Chair of Virtual Engineering

Analyzing // Designing // Visualizing

Whenever there is a hard job to be done I assign it to a lazy man; he is sure to find an easy way of doing it.

//Walter Chrysler

About

Chair of Virtual Engineering provides expertise in Virtual Engineering, Mechanics, Computational Fluid Dynamics, Aeroelastic Simulations, Reduced Order Modelling, Topological Optimization, Finite Element Method and Biomedical Engineering.
The ChoVE has substantial experience in flow stability, including own methods and algorithms, modal analysis, flow empirical analysis (POD, DMD), flow modeling, modes interactions and low-dimensional models (LDM).
ChoVE represent the university group working in advanced CAD and software development. 3D modeling and FEM computations of structural and CFD problems are based on in-house and industrial software.
Another ChoVE activity is represented by algorithm development, topological optimization and integration of existing codes and methods into the area of CFD and multidisciplinary problems like aeroelasticity.
Another area of research work is connected with CAME – Computer Aided Medical Engineering and applications of engineering tools in medical and biomedical investigations, three dimensional geometry reconstruction of objects in CAD systems obtained from different type of input data, thermo-vision systems applied in medical and engineering problems, Reverse Engineering and Rapid Prototyping techniques, three dimensional visualizations and simulations of CAD models, Motion Capture systems and face recognition systems.

Virtual Engineering
Computational Fluid Dynamics
Aeroelasticity
Reduced Order Modelling
Topological Optimization
Biomedical Engineering

Team

Professors

Prof. dr hab. inz.

Marek Morzynski

Computational Fluid Dynamics

Finite Element Method

Aeroelasticity

Dr hab. inz., prof. PP

Michal Nowak

Optimization

Bioengineering

Finite Element Method

Doctors of Philophy

Dr inz.

Michal Rychlik

Biomedical Engineering

Reverse Engineering

CAx Systems

Dr inz.

Robert Roszak

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Dr inz.

Witold Stankiewicz

Computational Fluid Dynamics

Reduced Order Modelling

Structural Analysis

Dr inz.

Rafal Mostowski

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Dr inz.

Piotr Posadzy

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Dr inz.

Krzysztof Kotecki

Computational Fluid Dynamics

Reduced Order Modelling

Finite Element Method

Doctoral students

Mgr inz.

Dominik Gawel

Biomedical Engineering

Machine Learning

Rapid Prototyping

Mgr inz.

Wojciech Szeliga

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Mgr inz.

Piotr Zuchniarz

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Projects

IDIHOM
Industrialisation of High-Order Methods – A Top-Down Approach
Virdiamed
Wirtualne środowisko przestrzennego obrazowania diagnostycznego zwiększającego dostępność do wysoko specjalistycznych procedur medycznych
OptoAero
Multidyscyplinarne modelowanie aerosprężystości z optymalizacją strukturalną
Nowa metoda generowania modów fizycznych dla niskowymiarowego modelowania przepływów
Numerical analysis of geometrical features of 3D objects in the aspect of three dimensional anthropometrical and biometrical data
Develop of fast estimation method of aero-elastic proprietary of plain during flight flatter tests
Niskowymiarowa analiza przepływu w aspekcie modelowania aerosprężystości opartej na siatkach o różnym stopniu dyskretyzacji
Application of structural optimization according to biological pattern in computer aided design process

Cooperation

Adress:

Poznan University of Technology

Chair of Virtual Engineering

24 Jana Pawla II Street

61-138 Poznan, Poland


Contact:

Phone: 0048 61 665 3113

Fax: 0048 61 665 3114

E-mail: office_cve@put.poznan.pl