogate Modelling

September 9, 2024

Bridging Autoencoders and Dynamic Mode Decomposition for Reduced-order Modeling and Control of PDEs
Priyabrata Saha, Saibal Mukhopadhyay
External Control Reduced Order Dynamic Mode Decomposition Model Reduction Spatiotemporal Dynamical System Generative Bridging Domain

September 2, 2024

Representing Neural Network Layers as Linear Operations via Koopman Operator Theory
Nishant Suresh Aswani, Saif Eddin Jabari, Muhammad Shafique
Dynamical System Koopman Operator Dynamic Mode Decomposition Nonlinear Activation Neural Network Layer Simple Neural Network

July 8, 2024

Change-Point Detection in Industrial Data Streams based on Online Dynamic Mode Decomposition with Control
Marek Wadinger, Michal Kvasnica, Yoshinobu Kawahara
External Control Data Stream Online Service Change Point Detection Dynamic Mode Decomposition Delay Embeddings

June 17, 2024

Entropic Regression DMD (ERDMD) Discovers Informative Sparse and Nonuniformly Time Delayed Models
Christopher W. Curtis, Erik Bollt, Daniel Jay Alford-Lago
Dynamic Mode Decomposition Information Flow Time Delay

May 8, 2024

May 1, 2024

Rigged Dynamic Mode Decomposition: Data-Driven Generalized Eigenfunction Decompositions for Koopman Operators
Matthew J. Colbrook, Catherine Drysdale, Andrew Horning
Data Driven Koopman Operator Dynamic Mode Decomposition Eigenfunction Decomposition

April 30, 2024

Automatic Cardiac Pathology Recognition in Echocardiography Images Using Higher Order Dynamic Mode Decomposition and a Vision Transformer for Small Datasets
Andrés Bell-Navas, Nourelhouda Groun, María Villalba-Orero, Enrique Lara-Pezzi, Jesús Garicano-Mena, Soledad Le Clainche
Deep Learning Convolutional Neural Network Vision Transformer Small Datasets Dynamic Mode Decomposition Myocardial Pathology Segmentation

April 13, 2024

Optimized Dynamic Mode Decomposition for Reconstruction and Forecasting of Atmospheric Chemistry Data
Meghana Velegar, Christoph Keller, J. Nathan Kutz
Full State Reconstruction State of the Art Forecasting Dynamic Mode Decomposition Atmospheric Chemistry

March 27, 2024

Compression of the Koopman matrix for nonlinear physical models via hierarchical clustering
Tomoya Nishikata, Jun Ohkubo
Nonlinear Dynamic Linear Compression Hierarchical Clustering Singular Value Decomposition Dynamic Mode Decomposition Physical System Koopman Model

March 19, 2024

Modal Analysis of Spatiotemporal Data via Multivariate Gaussian Process Regression
Jiwoo Song, Daning Huang
Gaussian Process Regression Dynamic Mode Decomposition SpatioTemporal Data Modal Analysis

March 18, 2024

A Data-driven Approach for Rapid Detection of Aeroelastic Modes from Flutter Flight Test Based on Limited Sensor Measurements
Arpan Das, Pier Marzocca, Giuliano Coppotelli, Oleg Levinski, Paul Taylor
Data Driven Approach Dynamic Mode Decomposition Flight Test Rapid Detection Limited Sensing Aeroelastic Mode

March 4, 2024

Koopman operators with intrinsic observables in rigged reproducing kernel Hilbert spaces
Isao Ishikawa, Yuka Hashimoto, Masahiro Ikeda, Yoshinobu Kawahara
Koopman Operator Reproducing Kernel Hilbert Space Dynamic Mode Decomposition Thermodynamic Observables

Dynamic Mode Decomposition

Papers

Analysis and Forecasting of the Dynamics of a Floating Wind Turbine Using Dynamic Mode Decomposition

Predictive Digital Twin for Condition Monitoring Using Thermal Imaging

Parsimonious Dynamic Mode Decomposition: A Robust and Automated Approach for Optimally Sparse Mode Selection in Complex Systems

Data-Augmented Predictive Deep Neural Network: Enhancing the extrapolation capabilities of non-intrusive surrogate models

When Graph Neural Networks Meet Dynamic Mode Decomposition

Analysis of Truncated Singular Value Decomposition for Koopman Operator-Based Lane Change Model

A parametric framework for kernel-based dynamic mode decomposition using deep learning

Bridging Autoencoders and Dynamic Mode Decomposition for Reduced-order Modeling and Control of PDEs

Representing Neural Network Layers as Linear Operations via Koopman Operator Theory

Change-Point Detection in Industrial Data Streams based on Online Dynamic Mode Decomposition with Control

Entropic Regression DMD (ERDMD) Discovers Informative Sparse and Nonuniformly Time Delayed Models

Multiplicative Dynamic Mode Decomposition

Real-Time Motion Detection Using Dynamic Mode Decomposition

Rigged Dynamic Mode Decomposition: Data-Driven Generalized Eigenfunction Decompositions for Koopman Operators

Automatic Cardiac Pathology Recognition in Echocardiography Images Using Higher Order Dynamic Mode Decomposition and a Vision Transformer for Small Datasets

Optimized Dynamic Mode Decomposition for Reconstruction and Forecasting of Atmospheric Chemistry Data

Compression of the Koopman matrix for nonlinear physical models via hierarchical clustering

Modal Analysis of Spatiotemporal Data via Multivariate Gaussian Process Regression

A Data-driven Approach for Rapid Detection of Aeroelastic Modes from Flutter Flight Test Based on Limited Sensor Measurements

Koopman operators with intrinsic observables in rigged reproducing kernel Hilbert spaces