A Review of Model Order Reduction Methods for Large-Scale Structure Systems

Abstract: The large-scale structure systems in engineering are complex, high dimensional, and variety of physical mechanism couplings; it will be difficult to analyze the dynamic behaviors of complex systems quickly and optimize system parameters. Model order reduction (MOR) is an efficient way to address those problems and widely applied in the engineering areas. This paper focuses on the model order reduction of high-dimensional complex systems and reviews basic theories, well-posedness, and limitations of common meth… Show more

“…Applications cover a large variety of problems, from recovering the response of a washing machine using reduced models of its cabinet and legs [29], to investigating the nonlinear aeroservoelastic behaviour of a three-dimensional supersonic aircraft [30], among many others. The reader is referred to [4,31] for some complete reviews on CMS methods.…”

An artificial spring component mode synthesis method for built-up structures

“…In addition, special attention should be paid to reducing the model of interconnected systems in order to maintain the integrity and connection structure between different subsystems. erefore, using the HHO-PID method in this type of system will be challenging and may have an error in the controller output and not be accurate enough [27].…”

Design of HHO-PID Controllers for Load Angle of Power Plant Synchronous Generators

“…Note that parameterized solutions to PDEs typically cannot be obtained using FEM, particle simulations, or similar methods. Rather, this goal is usually accomplished using reduced order modeling (ROM) techniques [46,47]. ROM methods typically interpolate between a relatively small number of high-fidelity solutions computed at a handful of reference points in parameter space in order to approximate solutions at new points in parameter space.…”

Studying First Passage Problems using Neural Networks: A Case Study in the Slit-Well Microfluidic Device