DOMAIN EXPERTISE
Areas of Experience
Deep domain expertise across a wide range of scientific and engineering disciplines.
Meta-Computing Methods
Prototyping of metacomputing syntactic and semantic methodologies and software for computing (what needs to be computed)ⁿ, for n>2.
Data-Driven Modeling
Computational model generation via the formation and solution of inverse design optimization problems using experimental or synthetic data.
Multiphysics Modeling & Simulation
Analysis, prototyping and deployment of multi-field, multi-domain and multi-scale physics and engineering models for design and performance prediction.
Machine Learning Surrogate Modeling
Analysis, prototyping and deployment of physics informed or physics agnostic surrogate models via utilization of modern and cutting-edge machine learning methodologies for multiphysics applications.
Multiaxial Robotic Material Characterization
Design, prototyping and exercising of parallel robotic testing systems for the characterization of the constitutive behavior of deformable material/structural systems.
Intelligent Autonomous Systems
Design and prototype, of polymorphic and mutli-locomotion uninhabited autonomous systems, that can operate in multiple environments and media.
Digital Twins
Physics-based and physics-agnostic (ML) design, prototyping and validation of digital twins of structural, thermal and electromagnetic systems and platforms, as well as advanced manufacturing processes such as the various flavors of additive manufacturing.
Advanced Manufacturing Modeling
Multisscale mutliphysics modeling of advanced manufacturing processes such as Laser Powder Bed Fusion, Direct Energy Deposition, Friction Stir Welding, etc.
Materials Science
Computational materials modeling, property prediction, and materials design.
Aerospace Engineering
Aerodynamic optimization, propulsion systems, and thermal management for aerospace applications.
Multiphysics of Extreme Environments
Analysis and modeling of systems under extreme electromagnetic, fluid, thermal, structural conditions for hypersonic, propulsion and phase transformation inducing applications.
Fluid Dynamics
CFD analysis for aerodynamics, hydrodynamics, and complex multiphase flow systems.
Structural Engineering
Finite element analysis, structural dynamics, fatigue, and failure prediction.
Heat Transfer Engineering
Modeling and discretization methods including finite elements for the analysis, design and behavior prediction of systems involving heat transfer.
Multiphysics Fracture Mechanics
Extension of traditional multiscale fracture mechanics for material/structural systems exposed to multi-field stimuli for crack propagation predictions.
Platform Sustainment & Lifing
Analysis and life prediction via material fatigue modeling based on data collected from platforms exposed to multi-field stimuli.
Experimental Multiphysics
Analysis, design and implementation of laboratory experimental setups involving multiple fields, and measuring technologies for material/structural systems exposed to multiple fields.
Multifield Full-Field Strain Measurement
Design and implementation of Direct Strain measurement methodology for deformable media under exposed to excitation from multiple fields.
For more detailed information of these capabilities feel free to explore the Google Scholar page of our Chief Scientist Dr. J.G. Michopoulos at:
https://scholar.google.com/citations?hl=en&user=BS6oGMwAAAAJ
