Search results for: FINITE ELEMENT METHOD, MESH, OPTIMIZATION

• GPU-Accelerated 3D Mesh Deformation for Optimization Based on the Finite Element Method

  Publication

  • A. Lamęcki
  • A. Dziekoński
  • Ł. Balewski
  • G. Fotyga
  • M. Mrozowski

  - RADIOENGINEERING - Year 2017

  This paper discusses a strategy for speeding up the mesh deformation process in the design-byoptimization of high-frequency components involving electromagnetic field simulations using the 3D finite element method (FEM). The mesh deformation is assumed to be described by a linear elasticity model of a rigid body; therefore, each time the shape of the device is changed, an auxiliary elasticity finite-element problem must be solved....

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• Local mesh morphing technique for parametrized macromodels in the finite element method

  Publication

  • M. Mul
  • G. Fotyga
  • M. Mrozowski

  - Year 2017

  This paper presents a novel approach for enhancing the efficiency of the design process of microwave devices by means of the finite element method. It combines mesh morphing with local model order reduction (MOR) and yields parametrized macromodels that can be used to significantly reduce the number of variables in the FEM system of equations and acceleration of computer simulation. A projection basis for local reduction is generated...

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• Local Mesh Deformation for accelerated parametric studies based on the Finite Element Method

  Publication

  • M. Mul
  • G. Fotyga
  • M. Mrozowski

  - Year 2017

  This paper presents an approach for enhancing the efficiency of two-dimensional Finite Element Method analysis in parametric studies or optimisation process of microwave components. The new approach involves local mesh deformation applied near the elements that are modified during computations. Since in the proposed approach the topology of the mesh remains unchanged, a new mesh does not have to be generated from scratch when the...

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• Impact of the Finite Element Mesh Structure on the Solution Accuracy of a Two-Dimensional Kinematic Wave Equation

  Publication

  • D. Gąsiorowski

  - Water - Year 2022

  The paper presents the influence of the finite element mesh structure on the accuracy of the numerical solution of a two-dimensional linear kinematic wave equation. This equation was solved using a two-level scheme for time integration and a modified finite element method with triangular elements for space discretization. The accuracy analysis of the applied scheme was performed using a modified equation method for three different...

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• An Efficient Framework For Fast Computer Aided Design of Microwave Circuits Based on the Higher-Order 3D Finite-Element Method

  Publication

  • A. Lamęcki
  • Ł. Balewski
  • M. Mrozowski

  - RADIOENGINEERING - Year 2014

  In this paper, an efficient computational framework for the full-wave design by optimization of complex microwave passive devices, such as antennas, filters, and multiplexers, is described. The framework consists of a computational engine, a 3D object modeler, and a graphical user interface. The computational engine, which is based on a finite element method with curvilinear higher-order tetrahedral elements, is coupled with built-in...

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• A 3D-FEM mesh technique for fast analysis of waveguide problems containing rotatable tuning elements

  Publication

  • G. Fotyga
  • P. Bielski
  • K. Nyka

  - Year 2014

  In this paper a meshing technique for 3D Finite Element Method is presented. It allows for fast analysis and optimization of the waveguide structures, which contain rotatable tuning elements. In the proposed procedure a thin layer of varying cylindrical mesh buffer is introduced in order to reuse unchanged mesh and FEM matrices in the rest of the domain.

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• Communication and Load Balancing Optimization for Finite Element Electromagnetic Simulations Using Multi-GPU Workstation

  Publication

  • A. Dziekoński
  • P. Sypek
  • A. Lamęcki
  • M. Mrozowski

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2017

  This paper considers a method for accelerating finite-element simulations of electromagnetic problems on a workstation using graphics processing units (GPUs). The focus is on finite-element formulations using higher order elements and tetrahedral meshes that lead to sparse matrices too large to be dealt with on a typical workstation using direct methods. We discuss the problem of rapid matrix generation and assembly, as well as...

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• MHD darcy-forchheimer nanofluid flow and entropy optimization in an odd-shaped enclosure filled with a (MWCNT-Fe3O4/water) using galerkin finite element analysis

  Publication

  • W. Al-Kouz
  • A. Aissa
  • A. Koulali
  • W. Jamshed
  • H. Moria
  • K. Nisar
  • A. Mourad
  • A. Abdel-Aty
  • M. Khashan
  • I. Yahia

  - Scientific Reports - Year 2021

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• Electromagnetic Simulation with 3D FEM for Design Automation in 5G Era

  Publication

  • Ł. Balewski
  • M. Baranowski
  • M. Jasiński
  • A. Lamęcki
  • M. Mrozowski

  - ZTE COMMUNICATIONS - Year 2020

  Electromagnetic simulation and electronic design automation (EDA) play an important role in the design of 5G antennas and radio chips. The simulation challenges include electromagnetic effects and long simulation time and this paper focuses on simulation software based on finite-element method (FEM). The state-of-the-art EDA software using novel computational techniques based on FEM can not only accelerate numerical analysis, but...

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• Processing of point cloud data retrieved from terrestrial laser scanning for structural modeling by Finite Element Method

  Publication

  • P. Ziółkowski

  - Year 2017

  Finite Element Method is one most popular contemporary method of strength analysis. The method is an advanced method for solving differential equations, based on discretization, which means that area is divided into finite elements. Each finite element has a solution of the equation approximated by specific functions and performing the actual calculations only for nodes of this division. Finite Element Method is widely used in...

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• On the necessity of experimental verification of numerical results in biomedical applications

  Publication

  • G. Rotta
  • T. Seramak

  - Year 2013

  Porous structures made of metal or biopolymers with a structure similar in shape and mechanical properties to human bone can be easily produced by stereolitography techniques, e.g. selective laser melting (SLM). Numerical techniques, like finite element method (FEM) have great potential in testing new, even the most sophisticated designs, according to their mechanical properties, i.e. strength or stiffness. However, due to different...

• Geometry Parametric Model Order Reduction with Randomly Generated Projection Bases

  Publication

  • V. D. L. Rubia
  • A. Lamęcki
  • M. Mrozowski

  - Year 2016

  In this work, a reduced-order model for geometry parameters and fast frequency sweep is proposed. The Finite Element Method is used to solve time-harmonic Maxwell’s equations. Taking into account the electromagnetic field does not arbitrarily vary as a function of frequency and geometry parameters, a low dimension system manifold is identified. Thus, the original Finite Element problem can be approximated by a model of reduced...

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• A Mesh Deformation Technique Based on Solid Mechanics for Parametric Analysis of High-Frequency Devices With 3-D FEM

  Publication

  • A. Lamęcki

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2016

  In this paper, a versatile technique for mesh defor- mation is discussed, targeted at the electromagnetic (EM) field simulation of high-frequency devices using the 3-D finite element method (FEM). The approach proposed applies a linear elasticity model to compute the displacements of the internal mesh nodes in 3-D when the structure geometry is changed. The technique is compared with an alternative approach...

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• A coupled constitutive model for fracture in plain concrete based on continuum theory with non-local softening and eXtended Finite Element Method

  Publication

  • J. Bobiński
  • J. Tejchman

  - FINITE ELEMENTS IN ANALYSIS AND DESIGN - Year 2016

  The paper presents a constitutive model for concrete which combines a continuous and discontinuous fracture description. In a continuum regime, two different constitutive laws were used. First, a plasticity model with a Rankine failure criterion and an associated fl ow rule was used. Second, a constitutive law based on isotropic damage mechanics was formulated. In order to capture the width of a localized zone and to obtain mesh-independent...

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• Cost-Effective and Sufficiently Precise Integration Method Adapted to the FEM Calculations of Bone Tissue

  Publication

  • K. Mazur
  • L. Dąbrowski

  - Computational Methods in Science and Technology - Year 2014

  The technique of Young’s modulus variation in the finite element is not spread in biomechanics. Our future goal is to adapt this technique to bone tissue strength calculations. The aim of this paper is to present the necessary studies of the element’s integration method that takes into account changes in material properties. For research purposes, a virtual sample with the size and distribution of mechanical properties similar...

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• A New Type of Macro-Elements for Efficient Two-Dimensional FEM Analysis

  Publication

  • G. Fotyga
  • K. Nyka
  • Ł. Kulas

  - IEEE Antennas and Wireless Propagation Letters - Year 2011

  This letter deals with a model order reduction technique applicable for driven and eigenvalue problems solved using the finite element method (FEM). It allows one to efficiently compute electromagnetic parameters of structures comprising small features that require strong local mesh refinement. The subdomains of very fine mesh are separated from the global domain as so called macro-elements that undergo model reduction. The macro-elements...

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• Example of Using Particle Swarm Optimization Algorithm with Nelder–Mead Method for Flow Improvement in Axial Last Stage of Gas–Steam Turbine

  Publication

  • P. Ziółkowski
  • Ł. Witanowski
  • S. Głuch
  • P. Klonowicz
  • M. Feidt
  • A. Koulali

  - ENERGIES - Year 2024

  This article focuses principally on the comparison baseline and the optimized flow efficiency of the final stage of an axial turbine operating on a gas–steam mixture by applying a hybrid Nelder– Mead and the particle swarm optimization method. Optimization algorithms are combined with CFD calculations to determine the flowpaths and thermodynamic parameters. The working fluid in this study is a mixture of steam and gas produced...

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• SIMULATION OF PROCEED® SURGICAL MESH APPLIED TO VENTRAL HERNIA REPAIR

  Publication

  • I. Lubowiecka
  • A. Tomaszewska
  • C. K. Szymczak

  - Year 2014

  In the present research, Proceed® implant is considered. The system is subjected to short-time dynamic pressure load, similar to post-operative cough naturally occurring in human abdomen. The model refers to a clinical case of 5cm of hernia operated by Proceed implant fixed by 15 joints every 3cm around the orifice. The simulations of the implanted mesh are performed by means of the Finite Element Method. The implant is modelled...

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• Mechanical behaviour of the implant used in human hernia repair under physiological loads

  Publication

  • K. Szepietowska
  • I. Lubowiecka

  - Acta of Bioengineering and Biomechanics - Year 2013

  In laparoscopic operations of abdominal hernias some recurrences still take place, even when applying a surgical mesh. This is usually caused by a failure of the connection between the tissue and the implant. The study deals with the influence of an implant’s orientation on forces in joints, which connect the mesh to human tissues. In the paper, the implant is modelled as a membrane structure within framework of the Finite Element...

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• Investigation of buckling resistance of columns using non-linear static and dynamic analysis

  Publication

  • Ł. Żmuda-Trzebiatowski
  • P. Iwicki

  - Year 2014

  The aim of this paper is to investigate the stability process in an axially compressed column using a static and dynamic finite element analysis by taking both the geometric and material non-linearity into account. The perfect column and column with geometric imperfections were analysed. The linear buckling analyses were used to obtain the lowest buckling load and shapes of buckled forms that were taken into account as initial...

• Global sensitivity analysis of membrane model of abdominal wall with surgical mesh

  Publication

  • K. Szepietowska
  • I. Lubowiecka
  • B. Magnain
  • E. Florentin

  - Year 2018

  The paper addresses the issue of ventral hernia repair. Finite Element simulations can be helpful in the optimization of hernia parameters. A membrane abdominal wall model is proposed in two variants: a healthy one and including hernia defect repaired by implant. The models include many uncertainties, e.g. due to variability of abdominal wall, intraabdominal pressure value etc. Measuring mechanical properties with high accuracy...

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• ESTYMACJA WSPÓŁCZYNNIKÓW SZTYWNOŚCI ZAMOCOWANIA PODATNEGO PRZEDMIOTU OBRABIANEGO NA STOLE FREZARKI

  Publication

  • M. Mazur
  • M. Galewski
  • K. J. Kaliński

  - Year 2019

  W pracy przedstawiono metodę estymacji współczynników sztywności Elementów Sprężystych (ES) modelujących zamocowanie podatnego wielkogabarytowego przedmiotu obrabianego na stole frezarki. Proponowana metoda bazuje na algorytmie optymizacji za pomocą roju cząstek (ang. Particle Swarm Optimization), który pozwala na uzyskanie dobrej zgodności (aktualizacji) modelu Metody Elementów Skończonych (MES) z modelem pochodzącym z identyfikacji...

• Rozkład naprężeń mechanicznych w łyżce o szerokości 500 mm, przeznaczonej do koparki podsiębiernej

  Publication

  • J. Kowalski
  • A. Lesnau

  - Scientific Journal of Gdynia Maritime University - Year 2018

  W artykule zaprezentowano optymalizację kształtu łyżki koparki przed­siębiernej z wykorzystaniem analizy wytrzymałościowej. Analizę oparto na trójwymiarowym modelu konstrukcji łyżki z zastosowaniem metody elementów skończonych (MES). Opracowanie wspomnianej metody pozwoliło na modyfikację konstrukcji łyżki, która dała w efekcie obniżenie naprężeń złożonych w newralgicznych obszarach konstrukcji łyżki. Przedstawiona analiza okazała...

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• Mechanical compatibility of implants used in hernia repair with abdominal wall

  Publication

  • I. Lubowiecka
  • K. Szepietowska
  • A. Tomaszewska
  • C. K. Szymczak

  - Year 2014

  The paper deals with a membrane model of a synthetic surgical mesh for treatment of abdominal hernia. The authors analyse the compatibility of two implant types with the human wall: Dualmesh Gore and Proceed. The finite element method is applied to simulate tjhe behavior of the proposed model. Due fact that recurrences are usually caused by connection failure, this study is focused on reaction forces in supports representing the...

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• Macro-elements and Model Order Reduction for Efficient Three-Dimensional FEM Analysis

  Publication

  • G. Fotyga
  • K. Nyka
  • Ł. Kulas

  - Year 2012

  An efficient model order reduction (MOR) methodology for three dimensional vector finite element method (FEM) is developed to accelerate simulations of the structures containing features that cause strong variations of mesh density. As the result of presented algorithm, FEM subsystems of equations corresponding to the selected refined region are converted into a very compact sets of linear equations, called macro-elements.Numerical...

• The Quick Measure of a Nurbs Surface Curvature for Accurate Triangular Meshing

  Publication

  • A. Kniat

  - Polish Maritime Research - Year 2014

  NURBS surfaces are the most widely used surfaces for three-dimensional models in CAD/CAE programs. As a model for FEM calculation is prepared with a CAD program it is inevitable to mesh it finally. There are many algorithms for meshing planar regions. Some of them may be used for meshing surfaces but it is necessary to take the curvature of the surface under consideration to avoid poor quality mesh. The mesh must be denser in the...

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• Physical and mathematical modelling of implant-fascia system in order to improve laparoscopic repair of ventral hernia

  Publication

  • A. Tomaszewska
  • I. Lubowiecka
  • C. K. Szymczak
  • M. Śmietański
  • B. Meronk
  • P. Kłosowski
  • K. Bury

  - CLINICAL BIOMECHANICS - Year 2013

  This paper describes an investigation of biomechanical behaviour of hernia repair, which is focused on the selection of safe linking of certain type of implant with fascia in laparoscopic operation. The strength of various fixations of the implant to the fascia is analysed. Methods: The research is based on experimental observations of operated hernia model behaviour during a dynamic impulse load corresponding to post-operative...

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• Objective selection of minimum acceptable mesh refinement for EMC simulations

  Publication

  • A. Duffy
  • G. Zhang
  • S. Kozieł
  • L. Wang

  - IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY - Year 2015

  Optimization of computational electromagnetics (CEM) simulation models can be costly in both time and computing resources. Mesh refinement is a key parameter in determining the number of unknowns to be processed. In turn, this controls the time and memory required for a simulation. Hence, it is important to use only a mesh that is good enough for the objectives of the simulation, whether for direct handling of high-fidelity EM...

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• Orthotropic membrane as a mechanical model of surgical implant in abdominal hernia repair

  Publication

  • I. Lubowiecka

  - TASK Quarterly - Year 2012

  Even though the incisional hernia repair surgery is a well known procedure, mechanical properties of the tissue-implant system are unknown so the implantation of the repairing mesh is quite intuitive and, recurrences of the illness still take place. The main objective of the study is to define an operated hernia model that can be used for surgery planning and the assessment of the repair persistence. The load applied to the structure...

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• Significant Production of Thermal Energy in Partially Ionized Hyperbolic Tangent Material Based on Ternary Hybrid Nanomaterials

  Publication

  • U. Nazir
  • M. Sohail
  • M. B. Hafeez
  • M. Krawczuk

  - ENERGIES - Year 2021

  Nanoparticles are frequently used to enhance the thermal performance of numerous materials. This study has many practical applications for activities that have to minimize losses of energy due to several impacts. This study investigates the inclusion of ternary hybrid nanoparticles in a partially ionized hyperbolic tangent liquid passed over a stretched melting surface. The fluid motion equation is presented by considering the...

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• Modal analysis of railway current collectors using Autodesk Inventor

  Publication

  • A. Wilk
  • S. Judek
  • K. Karwowski
  • M. Mizan
  • P. Kaczmarek

  - Year 2018

  The paper presents the results of modal analysis of railway current collector type 160EC. In the first place, the analysis was carried out analytically for a simplified two lumped mass pantograph model. Then numerical analysis was conducted in the Autodesk Inventor (AI) on the prepared multibody model using the AI modal analysis algorithm, which is based on the finite element method (FEM). Model elements which are most relevant...

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• Size effect in concrete beams under bending – influence of the boundary layer and the numerical description of cracks

  Publication

  • I. Marzec
  • J. Bobiński

  - MATEC Web of Conferences - Year 2019

  In the paper the size effect phenomenon in concrete is analysed. The results of numerical simulations of using FEM on geometrically similar un-notched and notched concrete beams under bending are presented. Concrete beams of four different sizes and five different notch heights under three-point bending test were simulated. In total 18 beams were analysed. Two approaches were used to describe cracks in concrete. First, eXtended...

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• Behaviour of orthotropic surgical implant in hernia repair due to the material orientation and abdomen surface deformation

  Publication

  • I. Lubowiecka

  - COMPUTER METHODS IN BIOMECHANICS AND BIOMEDICAL ENGINEERING - Year 2015

  relation to the different range of typical deformations observed in different directions and zones of abdomen surface due to the patients’ life activities, has a significant influence on the extreme junction forces in the mesh–tissue connections and hence the repair persistence. The finite element model of the orthotropic implant was developed, and the junction forces in the connections of tissue and mesh were studied. The kinematical...

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• A constitutive law for concrete with smooth transition from continuous into discontinuous cracks’ description

  Publication

  • J. Bobiński
  • J. Tejchman

  - Year 2018

  Paper presents a constitutive model for concrete that combines a continuous and discontinuous crack’s description to simulate the concrete under tensile dominated loads. In a continuum regime, two different constitutive laws were used. First, a plasticity model with the Rankine failure criterion and an associated flow rule was used. Second, a constitutive law based on isotropic damage mechanics was formulated. Both model alternatives...

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• On some problems in determining tensile parameters of concrete model from size effect tests

  Publication

  • I. Marzec
  • J. Bobiński

  - Polish Maritime Research - Year 2019

  The paper presents results of numerical simulations of size effect phenomenon in concrete specimens. The behaviour of in-plane geometrically similar notched and unnotched beams under three-point bending is investigated. In total 18 beams are analysed. Concrete beams of four different sizes and five different notch to depth ratios are simulated. Two methods are applied to describe cracks. First, an elasto-plastic constitutive law...

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• GPU-accelerated finite element method

  Publication

  • A. Dziekoński
  • A. Lamęcki
  • M. Mrozowski

  - Year 2016

  In this paper the results of the acceleration of computations involved in analysing electromagnetic problems by means of the finite element method (FEM), obtained with graphics processors (GPU), are presented. A 4.7-fold acceleration was achieved thanks to the massive parallelization of the most time-consuming steps of FEM, namely finite-element matrix-generation and the solution of a sparse system of linear equations with the...

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• Dynamics of mechanical model of implant-tissue system in ventral hernia repair

  Publication

  • I. Lubowiecka

  - Vibrations in Physical Systems - Year 2012

  The paper deals with a finite element modelling of implants in the problem of ventral hernia repair. The synthetic mesh implanted in the abdomen during surgery is here modelled as a membrane structure. Thesystem undergoes the internal abdominal pressure that occurs during the postoperative cough, the load identified in the literature as the main cause of the connection failure and hernia recurrence. The model can be used to estimate...

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• Isogeometric Shell FE Analysis of the Human Abdominal Wall

  Publication

  • B. Borzeszkowski
  • T. X. Duong
  • R. A. Sauer
  • I. Lubowiecka

  - Year 2021

  In this paper a nonlinear isogeometric Kirchhoff-Love shell model of the human abdominal wall is proposed. Its geometry is based on in vivo measurements obtained from a polygon mesh that is transformed into a NURBS surface, and then used directly for the finite element analysis. The passive response of the abdominal wall model under uniform pressure is considered. A hyperelastic membrane model based on the Gasser-Ogden-Holzapfel...

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• A Review: Applications of the Spectral Finite Element Method

  Publication

  • M. B. Hafeez
  • M. Krawczuk

  - ARCHIVES OF COMPUTATIONAL METHODS IN ENGINEERING - Year 2023

  The Spectral Finite Element Technique (SFEM) has Several Applications in the Sciences, Engineering, and Mathematics, which will be Covered in this Review Article. The Spectral Finite Element Method (SFEM) is a Variant of the Traditional Finite Element Method FEM that Makes use of Higher Order Basis Functions (FEM). One of the most Fundamental Numerical Techniques Employed in the Numerical Simulation is the SFEM, which Outperforms...

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• Wideband Macromodels in Finite Element Method

  Publication

  • G. Fotyga
  • M. Rewieński
  • M. Mrozowski

  - IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS - Year 2015

  This letter proposes a novel projection technique for accelerating Finite Element Method simulations. The algorithm is based on the Second-order Arnoldi Method for Passive Order Reduction (SAPOR). It involves generation of two projection bases and thanks to this it is applicable to the systems of equations, which contain the quadratic frequency-dependence in the input term, that arise when projection is applied locally in the selected...

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• Biomechanical causes for failure of the Physiomesh/Securestrap system

  Publication

  • M. Zamkowski
  • A. Tomaszewska
  • I. Lubowiecka
  • M. Śmietański

  - Scientific Reports - Year 2023

  This study investigates the mechanical behavior of the Physiomesh/Securestrap system, a hernia repair system used for IPOM procedures associated with high failure rates. The study involved conducting mechanical experiments and numerical simulations to investigate the mechanical behavior of the Physiomesh/Securestrap system under pressure load. Uniaxial tension tests were conducted to determine the elasticity modulus of the Physiomesh...

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• Simplified method of applying loads to flat slab floor structural model

  Publication

  • M. T. Solarczyk
  • A. Ambroziak

  - MATEC Web of Conferences - Year 2018

  The article analyses the impact of the live load position on the surface of a reinforced concrete flat slab floor of 32.0 m × 28.8 m. Four variants of a live load position are investigated: located on the entire concrete slab, set in a chessboard pattern, applied by bands and imposed separately in each of the slab panels. Conclusions are drawn upon differences in bending moments, the time of calculation and the size of output files....

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• Multi-objective design of miniaturized impedance transformers by domain segmentation

  Publication

  • S. Kozieł
  • A. Bekasiewicz
  • Q. Cheng
  • Q. Zhang

  - Year 2017

  Fast multi-objective design optimization of compact microstrip impedance transformers is discussed. Our approach exploits approximation models constructed using sampled coarse- mesh EM simulation data in a partitioned design space and response correction techniques for design refinement. Demonstra

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• Application of mesh deformation for modeling of conformal RF components with 3D FEM

  Publication

  • M. Jasiński
  • A. Lamęcki
  • M. Mrozowski

  - Year 2020

  In this paper, a method of analysis of conformal RF components has been proposed. In this approach, modeling of a curved structure is based on mesh deformation of planar objects rather than the construction of conformal geometry at CSG level. Since the model is represented as a 3D mesh, the deformation only requires the calculation of nodes position in the bent structure. The results of the proposed algorithm have been validated...

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• MARSTRUCT benchmark study on nonlinear FE simulation of an experiment of an indenter impact with a ship side-shell structure

  Publication

  • J. Ringsberg
  • J. Amdahl
  • B. Chen
  • S. Cho
  • S. Ehlers
  • Z. Hu
  • J. Kubiczek
  • M. Kõrgesaar
  • B. Liu
  • J. Marinatos... and 11 others

  - MARINE STRUCTURES - Year 2018

  This paper presents a benchmark study on collision simulations that was initiated by the MARSTRUCT Virtual Institute. The objective was to compare assumptions, finite element models, modelling techniques and experiences between established researchers within the field. Fifteen research groups world-wide participated in the study. An experiment involving a rigid indenter penetrating a ship-like side structure was used as the case...

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• GPU Acceleration of Multilevel Solvers for Analysis of Microwave Components With Finite Element Method

  Publication

  • A. Dziekoński
  • A. Lamęcki
  • M. Mrozowski

  - IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS - Year 2011

  The letter discusses a fast implementation of the conjugate gradient iterative method with ${rm E}$-field multilevel preconditioner applied to solving real symmetric and sparse systems obtained with vector finite element method. In order to accelerate computations, a graphics processing unit (GPU) was used and significant speed-up (2.61 fold) was achieved comparing to a central processing unit (CPU) based approach. These results...

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• Macromodels for Efficient Analysis of Open-Region Problems Using the Finite Element Method

  Publication

  • D. Szypulski
  • M. Mul
  • K. Nyka
  • G. Fotyga

  - Year 2019

  This paper presents a local model-order reduction, called macromodeling, applied to speed-up the simulations of open-region problems, analyzed by means of finite element method. This technique is illustrated by a numerical example, which deals with a dielectric resonator antenna (DRA). The obtained results show that the proposed approach is reliable and can significantly increase the standard finite element method efficiency.

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• Wideband Model Order Reduction for Macromodels in Finite Element Method

  Publication

  • G. Fotyga
  • K. Nyka

  - Year 2016

  Abstract: This paper presents a novel algorithm for accelerating 3D Finite Element Method simulations by introducing macromodels created in local model order reduction in the selected subdomains of the computational domain. It generates the projection basis for a compact system of equations associated with a separate subdomain. Due to non-linear frequency dependency in the Right Hand Side (RHS), the standard reduction methods do...

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• Self-Adaptive Mesh Generator for Global Complex Roots and Poles Finding Algorithm

  Publication

  • S. Dziedziewicz
  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2023

  In any global method of searching for roots and poles, increasing the number of samples increases the chances of finding them precisely in a given area. However, the global complex roots and poles finding algorithm (GRPF) (as one of the few) has direct control over the accuracy of the results. In addition, this algorithm has a simple condition for finding all roots and poles in a given area: it only requires a sufficiently dense...

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• Decomposition of the induced magnetism degaussing problem for fast determination of currents in demagnetization coils wrapped outside an object under arbitrary external field conditions

  Publication

  • M. Wołoszyn
  • J. Tarnawski
  • J. Wołoszyn

  - JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS - Year 2023

  Safe passage of ships in the presence of sea mines can be ensured by limiting or reducing the ship’s magnetic footprint. For vessels with plastic hulls, the main component that requires magnetic damping is the engine. Demagnetization of such an object can be achieved by wrapping it with coils and setting the direct current appropriately. For each specific geographic location, the currents in the coils can be determined iteratively...

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