Nonlinear System Identification

Nonlinear system identification aims to build accurate mathematical models of complex systems whose behavior isn't easily described by linear equations, primarily using data-driven approaches. Current research emphasizes developing robust methods that handle noisy data, sparse data, and adversarial attacks, often employing neural networks (including recurrent, convolutional, and neural ODEs), sparse identification of nonlinear dynamics (SINDy), and subspace methods, along with advanced optimization techniques like L-BFGS-B and ADMM. These advancements are crucial for improving control, prediction, and understanding in diverse fields, from robotics and industrial processes to aerospace and audio signal processing.

Papers

December 20, 2022

Likelihood-based generalization of Markov parameter estimation and multiple shooting objectives in system identification
Nicholas Galioto, Alex Arkady Gorodetsky
Hidden Markov Model System Identification Stochastic Dynamical System Nonlinear System Identification

October 26, 2022

Deep Subspace Encoders for Nonlinear System Identification
Gerben I. Beintema, Maarten Schoukens, Roland Tóth
State Estimation Deep Subspace Nonlinear System Identification Prediction Loss

September 30, 2022

Convergence of weak-SINDy Surrogate Models
Benjamin Russo, M. Paul Laiu
Early Stage Convergence Surrogate Model Surrogate Modeling Nonlinear System Identification Surrogate Dynamic

May 17, 2022

Nonlinear Model Identification and Observer Design for Thrust Estimation of Small-scale Turbojet Engines
Affaf Junaid Ahamad Momin, Gabriele Nava, Giuseppe LErario, Hosameldin Awadalla Omer Mohamed, Fabio Bergonti, Punith Reddy Vanteddu, Francesco Braghin, Daniele Pucci
Nonlinear System Identification Thrust Estimation Turbofan Engine Air Ground Robot Observer Design

February 28, 2022

Neural Ordinary Differential Equations for Nonlinear System Identification
Aowabin Rahman, Ján Drgoňa, Aaron Tuor, Jan Strube
Neural Ordinary Differential Equation System Identification Numerical Method Nonlinear System Identification Neural State Space Model

January 31, 2022

JULIA: Joint Multi-linear and Nonlinear Identification for Tensor Completion
Cheng Qian, Kejun Huang, Lucas Glass, Rakshith S. Srinivasa, Jimeng Sun
Tensor Completion Nonlinear System Identification

December 31, 2021

Training Recurrent Neural Networks by Sequential Least Squares and the Alternating Direction Method of Multipliers
Alberto Bemporad
Nonlinear Dynamic Sequential Learning Alternating Direction Method of Multiplier Nonlinear System Identification Class Wise Multiplier

December 19, 2021

Evaluating System Identification Methods for Predicting Thermal Dissipation of Heterogeneous SoCs
Joel Öhrling, Sébastien Lafond, Dragos Truscan
System Identification Nonlinear System Identification Thermal Simulation Heterogeneous System on Chip Model Structure Energy Dissipation Law

December 11, 2021

Online Information-Aware Motion Planning with Inertial Parameter Learning for Robotic Free-Flyers
Monica Ekal, Keenan Albee, Brian Coltin, Rodrigo Ventura, Richard Linares, David W. Miller
Uncertain Reasoning Parameter Uncertainty Nonlinear System Identification Inertial Parameter Identification Free Flying System Uncertainty

Nonlinear System Identification

Papers

Likelihood-based generalization of Markov parameter estimation and multiple shooting objectives in system identification

Deep Subspace Encoders for Nonlinear System Identification

Convergence of weak-SINDy Surrogate Models

Nonlinear Model Identification and Observer Design for Thrust Estimation of Small-scale Turbojet Engines

Neural Ordinary Differential Equations for Nonlinear System Identification

JULIA: Joint Multi-linear and Nonlinear Identification for Tensor Completion

Training Recurrent Neural Networks by Sequential Least Squares and the Alternating Direction Method of Multipliers

Evaluating System Identification Methods for Predicting Thermal Dissipation of Heterogeneous SoCs

Online Information-Aware Motion Planning with Inertial Parameter Learning for Robotic Free-Flyers