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[nazev] => PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS
[nazev_orig] => PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS
[duvernost_udaju_id] => S
[popis] => An estimation of Simulink model parameters is very important problem in field of system
identification in mechatronics. This paper describes features and advantages of the New Parameter
Estimation Tool developed with respect to particular engineering needs. Among other things, the tool allows
to use the arbitrary combination of a model and a measured data for the construction of cost function of the
optimization process. This enables to formulate various tasks briefly outlined in this paper including
comparison of several candidate models or performing estimations of models with shared parameters.
Furthermore, all temporary simulation results are stored and later can be browsed and viewed by user. This
enables to get very clear visual insight into the estimation problem and especially increases the usefulness of
the Brute force method use. Finally, the tool allows to cope actively with the problem of initial guesses of an
optimization method. As a result, user can automate and control parameter estimations for time-consuming
and demanding problems
[popis_orig] => An estimation of Simulink model parameters is very important problem in field of system
identification in mechatronics. This paper describes features and advantages of the New Parameter
Estimation Tool developed with respect to particular engineering needs. Among other things, the tool allows
to use the arbitrary combination of a model and a measured data for the construction of cost function of the
optimization process. This enables to formulate various tasks briefly outlined in this paper including
comparison of several candidate models or performing estimations of models with shared parameters.
Furthermore, all temporary simulation results are stored and later can be browsed and viewed by user. This
enables to get very clear visual insight into the estimation problem and especially increases the usefulness of
the Brute force method use. Finally, the tool allows to cope actively with the problem of initial guesses of an
optimization method. As a result, user can automate and control parameter estimations for time-consuming
and demanding problems
[klicova_slova] => Parameter estimation, Simulink, Optimization, Software tool.
[klicova_slova_orig] => Parameter estimation, Simulink, Optimization, Software tool.
[url] => http://www.engmech.cz/im/doc/EM2017_proceedings_all.pdf
[oecd_obor_id] => 20206
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[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
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[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 144887
[schvaleno] => 2018-07-24
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[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-80-214-5497-2
[identifikator_popis] => ISBN - ENGINEERING MECHANICS 2017
[riv_dodavka_id] => 1864
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2018
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[citace_text] => APPEL, M.; GREPL, R. PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS. In ENGINEERING MECHANICS 2017. 2017. Brno: Institute of Solid Mechanics, Mechatronics and Biomechanics, Faculty of Mechanical Engineering, Brno University of Technology, 2017. p. 90-93. ISBN: 978-80-214-5497-2.
[citace_html] => APPEL, M.; GREPL, R. PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS. In ENGINEERING MECHANICS 2017. 2017. Brno: Institute of Solid Mechanics, Mechatronics and Biomechanics, Faculty of Mechanical Engineering, Brno University of Technology, 2017. p. 90-93. ISBN: 978-80-214-5497-2.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT136310,
author="Martin {Appel} and Robert {Grepl}",
title="PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS",
booktitle="ENGINEERING MECHANICS 2017",
year="2017",
series="2017",
pages="90--93",
publisher="Institute of Solid Mechanics, Mechatronics and Biomechanics, Faculty of Mechanical Engineering, Brno University of Technology",
address="Brno",
isbn="978-80-214-5497-2",
url="http://www.engmech.cz/im/doc/EM2017_proceedings_all.pdf"
}
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[poznamka_metriky] =>
[nazev_en] => PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS
[popis_en] => An estimation of Simulink model parameters is very important problem in field of system
identification in mechatronics. This paper describes features and advantages of the New Parameter
Estimation Tool developed with respect to particular engineering needs. Among other things, the tool allows
to use the arbitrary combination of a model and a measured data for the construction of cost function of the
optimization process. This enables to formulate various tasks briefly outlined in this paper including
comparison of several candidate models or performing estimations of models with shared parameters.
Furthermore, all temporary simulation results are stored and later can be browsed and viewed by user. This
enables to get very clear visual insight into the estimation problem and especially increases the usefulness of
the Brute force method use. Finally, the tool allows to cope actively with the problem of initial guesses of an
optimization method. As a result, user can automate and control parameter estimations for time-consuming
and demanding problems
[klicova_slova_en] => Parameter estimation, Simulink, Optimization, Software tool.
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[1] => Array
(
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[nazev] => Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation
[nazev_orig] => Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation
[duvernost_udaju_id] => S
[popis] => The purpose of the study is to determine whether a turbulence model in fluid flow calculation affects the vocal folds (VF) vibration and the acoustics of human vocal tract (VT). The objective is examined using a two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction for self- sustained oscillations of the VF. The FE model consists of the models of the VF, the trachea and a simplified model of the human VT. The developed FE model includes large deformations of the VF tissue and VF contact interrupting the airflow during glottis closure. The airflow is modelled by the unsteady viscous compressible Navier-Stokes equations, without and with the Shear Stress Transport (SST) turbulence model. Fluid-structure interaction (FSI) and morphing of the fluid mesh are realized using Arbitrary Lagrangian- Eulerian (ALE) approach. The method is applied on the FE model of the VT shaped for the Czech vowel [a:]. Also effect of varying stiffness of the superficial lamina propria (SLP) is analyzed. The numerical simulations showed that considering of the turbulence affects mainly higher frequencies apparent in a frequency spectrum of the VT acoustics.
[popis_orig] => The purpose of the study is to determine whether a turbulence model in fluid flow calculation affects the vocal folds (VF) vibration and the acoustics of human vocal tract (VT). The objective is examined using a two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction for self- sustained oscillations of the VF. The FE model consists of the models of the VF, the trachea and a simplified model of the human VT. The developed FE model includes large deformations of the VF tissue and VF contact interrupting the airflow during glottis closure. The airflow is modelled by the unsteady viscous compressible Navier-Stokes equations, without and with the Shear Stress Transport (SST) turbulence model. Fluid-structure interaction (FSI) and morphing of the fluid mesh are realized using Arbitrary Lagrangian- Eulerian (ALE) approach. The method is applied on the FE model of the VT shaped for the Czech vowel [a:]. Also effect of varying stiffness of the superficial lamina propria (SLP) is analyzed. The numerical simulations showed that considering of the turbulence affects mainly higher frequencies apparent in a frequency spectrum of the VT acoustics.
[klicova_slova] => Simulation of phonation; SST turbulence model; Fluid-structure-acoustic interaction; Finite element method; Biomechanics of voice
[klicova_slova_orig] => Simulation of phonation; SST turbulence model; Fluid-structure-acoustic interaction; Finite element method; Biomechanics of voice
[url] => http://apps.webofknowledge.com/full_record.do?product=WOS&search_mode=GeneralSearch&qid=1&SID=Q1m7oHnd8iQOER6nsux&page=1&doc=1
[oecd_obor_id] => 10307
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[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 126528
[schvaleno] => 2018-03-05
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[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J.
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[vysledek_system_kategorie_id] => PU
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[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-80-214-5497-2 ISSN 1805-8248
[identifikator_popis] => ISBN - Engineering Mechanics 2017 ISSN - Engineering Mechanics (CZ)
[riv_dodavka_id] => 1864
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2018
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[citace_text] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation. In Engineering Mechanics 2017. Engineering Mechanics. Svratka: Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague, 2017. no. 1, p. 366-369. ISBN: 978-80-214-5497-2. ISSN: 1805-8248.
[citace_html] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J. Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation. In Engineering Mechanics 2017. Engineering Mechanics. Svratka: Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague, 2017. no. 1, p. 366-369. ISBN: 978-80-214-5497-2. ISSN: 1805-8248.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT136512,
author="Petr {Hájek} and Pavel {Švancara} and Jaromír {Horáček} and Jan G. {Švec}",
title="Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation",
booktitle="Engineering Mechanics 2017",
year="2017",
journal="Engineering Mechanics",
volume="23",
number="1",
pages="366--369",
publisher="Institute of Thermomechanics, Academy of Sciences of the Czech Republic, v. v. i., Prague",
address="Svratka",
isbn="978-80-214-5497-2",
issn="1805-8248",
url="http://apps.webofknowledge.com/full_record.do?product=WOS&search_mode=GeneralSearch&qid=1&SID=Q1m7oHnd8iQOER6nsux&page=1&doc=1"
}
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[poznamka_metriky] =>
[nazev_en] => Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation
[popis_en] => The purpose of the study is to determine whether a turbulence model in fluid flow calculation affects the vocal folds (VF) vibration and the acoustics of human vocal tract (VT). The objective is examined using a two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction for self- sustained oscillations of the VF. The FE model consists of the models of the VF, the trachea and a simplified model of the human VT. The developed FE model includes large deformations of the VF tissue and VF contact interrupting the airflow during glottis closure. The airflow is modelled by the unsteady viscous compressible Navier-Stokes equations, without and with the Shear Stress Transport (SST) turbulence model. Fluid-structure interaction (FSI) and morphing of the fluid mesh are realized using Arbitrary Lagrangian- Eulerian (ALE) approach. The method is applied on the FE model of the VT shaped for the Czech vowel [a:]. Also effect of varying stiffness of the superficial lamina propria (SLP) is analyzed. The numerical simulations showed that considering of the turbulence affects mainly higher frequencies apparent in a frequency spectrum of the VT acoustics.
[klicova_slova_en] => Simulation of phonation; SST turbulence model; Fluid-structure-acoustic interaction; Finite element method; Biomechanics of voice
[vysledek_datum] => 2017-05-15T00:00:00+02:00
)
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[nazev] => Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method
[nazev_orig] => Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method
[duvernost_udaju_id] => S
[popis] => Medical grade 3D printing offers the possibility to manufacture patient-specific implants to treat cranial defects. The performance of the implant assembly depends on many factors, such as material, thickness, size and manufacturing accuracy. A significant factor in the stability and success of the assembly is the fixation method. Cranial implants are usually fixed to the skull by means of mini-plates. Biomechanical assessment of fixing the implant to the skull might be helpful not only for mini-plate design but might be beneficial also for the surgeons. In this study, four different mini-plate designs were analyzed and compared based on the stress-strain analysis of one cranial implant fixed at three locations by mini-plates. Computational simulations were done using Finite Element Method.
[popis_orig] => Medical grade 3D printing offers the possibility to manufacture patient-specific implants to treat cranial defects. The performance of the implant assembly depends on many factors, such as material, thickness, size and manufacturing accuracy. A significant factor in the stability and success of the assembly is the fixation method. Cranial implants are usually fixed to the skull by means of mini-plates. Biomechanical assessment of fixing the implant to the skull might be helpful not only for mini-plate design but might be beneficial also for the surgeons. In this study, four different mini-plate designs were analyzed and compared based on the stress-strain analysis of one cranial implant fixed at three locations by mini-plates. Computational simulations were done using Finite Element Method.
[klicova_slova] => Cranial implants; Fixation mini-plates; FEA; Polymethyl Methacrylate; Stress-strain analysis
[klicova_slova_orig] => Cranial implants; Fixation mini-plates; FEA; Polymethyl Methacrylate; Stress-strain analysis
[url] => https://link.springer.com/chapter/10.1007/978-981-10-5122-7_187
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[upravil] => Informační systém Automat
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[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 1680-0737
[identifikator_popis] => ISSN - IFMBE Proceedings (FR)
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[riv_dodavka_oznaceni] => RIV18-TA0-26510___
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[citace_text] => CHAMRAD, J.; MARCIÁN, P.; NARRA, N.; BORÁK, L. Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method. In EMBEC’17 & NBC’17. IFMBE Proceedings. Springer, 2017. no. 65, p. 747-750. ISSN: 1680-0737.
[citace_html] => CHAMRAD, J.; MARCIÁN, P.; NARRA, N.; BORÁK, L. Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method. In EMBEC’17 & NBC’17. IFMBE Proceedings. Springer, 2017. no. 65, p. 747-750. ISSN: 1680-0737.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT137072,
author="Jakub {Chamrad} and Petr {Marcián} and Nathaniel {Narra} and Libor {Borák}",
title="Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method",
booktitle="EMBEC’17 & NBC’17",
year="2017",
journal="IFMBE Proceedings",
volume="1",
number="65",
pages="747--750",
publisher="Springer",
doi="10.1007/978-981-10-5122-7\{_}187",
issn="1680-0737",
url="https://link.springer.com/chapter/10.1007/978-981-10-5122-7_187"
}
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[oecd_tree_obor_nazev] => 1.6 Biological sciences
[oecd_tree_podobor_id] => 10610
[oecd_tree_podobor_nazev] => Biophysics
[poznamka_metriky] =>
[nazev_en] => Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method
[popis_en] => Medical grade 3D printing offers the possibility to manufacture patient-specific implants to treat cranial defects. The performance of the implant assembly depends on many factors, such as material, thickness, size and manufacturing accuracy. A significant factor in the stability and success of the assembly is the fixation method. Cranial implants are usually fixed to the skull by means of mini-plates. Biomechanical assessment of fixing the implant to the skull might be helpful not only for mini-plate design but might be beneficial also for the surgeons. In this study, four different mini-plate designs were analyzed and compared based on the stress-strain analysis of one cranial implant fixed at three locations by mini-plates. Computational simulations were done using Finite Element Method.
[klicova_slova_en] => Cranial implants; Fixation mini-plates; FEA; Polymethyl Methacrylate; Stress-strain analysis
[vysledek_datum] => 2017-06-13T00:00:00+02:00
)
[3] => Array
(
[vysledek_id] => 137080
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 123858
[vysledek_rok] => 2017
[nazev] => Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach
[nazev_orig] => Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach
[duvernost_udaju_id] => S
[popis] => In this study 6 pre-operative designs for PMMA based reconstructions of cranial defects were evaluated for their mechanical robustness using finite element modeling. Clinical experience and engineering principles were employed to create multiple plan options, which were subsequently computationally analyzed for mechanically relevant parameters under 50N loads: stress, strain and deformation in various components of the assembly. The factors assessed were: defect size, location and shape. The major variable in the cranioplasty assembly design was the arrangement of the fixation plates. An additional study variable introduced was the location of the 50N load within the implant area. It was found that in smaller defects, it was simpler to design a symmetric distribution of plates and under limited variability in load location it was possible to design an optimal for expected loads. However, for very large defects with complex shapes, the variability in the load locations introduces complications to the intuitive design of the optimal assembly. The study shows that it can be beneficial to incorporate multi design computational analyses to decide upon the most optimal plan for a clinical case.
[popis_orig] => In this study 6 pre-operative designs for PMMA based reconstructions of cranial defects were evaluated for their mechanical robustness using finite element modeling. Clinical experience and engineering principles were employed to create multiple plan options, which were subsequently computationally analyzed for mechanically relevant parameters under 50N loads: stress, strain and deformation in various components of the assembly. The factors assessed were: defect size, location and shape. The major variable in the cranioplasty assembly design was the arrangement of the fixation plates. An additional study variable introduced was the location of the 50N load within the implant area. It was found that in smaller defects, it was simpler to design a symmetric distribution of plates and under limited variability in load location it was possible to design an optimal for expected loads. However, for very large defects with complex shapes, the variability in the load locations introduces complications to the intuitive design of the optimal assembly. The study shows that it can be beneficial to incorporate multi design computational analyses to decide upon the most optimal plan for a clinical case.
[klicova_slova] => Cranioplasty; FEM; PMMA; Cranial implant; Mechanical properties; plate distribution; fixation geometry
[klicova_slova_orig] => Cranioplasty; FEM; PMMA; Cranial implant; Mechanical properties; plate distribution; fixation geometry
[url] => https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0179325
[oecd_obor_id] => 10700
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
[odpovedny_utvar_zkratka] => ISMMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 107598
[schvaleno] => 2022-10-04
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] => 101790
[posledni_diagnostika] =>
[vycet_osob] => RIDWAN-PRAMANA, A.; MARCIÁN, P.; BORÁK, L.; NARRA, N.; FOROUZANFAR, T.; WOLFF, J.
[pocet_tvurcu] => 6
[tvurci_ids] =>
[poznamka] => http://journals.plos.org/plosone/article?id=10.1371%2Fjournal.pone.0179325
[typ_nazev] =>
[kod_doi] => 10.1371/journal.pone.0179325
[kod_dspace] => 11012/193256
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] => 2
[kategorie_nazev] => Publication results
[druh_nazev] => WoS Article
[druh_popis] => Peer-reviewed article included in Web of Science database as as an “Article”, “Review” or “Letter”
[stav] => Approved
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 1932-6203
[identifikator_popis] => ISSN - PLoS One (US)
[riv_dodavka_id] => 3114
[riv_dodavka_oznaceni] => RIV18-GA0-26210___
[riv_dodavka_rok] => 2018
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => RIDWAN-PRAMANA, A.; MARCIÁN, P.; BORÁK, L.; NARRA, N.; FOROUZANFAR, T.; WOLFF, J. Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach. PLoS One, 2017, vol. 12, no. 6, p. 1-16. ISSN: 1932-6203.
[citace_html] => RIDWAN-PRAMANA, A.; MARCIÁN, P.; BORÁK, L.; NARRA, N.; FOROUZANFAR, T.; WOLFF, J. Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach. PLoS One, 2017, vol. 12, no. 6, p. 1-16. ISSN: 1932-6203.
[citace_rtf] =>
[citace_bibtex] => @article{BUT137080,
author="Angela {Ridwan-Pramana} and Petr {Marcián} and Libor {Borák} and Nathaniel {Narra} and Tim {Forouzanfar} and Jan {Wolff}",
title="Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach",
journal="PLoS One",
year="2017",
volume="12",
number="6",
pages="1--16",
doi="10.1371/journal.pone.0179325",
issn="1932-6203",
url="https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0179325"
}
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[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10700
[oecd_tree_obor_nazev] => 1.7 Other natural sciences
[oecd_tree_podobor_id] =>
[oecd_tree_podobor_nazev] =>
[poznamka_metriky] =>
[nazev_en] => Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach
[popis_en] => In this study 6 pre-operative designs for PMMA based reconstructions of cranial defects were evaluated for their mechanical robustness using finite element modeling. Clinical experience and engineering principles were employed to create multiple plan options, which were subsequently computationally analyzed for mechanically relevant parameters under 50N loads: stress, strain and deformation in various components of the assembly. The factors assessed were: defect size, location and shape. The major variable in the cranioplasty assembly design was the arrangement of the fixation plates. An additional study variable introduced was the location of the 50N load within the implant area. It was found that in smaller defects, it was simpler to design a symmetric distribution of plates and under limited variability in load location it was possible to design an optimal for expected loads. However, for very large defects with complex shapes, the variability in the load locations introduces complications to the intuitive design of the optimal assembly. The study shows that it can be beneficial to incorporate multi design computational analyses to decide upon the most optimal plan for a clinical case.
[klicova_slova_en] => Cranioplasty; FEM; PMMA; Cranial implant; Mechanical properties; plate distribution; fixation geometry
[vysledek_datum] => 2017-06-13T00:00:00+02:00
)
[4] => Array
(
[vysledek_id] => 137412
[vysledek_druh_id] => CONF
[ex_vysledek_id] => 24632
[vysledek_rok] => 2017
[nazev] => EMBEC’17 & NBC’17
[nazev_orig] => EMBEC’17 & NBC’17
[duvernost_udaju_id] => S
[popis] =>
[popis_orig] =>
[klicova_slova] =>
[klicova_slova_orig] =>
[url] => http://embec2017.org/
[oecd_obor_id] => 10610
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
[odpovedny_utvar_zkratka] => ISMMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 200135
[schvaleno] => 2020-04-23
[vykazovat_riv] => 0
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => Eskola, H., Väisänen, O., Viik, J., Hyttinen, J
[pocet_tvurcu] =>
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[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Event
[druh_nazev] => Holding a conference
[druh_popis] => Holding a conference
[stav] => Approved
[vysledek_kategorie_id] => EV
[vysledek_system_kategorie_id] => EV
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] =>
[identifikator_popis] =>
[riv_dodavka_id] =>
[riv_dodavka_oznaceni] =>
[riv_dodavka_rok] =>
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => Eskola, H., Väisänen, O., Viik, J., Hyttinen, J: EMBEC’17 & NBC’17. Tampere (11.06.2017)
[citace_html] => Eskola, H., Väisänen, O., Viik, J., Hyttinen, J: EMBEC’17 & NBC’17. Tampere (11.06.2017)
[citace_rtf] =>
[citace_bibtex] => @misc{BUT137412,
title="EMBEC’17 & NBC’17",
year="2017",
url="http://embec2017.org/",
note="Holding a conference"
}
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[core_rank] => NA
[oecd_tree_oblast_id] => 10000
[oecd_tree_oblast_nazev] => 1. Natural Sciences
[oecd_tree_obor_id] => 10600
[oecd_tree_obor_nazev] => 1.6 Biological sciences
[oecd_tree_podobor_id] => 10610
[oecd_tree_podobor_nazev] => Biophysics
[poznamka_metriky] =>
[nazev_en] => EMBEC’17 & NBC’17
[popis_en] =>
[klicova_slova_en] =>
[vysledek_datum] => 2017-06-11T00:00:00+02:00
)
[5] => Array
(
[vysledek_id] => 137783
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 124080
[vysledek_rok] => 2017
[nazev] => Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test
[nazev_orig] => Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test
[duvernost_udaju_id] => S
[popis] => An adaptation of the Schwickerath crack initiation test (ISO 9693) was used to determine the bondingstrength between an anode support and three different cathodes with a solid oxide fuel cell interconnect.Interfacial elemental characterization of the interfaces was carried out by SEM/EDS analysis on frac-ture surfaces to investigate the bonding mechanisms. SEM/EDS of fresh fractures were also performedto determine the cohesion/adhesion mechanism of bonding. Calculations of the residual stresses weredetermined by finite element simulation using ANSYS, based on thermo-mechanical properties of thematerials obtained by measurement, calculation or literature.
[popis_orig] => An adaptation of the Schwickerath crack initiation test (ISO 9693) was used to determine the bondingstrength between an anode support and three different cathodes with a solid oxide fuel cell interconnect.Interfacial elemental characterization of the interfaces was carried out by SEM/EDS analysis on frac-ture surfaces to investigate the bonding mechanisms. SEM/EDS of fresh fractures were also performedto determine the cohesion/adhesion mechanism of bonding. Calculations of the residual stresses weredetermined by finite element simulation using ANSYS, based on thermo-mechanical properties of thematerials obtained by measurement, calculation or literature.
[klicova_slova] => Schwickerath; crack-initiation test; Three-point bending test; SOFC interfaces; Metal-ceramic bond strength
[klicova_slova_orig] => Schwickerath; crack-initiation test; Three-point bending test; SOFC interfaces; Metal-ceramic bond strength
[url] =>
[oecd_obor_id] => 20504
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
[odpovedny_utvar_zkratka] => ISMMB
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 17485
[schvaleno] => 2017-07-13
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] => 103759
[posledni_diagnostika] =>
[vycet_osob] => BOCCACCINI, D.; ŠEVEČEK, O.; FRANDSEN, H.; DLOUHÝ, I.; MOLIN, S.; HJELM, J.; CANNIO, M.; HENDRIKSEN, P.
[pocet_tvurcu] => 9
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.jeurceramsoc.2017.04.018
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] => 3
[kategorie_nazev] => Publication results
[druh_nazev] => WoS Article
[druh_popis] => Peer-reviewed article included in Web of Science database as as an “Article”, “Review” or “Letter”
[stav] => Approved
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISSN 0955-2219
[identifikator_popis] => ISSN - Journal of the European Ceramic Society (GB)
[riv_dodavka_id] => 1864
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2018
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => BOCCACCINI, D.; ŠEVEČEK, O.; FRANDSEN, H.; DLOUHÝ, I.; MOLIN, S.; HJELM, J.; CANNIO, M.; HENDRIKSEN, P. Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test. Journal of the European Ceramic Society, 2017, vol. 2017, no. 37, p. 3565-3578. ISSN: 0955-2219.
[citace_html] => BOCCACCINI, D.; ŠEVEČEK, O.; FRANDSEN, H.; DLOUHÝ, I.; MOLIN, S.; HJELM, J.; CANNIO, M.; HENDRIKSEN, P. Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test. Journal of the European Ceramic Society, 2017, vol. 2017, no. 37, p. 3565-3578. ISSN: 0955-2219.
[citace_rtf] =>
[citace_bibtex] => @article{BUT137783,
author="Dino {Boccaccini} and Oldřich {Ševeček} and Henrik Lund {Frandsen} and Ivo {Dlouhý} and Sebastian {Molin} and Benoit {Charlas} and Johan {Hjelm} and Maria {Cannio} and Peter Vang {Hendriksen}",
title="Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test",
journal="Journal of the European Ceramic Society",
year="2017",
volume="2017",
number="37",
pages="3565--3578",
doi="10.1016/j.jeurceramsoc.2017.04.018",
issn="0955-2219"
}
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[if_percentil] => 98.148
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[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20500
[oecd_tree_obor_nazev] => 2.5 Materials engineering
[oecd_tree_podobor_id] => 20504
[oecd_tree_podobor_nazev] => Ceramics
[poznamka_metriky] =>
[nazev_en] => Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test
[popis_en] => An adaptation of the Schwickerath crack initiation test (ISO 9693) was used to determine the bondingstrength between an anode support and three different cathodes with a solid oxide fuel cell interconnect.Interfacial elemental characterization of the interfaces was carried out by SEM/EDS analysis on frac-ture surfaces to investigate the bonding mechanisms. SEM/EDS of fresh fractures were also performedto determine the cohesion/adhesion mechanism of bonding. Calculations of the residual stresses weredetermined by finite element simulation using ANSYS, based on thermo-mechanical properties of thematerials obtained by measurement, calculation or literature.
[klicova_slova_en] => Schwickerath; crack-initiation test; Three-point bending test; SOFC interfaces; Metal-ceramic bond strength
[vysledek_datum] => 2017-04-21T00:00:00+02:00
)
[6] => Array
(
[vysledek_id] => 138160
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 124225
[vysledek_rok] => 2017
[nazev] => Bone Remodeling Algorithm Incorporating Various Quantities as Mechanical Stimulus and Assuming Initial Microcrack in Bone
[nazev_orig] => Bone Remodeling Algorithm Incorporating Various Quantities as Mechanical Stimulus and Assuming Initial Microcrack in Bone
[duvernost_udaju_id] => S
[popis] => It is widely accepted that bones have the ability to adapt to new biomechanical environment by changing their material properties, geometry and inner architecture. Bones have also an exceptional ability to self-repair, to remove microcracks and to prevent the bone damage caused by the fatigue failure. These abilities are enabled through coupled processes of bone resorption and bone formation, the processes collectively referred to as bone remodeling. Numerous studies have shown that bone remodeling is governed by combination of mechanical stimulus (strains) and its frequency, both sensed by sensor cells (osteocytes). Through mechanotransduction, the stimulus is transmitted to actor cells (osteoclasts, osteoblasts) that actually do the bone resorption or formation. Several theories have been proposed to predict bone remodeling and several finite-element-based algorithms have been introduced. The vast majority of them uses strain energy density as the mechanical stimulus. The purpose of this paper is to investigate and discuss the applicability of also other strain-based representations of the mechanical stimulus in simulations of remodeling of bone with an initial microcrack. The need for developing more reliable models is essential for both clinicians and engineers who are interested, for instance, in prediction of bone performance when various implants are involved.
[popis_orig] => It is widely accepted that bones have the ability to adapt to new biomechanical environment by changing their material properties, geometry and inner architecture. Bones have also an exceptional ability to self-repair, to remove microcracks and to prevent the bone damage caused by the fatigue failure. These abilities are enabled through coupled processes of bone resorption and bone formation, the processes collectively referred to as bone remodeling. Numerous studies have shown that bone remodeling is governed by combination of mechanical stimulus (strains) and its frequency, both sensed by sensor cells (osteocytes). Through mechanotransduction, the stimulus is transmitted to actor cells (osteoclasts, osteoblasts) that actually do the bone resorption or formation. Several theories have been proposed to predict bone remodeling and several finite-element-based algorithms have been introduced. The vast majority of them uses strain energy density as the mechanical stimulus. The purpose of this paper is to investigate and discuss the applicability of also other strain-based representations of the mechanical stimulus in simulations of remodeling of bone with an initial microcrack. The need for developing more reliable models is essential for both clinicians and engineers who are interested, for instance, in prediction of bone performance when various implants are involved.
[klicova_slova] => bone remodeling; strain; microdamage; mechano-regulation; finite element method
[klicova_slova_orig] => bone remodeling; strain; microdamage; mechano-regulation; finite element method
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[citace_text] => BORÁK, L.; MARCIÁN, P. Bone Remodeling Algorithm Incorporating Various Quantities as Mechanical Stimulus and Assuming Initial Microcrack in Bone. In Advances in Fracture and Damage Mechanics XVI. Key Engineering Materials (web). 2017. p. 189-193. ISSN: 1662-9795.
[citace_html] => BORÁK, L.; MARCIÁN, P. Bone Remodeling Algorithm Incorporating Various Quantities as Mechanical Stimulus and Assuming Initial Microcrack in Bone. In Advances in Fracture and Damage Mechanics XVI. Key Engineering Materials (web). 2017. p. 189-193. ISSN: 1662-9795.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT138160,
author="Libor {Borák} and Petr {Marcián}",
title="Bone Remodeling Algorithm Incorporating Various Quantities as Mechanical Stimulus and Assuming Initial Microcrack in Bone",
booktitle="Advances in Fracture and Damage Mechanics XVI",
year="2017",
journal="Key Engineering Materials (web)",
volume="754",
pages="189--193",
doi="10.4028/www.scientific.net/KEM.754.189",
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[popis_en] => It is widely accepted that bones have the ability to adapt to new biomechanical environment by changing their material properties, geometry and inner architecture. Bones have also an exceptional ability to self-repair, to remove microcracks and to prevent the bone damage caused by the fatigue failure. These abilities are enabled through coupled processes of bone resorption and bone formation, the processes collectively referred to as bone remodeling. Numerous studies have shown that bone remodeling is governed by combination of mechanical stimulus (strains) and its frequency, both sensed by sensor cells (osteocytes). Through mechanotransduction, the stimulus is transmitted to actor cells (osteoclasts, osteoblasts) that actually do the bone resorption or formation. Several theories have been proposed to predict bone remodeling and several finite-element-based algorithms have been introduced. The vast majority of them uses strain energy density as the mechanical stimulus. The purpose of this paper is to investigate and discuss the applicability of also other strain-based representations of the mechanical stimulus in simulations of remodeling of bone with an initial microcrack. The need for developing more reliable models is essential for both clinicians and engineers who are interested, for instance, in prediction of bone performance when various implants are involved.
[klicova_slova_en] => bone remodeling; strain; microdamage; mechano-regulation; finite element method
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[nazev] => Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test
[nazev_orig] => Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test
[duvernost_udaju_id] => S
[popis] => The work investigates an influence of the macroscopic stress concentrator inside the ceramic open cell foam structure on the fracture-mechanics response of the foam upon the tensile test. As the concentrator, the central crack/rectangular notch was taken into account. The influence of the crack/notch length and width on the stress concentration ahead the concentrator tip was assessed using the simplified FE beam element based model with irregular cells simulating the real ceramic foam structure. Average principal stresses calculated on set of struts ahead the crack/notch tip were compared with average stresses in the intact structure. It was found that the ratio of these stresses increases linearly with the crack length. The stress concentration ratio is slightly lower in case of thick rectangular notch than in case of a thin crack. Furthermore, the failure load leading to
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[popis_orig] => The work investigates an influence of the macroscopic stress concentrator inside the ceramic open cell foam structure on the fracture-mechanics response of the foam upon the tensile test. As the concentrator, the central crack/rectangular notch was taken into account. The influence of the crack/notch length and width on the stress concentration ahead the concentrator tip was assessed using the simplified FE beam element based model with irregular cells simulating the real ceramic foam structure. Average principal stresses calculated on set of struts ahead the crack/notch tip were compared with average stresses in the intact structure. It was found that the ratio of these stresses increases linearly with the crack length. The stress concentration ratio is slightly lower in case of thick rectangular notch than in case of a thin crack. Furthermore, the failure load leading to
complete fracture of the studied specimens, subjected to the tensile loading, were calculated using the same model. It is shown that the difference factor between the critical fracture force in case of structure without concentrator and with concentrator is very close to the concentration factor calculated from the average stresses on particular struts in the region in front of the concentrator tip.
[klicova_slova] => Ceramic foam, fracture, stress concentrator, FEM, Voronoi tessellation, tensile test.
[klicova_slova_orig] => Ceramic foam, fracture, stress concentrator, FEM, Voronoi tessellation, tensile test.
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[citace_text] => ŠEVEČEK, O.; MAJER, Z.; BERTOLLA, L.; CHLUP, Z.; KOTOUL, M. Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test. In Advances in Fracture and Damage Mechanics XVI. Key Engineering Materials (web). Švýcarsko: Trans Tech Publications, 2017. no. 1, p. 99-102. ISBN: 978-3-0357-1168-4. ISSN: 1662-9795.
[citace_html] => ŠEVEČEK, O.; MAJER, Z.; BERTOLLA, L.; CHLUP, Z.; KOTOUL, M. Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test. In Advances in Fracture and Damage Mechanics XVI. Key Engineering Materials (web). Švýcarsko: Trans Tech Publications, 2017. no. 1, p. 99-102. ISBN: 978-3-0357-1168-4. ISSN: 1662-9795.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT139050,
author="Oldřich {Ševeček} and Zdeněk {Majer} and Luca {Bertolla} and Zdeněk {Chlup} and Michal {Kotoul}",
title="Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test",
booktitle="Advances in Fracture and Damage Mechanics XVI",
year="2017",
journal="Key Engineering Materials (web)",
volume="754",
number="1",
pages="99--102",
publisher="Trans Tech Publications",
address="Švýcarsko",
doi="10.4028/www.scientific.net/KEM.754.99",
isbn="978-3-0357-1168-4",
issn="1662-9795"
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[nazev_en] => Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test
[popis_en] => The work investigates an influence of the macroscopic stress concentrator inside the ceramic open cell foam structure on the fracture-mechanics response of the foam upon the tensile test. As the concentrator, the central crack/rectangular notch was taken into account. The influence of the crack/notch length and width on the stress concentration ahead the concentrator tip was assessed using the simplified FE beam element based model with irregular cells simulating the real ceramic foam structure. Average principal stresses calculated on set of struts ahead the crack/notch tip were compared with average stresses in the intact structure. It was found that the ratio of these stresses increases linearly with the crack length. The stress concentration ratio is slightly lower in case of thick rectangular notch than in case of a thin crack. Furthermore, the failure load leading to
complete fracture of the studied specimens, subjected to the tensile loading, were calculated using the same model. It is shown that the difference factor between the critical fracture force in case of structure without concentrator and with concentrator is very close to the concentration factor calculated from the average stresses on particular struts in the region in front of the concentrator tip.
[klicova_slova_en] => Ceramic foam, fracture, stress concentrator, FEM, Voronoi tessellation, tensile test.
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[nazev] => Probabilistic Reasoning in Diagnostic Expert System for Smart Homes
[nazev_orig] => Probabilistic Reasoning in Diagnostic Expert System for Smart Homes
[duvernost_udaju_id] => S
[popis] => We present an expert system shell suitable for smart homes application where a diagnostics or prediction functionality can be used. Presented expert system is based on probabilistic theory and decision networks, which brings natural support for uncertainty handling. Dealing with uncertainty is one of features the expert system has and since it is designed as an empty expert system it can be transformed to other domain e.g. onboard diagnostic application for mobile robots.
[popis_orig] => We present an expert system shell suitable for smart homes application where a diagnostics or prediction functionality can be used. Presented expert system is based on probabilistic theory and decision networks, which brings natural support for uncertainty handling. Dealing with uncertainty is one of features the expert system has and since it is designed as an empty expert system it can be transformed to other domain e.g. onboard diagnostic application for mobile robots.
[klicova_slova] => Expert system, Decision network, Uncertainty handling
[klicova_slova_orig] => Expert system, Decision network, Uncertainty handling
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[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-3-319-65959-6
[identifikator_popis] => ISBN - Advances in Intelligent Systems and Computing
[riv_dodavka_id] => 2515
[riv_dodavka_oznaceni] => RIV18-MSM-26210___
[riv_dodavka_rok] => 2018
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[citace_text] => VĚCHET, S.; KREJSA, J.; HRBÁČEK, J., CHEN, K.S. Probabilistic Reasoning in Diagnostic Expert System for Smart Homes. In Advances in Intelligent Systems and Computing. 2018. p. 708-715. ISBN: 978-3-319-65959-6.
[citace_html] => VĚCHET, S.; KREJSA, J.; HRBÁČEK, J., CHEN, K.S. Probabilistic Reasoning in Diagnostic Expert System for Smart Homes. In Advances in Intelligent Systems and Computing. 2018. p. 708-715. ISBN: 978-3-319-65959-6.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT139164,
author="Stanislav {Věchet} and Jiří {Krejsa} and Jan {Hrbáček}",
title="Probabilistic Reasoning in Diagnostic Expert System for Smart Homes",
booktitle="Advances in Intelligent Systems and Computing",
year="2018",
pages="708--715",
isbn="978-3-319-65959-6"
}
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[oecd_tree_obor_nazev] => 2.2 Electrical engineering, Electronic engineering, Information engineering
[oecd_tree_podobor_id] => 20204
[oecd_tree_podobor_nazev] => Robotics and automatic control
[poznamka_metriky] =>
[nazev_en] => Probabilistic Reasoning in Diagnostic Expert System for Smart Homes
[popis_en] => We present an expert system shell suitable for smart homes application where a diagnostics or prediction functionality can be used. Presented expert system is based on probabilistic theory and decision networks, which brings natural support for uncertainty handling. Dealing with uncertainty is one of features the expert system has and since it is designed as an empty expert system it can be transformed to other domain e.g. onboard diagnostic application for mobile robots.
[klicova_slova_en] => Expert system, Decision network, Uncertainty handling
[vysledek_datum] => 2018-01-01T00:00:00+01:00
)
[10] => Array
(
[vysledek_id] => 139292
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 124616
[vysledek_rok] => 2017
[nazev] => Uncoupled material model of ductile fracture with directional plasticity
[nazev_orig] => Uncoupled material model of ductile fracture with directional plasticity
[duvernost_udaju_id] => S
[popis] => Proposed paper deals with the application of plastic response with directional distortional hardening (DDH) in uncoupled ductile fracture model and comparison of the results with the same ductile fracture model based on isotropic J2 plasticity. The results of simulations have proven not negligible role of model of plasticity and the response of the model with DDH plasticity is closer to reality then the one of the model with isotropic plasticity.
[popis_orig] => Proposed paper deals with the application of plastic response with directional distortional hardening (DDH) in uncoupled ductile fracture model and comparison of the results with the same ductile fracture model based on isotropic J2 plasticity. The results of simulations have proven not negligible role of model of plasticity and the response of the model with DDH plasticity is closer to reality then the one of the model with isotropic plasticity.
[klicova_slova] => directional distortional hardening; ductile fracture
[klicova_slova_orig] => directional distortional hardening; ductile fracture
[url] =>
[oecd_obor_id] => 20501
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
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[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 107598
[schvaleno] => 2018-04-23
[vykazovat_riv] => 1
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[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => ŠPANIEL, M.; MAREŠ, T.; KUŽELKA, J.; ŠEBEK, F.; DŽUGAN, J.
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[znamka] =>
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[druh_popis] => Paper in proceedings (conference paper)
[stav] => Approved
[vysledek_kategorie_id] => PV
[vysledek_system_kategorie_id] => PU
[vysledek_stav_id] => 3
[vlozil] => Informační systém Automat
[upravil] => Informační systém Automat
[ins_uid] => 999999
[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-84-946909-6-9
[identifikator_popis] => ISBN - Proceedings of the XIV International Conference on Computational Plasticity – Fundamentals and Applications
[riv_dodavka_id] => 1864
[riv_dodavka_oznaceni] => RIV18-TA0-26510___
[riv_dodavka_rok] => 2018
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[citace_text] => ŠPANIEL, M.; MAREŠ, T.; KUŽELKA, J.; ŠEBEK, F.; DŽUGAN, J. Uncoupled material model of ductile fracture with directional plasticity. In Proceedings of the XIV International Conference on Computational Plasticity – Fundamentals and Applications. 2017. p. 596-605. ISBN: 978-84-946909-6-9.
[citace_html] => ŠPANIEL, M.; MAREŠ, T.; KUŽELKA, J.; ŠEBEK, F.; DŽUGAN, J. Uncoupled material model of ductile fracture with directional plasticity. In Proceedings of the XIV International Conference on Computational Plasticity – Fundamentals and Applications. 2017. p. 596-605. ISBN: 978-84-946909-6-9.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT139292,
author="Miroslav {Španiel} and Tomáš {Mareš} and Jiří {Kuželka} and František {Šebek} and Jan {Džugan}",
title="Uncoupled material model of ductile fracture with directional plasticity",
booktitle="Proceedings of the XIV International Conference on Computational Plasticity – Fundamentals and Applications",
year="2017",
pages="596--605",
isbn="978-84-946909-6-9"
}
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[nazev_en] => Uncoupled material model of ductile fracture with directional plasticity
[popis_en] => Proposed paper deals with the application of plastic response with directional distortional hardening (DDH) in uncoupled ductile fracture model and comparison of the results with the same ductile fracture model based on isotropic J2 plasticity. The results of simulations have proven not negligible role of model of plasticity and the response of the model with DDH plasticity is closer to reality then the one of the model with isotropic plasticity.
[klicova_slova_en] => directional distortional hardening; ductile fracture
[vysledek_datum] => 2017-07-31T00:00:00+02:00
)
[11] => Array
(
[vysledek_id] => 139312
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[nazev] => Eccentricity Effect in the Hole-Drilling Residual Stress Measurement
[nazev_orig] => Eccentricity Effect in the Hole-Drilling Residual Stress Measurement
[duvernost_udaju_id] => S
[popis] => The paper focuses on the analysis of the eccentricity effect in the measurement of the hole-drilling residual stress. Relaxed strains were evaluated by computational simulation of the hole-drilling experiment using the finite element method. Errors induced by eccentricity were estimated for elastic and elastic-plastic states in area around the drilled hole due to the stress concentration. The invariance of the stress change with depth was assumed. The correction of eccentricity and plasticity effects in evaluation of residual stresses was realized within the EVAL 7 software (SINT Technology). The analysis shows that in elastic state the eccentricity and angular position of the drilled hole have a significant effect on relative residual stress errors. Correction according to the HDM method is very effective in this case. If the relative error of 5 % is allowed, which is in engineering practice acceptable, eccentricity of ±0.05 mm could be accepted without correction. When the combination of eccentricity and plasticity occurs, the correction of plasticity is more important in method 13-EXT-UN.
[popis_orig] => The paper focuses on the analysis of the eccentricity effect in the measurement of the hole-drilling residual stress. Relaxed strains were evaluated by computational simulation of the hole-drilling experiment using the finite element method. Errors induced by eccentricity were estimated for elastic and elastic-plastic states in area around the drilled hole due to the stress concentration. The invariance of the stress change with depth was assumed. The correction of eccentricity and plasticity effects in evaluation of residual stresses was realized within the EVAL 7 software (SINT Technology). The analysis shows that in elastic state the eccentricity and angular position of the drilled hole have a significant effect on relative residual stress errors. Correction according to the HDM method is very effective in this case. If the relative error of 5 % is allowed, which is in engineering practice acceptable, eccentricity of ±0.05 mm could be accepted without correction. When the combination of eccentricity and plasticity occurs, the correction of plasticity is more important in method 13-EXT-UN.
[klicova_slova] => residual stresses, hole-drilling method, plasticity, eccentricity
[klicova_slova_orig] => residual stresses, hole-drilling method, plasticity, eccentricity
[url] =>
[oecd_obor_id] => 20501
[odpovedny_utvar_id] => 157
[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
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[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
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[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => NÁVRAT, T.; HALABUK, D.; VLK, M.; VOSYNEK, P.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.4028/www.scientific.net/DDF.382.208
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[upd_uid] => 999999
[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-3-0357-1209-4
[identifikator_popis] => ISBN - Engineering and Innovative Materials VI
[riv_dodavka_id] => 2045
[riv_dodavka_oznaceni] => RIV19-MSM-26210___
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[citace_text] => NÁVRAT, T.; HALABUK, D.; VLK, M.; VOSYNEK, P. Eccentricity Effect in the Hole-Drilling Residual Stress Measurement. In Engineering and Innovative Materials VI. Defect and Diffusion Forum. Trans Tech Publications Ltd, 2018. no. 1, p. 208-212. ISBN: 978-3-0357-1209-4. ISSN: 1662-9507.
[citace_html] => NÁVRAT, T.; HALABUK, D.; VLK, M.; VOSYNEK, P. Eccentricity Effect in the Hole-Drilling Residual Stress Measurement. In Engineering and Innovative Materials VI. Defect and Diffusion Forum. Trans Tech Publications Ltd, 2018. no. 1, p. 208-212. ISBN: 978-3-0357-1209-4. ISSN: 1662-9507.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT139312,
author="Tomáš {Návrat} and Dávid {Halabuk} and Miloš {Vlk} and Petr {Vosynek}",
title="Eccentricity Effect in the Hole-Drilling Residual Stress Measurement",
booktitle="Engineering and Innovative Materials VI",
year="2018",
journal="Defect and Diffusion Forum",
volume="382",
number="1",
pages="208--212",
publisher="Trans Tech Publications Ltd",
doi="10.4028/www.scientific.net/DDF.382.208",
isbn="978-3-0357-1209-4"
}
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[poznamka_metriky] =>
[nazev_en] => Eccentricity Effect in the Hole-Drilling Residual Stress Measurement
[popis_en] => The paper focuses on the analysis of the eccentricity effect in the measurement of the hole-drilling residual stress. Relaxed strains were evaluated by computational simulation of the hole-drilling experiment using the finite element method. Errors induced by eccentricity were estimated for elastic and elastic-plastic states in area around the drilled hole due to the stress concentration. The invariance of the stress change with depth was assumed. The correction of eccentricity and plasticity effects in evaluation of residual stresses was realized within the EVAL 7 software (SINT Technology). The analysis shows that in elastic state the eccentricity and angular position of the drilled hole have a significant effect on relative residual stress errors. Correction according to the HDM method is very effective in this case. If the relative error of 5 % is allowed, which is in engineering practice acceptable, eccentricity of ±0.05 mm could be accepted without correction. When the combination of eccentricity and plasticity occurs, the correction of plasticity is more important in method 13-EXT-UN.
[klicova_slova_en] => residual stresses, hole-drilling method, plasticity, eccentricity
[vysledek_datum] => 2018-01-10T00:00:00+01:00
)
[12] => Array
(
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[nazev] => Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter
[nazev_orig] => Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter
[duvernost_udaju_id] => S
[popis] => This paper describes a method for separation of the acceleration due to gravity from the motion acceleration obtained with the use of the inertial sensors. The proposed method based on the fusion of gyroscope and accelerometer measurements uses Unscented Kalman filter on the quaternion space for the estimation
of orientation.
[popis_orig] => This paper describes a method for separation of the acceleration due to gravity from the motion acceleration obtained with the use of the inertial sensors. The proposed method based on the fusion of gyroscope and accelerometer measurements uses Unscented Kalman filter on the quaternion space for the estimation
of orientation.
[klicova_slova] => Unscented Kalman filter; motion analysis; acceleration; attitude heading system; kinematics
[klicova_slova_orig] => Unscented Kalman filter; motion analysis; acceleration; attitude heading system; kinematics
[url] =>
[oecd_obor_id] => 20201
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[odpovedny_utvar_nazev] => Institute of Solid Mechanics, Mechatronics and Biomechanics
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[nadrazena_soucast_zkratka] => FME
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[originalni_jazyk] => en
[schvalil_id] => 200135
[schvaleno] => 2021-03-02
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[upravil] => Informační systém Automat
[ins_uid] => 999999
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[ins_ts] => 2025-09-22
[upd_ts] => 2025-09-22
[status] => 9
[identifikator] => ISBN 978-3-319-65959-6
[identifikator_popis] => ISBN - Mechatronics 2017
[riv_dodavka_id] => 2515
[riv_dodavka_oznaceni] => RIV18-MSM-26210___
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[citace_text] => KUMPÁN, P. Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter. In Mechatronics 2017. 2017. p. 503-510. ISBN: 978-3-319-65959-6.
[citace_html] => KUMPÁN, P. Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter. In Mechatronics 2017. 2017. p. 503-510. ISBN: 978-3-319-65959-6.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT139520,
author="Pavel {Kumpán}",
title="Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter",
booktitle="Mechatronics 2017",
year="2017",
pages="503--510",
doi="10.1007/978-3-319-65960-2\{_}62",
isbn="978-3-319-65959-6"
}
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[oecd_tree_podobor_nazev] => Electrical and electronic engineering
[poznamka_metriky] =>
[nazev_en] => Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter
[popis_en] => This paper describes a method for separation of the acceleration due to gravity from the motion acceleration obtained with the use of the inertial sensors. The proposed method based on the fusion of gyroscope and accelerometer measurements uses Unscented Kalman filter on the quaternion space for the estimation
of orientation.
[klicova_slova_en] => Unscented Kalman filter; motion analysis; acceleration; attitude heading system; kinematics
[vysledek_datum] => 2017-09-06T00:00:00+02:00
)
)
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[title] => PARAMETER ESTIMATION FOR ENGINEERS: A NEW TOOL FOR EFFECTIVE SEARCH FOR SIMULINK MODEL PARAMETERS
[typ] => PV
[year] => 2017
[id_vav] => 136310
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[quotations] => HÁJEK, P.; ŠVANCARA, P.; HORÁČEK, J.; ŠVEC, J.
[title] => Effects of Turbulence in FE Model of Human Vocal Folds Self-oscillation
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[year] => 2017
[id_vav] => 136512
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[quotations] => CHAMRAD, J.; MARCIÁN, P.; NARRA, N.; BORÁK, L.
[title] => Evaluating Different Shapes of Cranial Fixation Mini-plates Using Finite Element Method
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[year] => 2017
[id_vav] => 137072
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[quotations] => RIDWAN-PRAMANA, A.; MARCIÁN, P.; BORÁK, L.; NARRA, N.; FOROUZANFAR, T.; WOLFF, J.
[title] => Finite element analysis of 6 large PMMA skull reconstructions: A multi-criteria evaluation approach
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[id_vav] => 137080
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[quotations] => Eskola, H., Väisänen, O., Viik, J., Hyttinen, J
[title] => EMBEC’17 & NBC’17
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[year] => 2017
[id_vav] => 137412
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[quotations] => BOCCACCINI, D.; ŠEVEČEK, O.; FRANDSEN, H.; DLOUHÝ, I.; MOLIN, S.; HJELM, J.; CANNIO, M.; HENDRIKSEN, P.
[title] => Determination of the bonding strength in solid oxide fuel cells’ interfaces by Schwickerath crack initiation test
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[year] => 2017
[id_vav] => 137783
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[quotations] => BORÁK, L.; MARCIÁN, P.
[title] => Bone Remodeling Algorithm Incorporating Various Quantities as Mechanical Stimulus and Assuming Initial Microcrack in Bone
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[id_vav] => 138160
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[title] => Advances in Fracture and Damage Mechanics XVI
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[year] => 2017
[id_vav] => 139036
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[quotations] => ŠEVEČEK, O.; MAJER, Z.; BERTOLLA, L.; CHLUP, Z.; KOTOUL, M.
[title] => Fracture-Mechanics Behaviour of Ceramic Foam with Macroscopic Stress Concentrator upon the Tensile Test
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[title] => Probabilistic Reasoning in Diagnostic Expert System for Smart Homes
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[title] => Uncoupled material model of ductile fracture with directional plasticity
[typ] => PV
[year] => 2017
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[quotations] => NÁVRAT, T.; HALABUK, D.; VLK, M.; VOSYNEK, P.
[title] => Eccentricity Effect in the Hole-Drilling Residual Stress Measurement
[typ] => PV
[year] => 2018
[id_vav] => 139312
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[quotations] => KUMPÁN, P.
[title] => Separation of gravitational acceleration from the acceleration of human motion using quaternion based Unscented Kalman filter
[typ] => PV
[year] => 2017
[id_vav] => 139520
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