COMSOL Multiphysics is a cross-platform finite element analysis, solver and multiphysics simulation software. It allows conventional physics-based user interfaces and coupled systems of partial differential equations (PDEs). COMSOL provides an IDE and unified workflow for electrical, mechanical, fluid, and chemical applications.

Comsol Multiphysics Finite Element Simulaltion
Comsol Multiphysics 5.3a

The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. In the automotive industry engineering work groups are able to consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and integrated solver technology

Abaqus Unified Finite Element Analysis
Abaqus 6.14

Simcenter Testing Solutions deliver critical insights for innovate smart products, increase testing productivity and efficiency, maintain quality, enhance team collaboration and engineering flexibility, close the loop with simulation and lower cost of ownership. Simcenter Testlab integrates multiphysics data acquisition hardware with a complete suite of acquisition, analytics and modeling software to cover a wide range of test needs.

Simcenter Testlab Data Aquisition and Analysis Solution

MATLAB® combines a desktop environment tuned for iterative analysis and design processes with a programming language that expresses matrix and array mathematics directly. It includes the Live Editor for creating scripts that combine code, output, and formatted text in an executable notebook.

Mathematical Programming and Plotting Software
Matlab R2019b

Simplify3D includes an incredibly realistic pre-print simulation that allows you to see the exact actions your 3D printer will perform before you start the print. The simulation includes information about the exact speeds, sequences, and settings that are used for your print so that you can quickly verify these settings at a glance.

3D Printing Slicing Software
Simplify 3D

VibSoft was specifically developed for data acquisition in combination with laser Doppler vibrometers. In addition to the acquisition and analysis functions, vibrometer settings can be remotely controlled using the interface. Clever features such as integrated signal enhancement boost data quality, while the optional integrated function generator for arbitrary excitation signals and the real-time video imaging display including laser spot make set-up, measurement and documentation operations a great deal easier for you.

Data Acquisition for Laser Vibrometers

VA-Lab is an acoustical measurement software which with modules designed according to ISO standard requirements, such as Sound Power, Sound Insulation, and Impedance Measurements.

Acoustical Measurement Software
VA Lab

Grapher is a full-featured scientific graphing package, allowing the user to import data in many formats, create and combine a wide variety of 2- and 3-D plot types, and customize the plots in infinite detail.

Grapher 2D & 3D Plotting and Data Visualization and Analysis

LabVIEW offers a graphical programming approach that helps you visualize every aspect of your application, including hardware configuration, measurement data, and debugging. This visualization makes it simple to integrate measurement hardware from any vendor, represent complex logic on the diagram, develop data analysis algorithms, and design custom engineering user interfaces.

LabVIEW Data Acquisition and Analysis

Defining the acoustic properties of porous noise control treatments is a critical part of the acoustical design process in a simulation software. FOAM-X calculates the required acoustic material properties from standard tests. FOAM-X uses identification algorithms that works with acoustic data output from ASTM E1050 and ISO 10534-2 impedance tube tests or ASTM E2611 transmission tube tests to identify porous material properties. From sound absorption coefficient or dynamic bulk modulus and dynamic bulk density, it calculates the main acoustic properties of open-cell porous materials: open porosity, static airflow resistivity, tortuosity, viscous and thermal characteristic lengths, thermal static permeability, Young’s modulus, Poisson’s ratio and damping loss factor.

Foam-X: Acoustic Property Identification of Porous Materials
Foam - X

NOVA is an easy-to-use, flexible and powerful solution used to predict and optimize the acoustic properties of materials and their integration into multilayered structures. NOVA applies to foam, fiber, visco-elastic and solid structure and other deadeners. By modeling these materials, design decision can be made to improve the performance in the required application: Automobiles (carpets, seats, headliners, hood, trunk and cargo trim linings, floor systems, multilayered treatments), Aircraft (trim, damping, seats, floor, panel treatments); Buildings (insulation walls, doors, carpets, single/double windows); Materials (optimize acoustic performance)

NOVA - Multilayered Material Acoustic Simulation and Design Software


Wichita State University

Aerospace Engineering

Wallace Hall RM 208

1845 Fairmount Street
Wichita, KS 67260-0044