Array
(
[page] => 216
[item_count] => 3612
[items_per_page] => 15
[data] => Array
(
[0] => Array
(
[vysledek_id] => 158038
[vysledek_druh_id] => ARTSC
[ex_vysledek_id] => 132945
[vysledek_rok] => 2019
[nazev] => Integration and test of piezocomposite sensors for structure health monitoring in aerospace
[nazev_orig] => Integration and test of piezocomposite sensors for structure health monitoring in aerospace
[duvernost_udaju_id] => S
[popis] => The paper presents an innovative approach for Structure Health Monitoring utilizing piezocomposite plates as active sensors. The present work is motivated by the increasing interest in reduction of maintenance costs for aircrafts, which can be achieved by implementing self-sufficient sensor networks into the aircraft to predict risk states and prevent structural failures. These networks could supplement and possibly replace the expensive maintenance inspections. Piezoelectric materials have recently been under a rapid development, have been utilized in various fields of industry and due to their inexpensive and robust nature they can be used as sensors in non-intrusive Structure Health Monitoring networks. The presented approach uses piezocomposite sensors embedded into the structure of a small civil aircraft to directly measure structural vibrations. The functionality of the entire measurement chain was tested during an experimental flight, the acquired data will be used for further research of data-processing, impact detection and structure health prediction. (C) 2019 Elsevier Ltd. All rights reserved.
[popis_orig] => The paper presents an innovative approach for Structure Health Monitoring utilizing piezocomposite plates as active sensors. The present work is motivated by the increasing interest in reduction of maintenance costs for aircrafts, which can be achieved by implementing self-sufficient sensor networks into the aircraft to predict risk states and prevent structural failures. These networks could supplement and possibly replace the expensive maintenance inspections. Piezoelectric materials have recently been under a rapid development, have been utilized in various fields of industry and due to their inexpensive and robust nature they can be used as sensors in non-intrusive Structure Health Monitoring networks. The presented approach uses piezocomposite sensors embedded into the structure of a small civil aircraft to directly measure structural vibrations. The functionality of the entire measurement chain was tested during an experimental flight, the acquired data will be used for further research of data-processing, impact detection and structure health prediction. (C) 2019 Elsevier Ltd. All rights reserved.
[klicova_slova] => Structure health monitoring; Piezocomposite sensors; Non-intrusive testing; Structural vibrations
[klicova_slova_orig] => Structure health monitoring; Piezocomposite sensors; Non-intrusive testing; Structural vibrations
[url] => https://www.sciencedirect.com/science/article/pii/S0263224119307183
[oecd_obor_id] => 21101
[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] => 144901
[schvaleno] => 2020-07-20
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => KŠICA, F.; HADAŠ, Z.; HLINKA, J.
[pocet_tvurcu] => 3
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.measurement.2019.106861
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Scopus Article
[druh_popis] => Peer-reviewed article included in Scopus database 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 0263-2241
[identifikator_popis] => ISSN - MEASUREMENT (GB)
[riv_dodavka_id] => 2419
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KŠICA, F.; HADAŠ, Z.; HLINKA, J. Integration and test of piezocomposite sensors for structure health monitoring in aerospace. MEASUREMENT, 2019, vol. 147, no. 106861, p. 1-10. ISSN: 0263-2241.
[citace_html] => KŠICA, F.; HADAŠ, Z.; HLINKA, J. Integration and test of piezocomposite sensors for structure health monitoring in aerospace. MEASUREMENT, 2019, vol. 147, no. 106861, p. 1-10. ISSN: 0263-2241.
[citace_rtf] =>
[citace_bibtex] => @article{BUT158038,
author="Filip {Kšica} and Zdeněk {Hadaš} and Jiří {Hlinka}",
title="Integration and test of piezocomposite sensors for structure health monitoring in aerospace",
journal="MEASUREMENT",
year="2019",
volume="147",
number="106861",
pages="1--10",
doi="10.1016/j.measurement.2019.106861",
issn="0263-2241",
url="https://www.sciencedirect.com/science/article/pii/S0263224119307183"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 3.364
[if_q] => 1
[if_m17_q] => 2
[if_m25_q] => 2
[if_d] =>
[if_m17_d] => 3
[if_m25_d] => 3
[if_percentil] => 80.469
[if_m17_percentil] => 74.837
[if_m25_percentil] => 74.837
[ais] => 0.517
[ais_m17_q] => 2
[ais_m25_q] => 2
[ais_m17_d] => 4
[ais_m25_d] => 4
[ais_m17_percentil] => 60.967
[ais_m25_percentil] => 60.967
[jci] => 1.33
[jci_q] => 1
[jci_percentil] => 90.972
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] => 1
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 21100
[oecd_tree_obor_nazev] => 2.11 Other engineering and technologies
[oecd_tree_podobor_id] => 21101
[oecd_tree_podobor_nazev] => Food and beverages
[poznamka_metriky] =>
[nazev_en] => Integration and test of piezocomposite sensors for structure health monitoring in aerospace
[popis_en] => The paper presents an innovative approach for Structure Health Monitoring utilizing piezocomposite plates as active sensors. The present work is motivated by the increasing interest in reduction of maintenance costs for aircrafts, which can be achieved by implementing self-sufficient sensor networks into the aircraft to predict risk states and prevent structural failures. These networks could supplement and possibly replace the expensive maintenance inspections. Piezoelectric materials have recently been under a rapid development, have been utilized in various fields of industry and due to their inexpensive and robust nature they can be used as sensors in non-intrusive Structure Health Monitoring networks. The presented approach uses piezocomposite sensors embedded into the structure of a small civil aircraft to directly measure structural vibrations. The functionality of the entire measurement chain was tested during an experimental flight, the acquired data will be used for further research of data-processing, impact detection and structure health prediction. (C) 2019 Elsevier Ltd. All rights reserved.
[klicova_slova_en] => Structure health monitoring; Piezocomposite sensors; Non-intrusive testing; Structural vibrations
[vysledek_datum] => 2019-12-01T00:00:00+01:00
)
[1] => Array
(
[vysledek_id] => 158046
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 132952
[vysledek_rok] => 2019
[nazev] => Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy
[nazev_orig] => Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy
[duvernost_udaju_id] => S
[popis] => The ductile failure predictions have been an issue in many engineering applications. It begins with a design of machines and tools, continues with an evaluation of manufacturing processes, and last but not least ends with the assessment of various structures. The paper deals with a predictability of used criteria for a random structure of aluminum alloy 2024-T351, which was performed under the conditions of room temperature three-point bending. The bi-failure mode creates a space for the numerical studies of various approaches and gives an insight into the model performance. The plasticity was described by Lode-dependent yield criterion, which was coupled with several pressure and Lode-dependent fracture models to form a continuum damage mechanics approach via the material weakening. It was incorporated through a nonlinear damage accumulation, which was finally implemented using Fortran 77 subroutine into ABAQUS/EXPLICIT. All the models exhibited a good ability of crack onset prediction in terms of the force responses and realistic predictability of the crack propagation. The field of deformations was successfully compared with experimental data obtained by an optical method.
[popis_orig] => The ductile failure predictions have been an issue in many engineering applications. It begins with a design of machines and tools, continues with an evaluation of manufacturing processes, and last but not least ends with the assessment of various structures. The paper deals with a predictability of used criteria for a random structure of aluminum alloy 2024-T351, which was performed under the conditions of room temperature three-point bending. The bi-failure mode creates a space for the numerical studies of various approaches and gives an insight into the model performance. The plasticity was described by Lode-dependent yield criterion, which was coupled with several pressure and Lode-dependent fracture models to form a continuum damage mechanics approach via the material weakening. It was incorporated through a nonlinear damage accumulation, which was finally implemented using Fortran 77 subroutine into ABAQUS/EXPLICIT. All the models exhibited a good ability of crack onset prediction in terms of the force responses and realistic predictability of the crack propagation. The field of deformations was successfully compared with experimental data obtained by an optical method.
[klicova_slova] => constitutive relations; fracture; mechanical behavior; metals; plastic behavior
[klicova_slova_orig] => constitutive relations; fracture; mechanical behavior; metals; plastic behavior
[url] => https://asmedigitalcollection.asme.org/materialstechnology/article/141/4/041011/958485/Ductile-Failure-Predictions-for-the-Three-Point
[oecd_obor_id] => 20301
[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] => 2021-01-14
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => KUBÍK, P.; ŠEBEK, F.; ZAPLETAL, J.; PETRUŠKA, J.; NÁVRAT, T.
[pocet_tvurcu] => 5
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1115/1.4044477
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[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 0094-4289
[identifikator_popis] => ISSN - JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME (US)
[riv_dodavka_id] => 2487
[riv_dodavka_oznaceni] => RIV20-GA0-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KUBÍK, P.; ŠEBEK, F.; ZAPLETAL, J.; PETRUŠKA, J.; NÁVRAT, T. Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy. JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME, 2019, vol. 141, no. 4, p. 1-12. ISSN: 0094-4289.
[citace_html] => KUBÍK, P.; ŠEBEK, F.; ZAPLETAL, J.; PETRUŠKA, J.; NÁVRAT, T. Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy. JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME, 2019, vol. 141, no. 4, p. 1-12. ISSN: 0094-4289.
[citace_rtf] =>
[citace_bibtex] => @article{BUT158046,
author="Petr {Kubík} and František {Šebek} and Josef {Zapletal} and Jindřich {Petruška} and Tomáš {Návrat}",
title="Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy",
journal="JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME",
year="2019",
volume="141",
number="4",
pages="1--12",
doi="10.1115/1.4044477",
issn="0094-4289",
url="https://asmedigitalcollection.asme.org/materialstechnology/article/141/4/041011/958485/Ductile-Failure-Predictions-for-the-Three-Point"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 1.144
[if_q] => 4
[if_m17_q] => 3
[if_m25_q] => 3
[if_d] =>
[if_m17_d] => 8
[if_m25_d] => 8
[if_percentil] => 18.077
[if_m17_percentil] => 26.417
[if_m25_percentil] => 26.417
[ais] => 0.254
[ais_m17_q] => 3
[ais_m25_q] => 3
[ais_m17_d] => 7
[ais_m25_d] => 7
[ais_m17_percentil] => 37.286
[ais_m25_percentil] => 37.286
[jci] => 0.32
[jci_q] => 3
[jci_percentil] => 29.733
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] => 2
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20301
[oecd_tree_podobor_nazev] => Mechanical engineering
[poznamka_metriky] =>
[nazev_en] => Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy
[popis_en] => The ductile failure predictions have been an issue in many engineering applications. It begins with a design of machines and tools, continues with an evaluation of manufacturing processes, and last but not least ends with the assessment of various structures. The paper deals with a predictability of used criteria for a random structure of aluminum alloy 2024-T351, which was performed under the conditions of room temperature three-point bending. The bi-failure mode creates a space for the numerical studies of various approaches and gives an insight into the model performance. The plasticity was described by Lode-dependent yield criterion, which was coupled with several pressure and Lode-dependent fracture models to form a continuum damage mechanics approach via the material weakening. It was incorporated through a nonlinear damage accumulation, which was finally implemented using Fortran 77 subroutine into ABAQUS/EXPLICIT. All the models exhibited a good ability of crack onset prediction in terms of the force responses and realistic predictability of the crack propagation. The field of deformations was successfully compared with experimental data obtained by an optical method.
[klicova_slova_en] => constitutive relations; fracture; mechanical behavior; metals; plastic behavior
[vysledek_datum] => 2019-09-07T00:00:00+02:00
)
[2] => Array
(
[vysledek_id] => 158058
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 133002
[vysledek_rok] => 2019
[nazev] => Non-associated flow rule in the prediction of complex stress states and deformations
[nazev_orig] => Non-associated flow rule in the prediction of complex stress states and deformations
[duvernost_udaju_id] => S
[popis] => The paper deals with the application of non-associated flow rule to the nonquadratic yield criterion. The utilization resulted in a significant improvement in the predicted stress states as well as deformations, which matched the theoretical values and experimental observations. The correct calibration of such an advanced plasticity model, and especially its plastic potential, will be subjected to a further research.
[popis_orig] => The paper deals with the application of non-associated flow rule to the nonquadratic yield criterion. The utilization resulted in a significant improvement in the predicted stress states as well as deformations, which matched the theoretical values and experimental observations. The correct calibration of such an advanced plasticity model, and especially its plastic potential, will be subjected to a further research.
[klicova_slova] => Flow rule; Ductile fracture; Large plastic deformations; Lode parameter; Stress triaxiality
[klicova_slova_orig] => Flow rule; Ductile fracture; Large plastic deformations; Lode parameter; Stress triaxiality
[url] =>
[oecd_obor_id] => 20301
[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] => 2020-09-24
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => ŠEBEK, F.; KUBÍK, P.; PETRUŠKA, J.; ZAPLETAL, J.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 978-80-214-5766-9
[identifikator_popis] => ISBN - Experimental Stress Analysis 2019
[riv_dodavka_id] => 2487
[riv_dodavka_oznaceni] => RIV20-GA0-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => ŠEBEK, F.; KUBÍK, P.; PETRUŠKA, J.; ZAPLETAL, J. Non-associated flow rule in the prediction of complex stress states and deformations. In Experimental Stress Analysis 2019. 2019. p. 488-492. ISBN: 978-80-214-5766-9.
[citace_html] => ŠEBEK, F.; KUBÍK, P.; PETRUŠKA, J.; ZAPLETAL, J. Non-associated flow rule in the prediction of complex stress states and deformations. In Experimental Stress Analysis 2019. 2019. p. 488-492. ISBN: 978-80-214-5766-9.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT158058,
author="František {Šebek} and Petr {Kubík} and Jindřich {Petruška} and Josef {Zapletal}",
title="Non-associated flow rule in the prediction of complex stress states and deformations",
booktitle="Experimental Stress Analysis 2019",
year="2019",
pages="488--492",
isbn="978-80-214-5766-9"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20301
[oecd_tree_podobor_nazev] => Mechanical engineering
[poznamka_metriky] =>
[nazev_en] => Non-associated flow rule in the prediction of complex stress states and deformations
[popis_en] => The paper deals with the application of non-associated flow rule to the nonquadratic yield criterion. The utilization resulted in a significant improvement in the predicted stress states as well as deformations, which matched the theoretical values and experimental observations. The correct calibration of such an advanced plasticity model, and especially its plastic potential, will be subjected to a further research.
[klicova_slova_en] => Flow rule; Ductile fracture; Large plastic deformations; Lode parameter; Stress triaxiality
[vysledek_datum] => 2019-06-03T00:00:00+02:00
)
[3] => Array
(
[vysledek_id] => 158124
[vysledek_druh_id] => CHAPT
[ex_vysledek_id] => 133020
[vysledek_rok] => 2019
[nazev] => Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment
[nazev_orig] => Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment
[duvernost_udaju_id] => S
[popis] => Recent developments in different areas have enabled the improvement and development of new energy harvesting technologies that could potentially be successfully employed for various railway applications. The state of development of energy harvesting solutions potentially suitable for integration in the railway environment to power trackside equipment has been reviewed and assessed. The general harvesting capacities and characteristics of potential energy harvesting technologies have been discussed, along with the general power usage requirements and characteristics of common types of trackside equipment. Conclusions have been drawn about the most suitable energy harvesting technologies, or combination of technologies to be incorporated into a combined energy harvesting and storage power supply for different trackside equipment.
[popis_orig] => Recent developments in different areas have enabled the improvement and development of new energy harvesting technologies that could potentially be successfully employed for various railway applications. The state of development of energy harvesting solutions potentially suitable for integration in the railway environment to power trackside equipment has been reviewed and assessed. The general harvesting capacities and characteristics of potential energy harvesting technologies have been discussed, along with the general power usage requirements and characteristics of common types of trackside equipment. Conclusions have been drawn about the most suitable energy harvesting technologies, or combination of technologies to be incorporated into a combined energy harvesting and storage power supply for different trackside equipment.
[klicova_slova] => Energy harvesting Railway systems Signalling Trackside electronics
[klicova_slova_orig] => Energy harvesting Railway systems Signalling Trackside electronics
[url] => https://link.springer.com/chapter/10.1007/978-3-030-19519-9_8
[oecd_obor_id] => 20201
[odpovedny_utvar_id] => 21342
[odpovedny_utvar_nazev] => Division of Mechanics
[odpovedny_utvar_zkratka] => NETME DME
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 254501
[schvaleno] => 2023-03-01
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => ULIANOV, C.; HADAŠ, Z.; HYDE, P.; SMILEK, J.
[pocet_tvurcu] => 4
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1007/978-3-030-19519-9_8
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Chapter in a book
[druh_popis] => Chapter in a book
[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 978-3-030-19519-9
[identifikator_popis] => ISBN - Sustainable Rail Transport
[riv_dodavka_id] => 3148
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => ULIANOV, C.; HADAŠ, Z.; HYDE, P.; SMILEK, J. Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment. In Sustainable Rail Transport. Cham: Springer, 2019. p. 229-255. ISBN: 978-3-030-19519-9.
[citace_html] => ULIANOV, C.; HADAŠ, Z.; HYDE, P.; SMILEK, J. Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment. In Sustainable Rail Transport. Cham: Springer, 2019. p. 229-255. ISBN: 978-3-030-19519-9.
[citace_rtf] =>
[citace_bibtex] => @inbook{BUT158124,
author="Cristian {Ulianov} and Zdeněk {Hadaš} and Paul {Hyde} and Jan {Smilek}",
title="Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment",
booktitle="Sustainable Rail Transport",
year="2019",
publisher="Springer",
address="Cham",
pages="229--255",
doi="10.1007/978-3-030-19519-9\{_}8",
isbn="978-3-030-19519-9",
url="https://link.springer.com/chapter/10.1007/978-3-030-19519-9_8"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[oecd_tree_obor_nazev] => 2.2 Electrical engineering, Electronic engineering, Information engineering
[oecd_tree_podobor_id] => 20201
[oecd_tree_podobor_nazev] => Electrical and electronic engineering
[poznamka_metriky] =>
[nazev_en] => Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment
[popis_en] => Recent developments in different areas have enabled the improvement and development of new energy harvesting technologies that could potentially be successfully employed for various railway applications. The state of development of energy harvesting solutions potentially suitable for integration in the railway environment to power trackside equipment has been reviewed and assessed. The general harvesting capacities and characteristics of potential energy harvesting technologies have been discussed, along with the general power usage requirements and characteristics of common types of trackside equipment. Conclusions have been drawn about the most suitable energy harvesting technologies, or combination of technologies to be incorporated into a combined energy harvesting and storage power supply for different trackside equipment.
[klicova_slova_en] => Energy harvesting Railway systems Signalling Trackside electronics
[vysledek_datum] => 2019-07-25T00:00:00+02:00
)
[4] => Array
(
[vysledek_id] => 158147
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 133027
[vysledek_rok] => 2019
[nazev] => Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading
[nazev_orig] => Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading
[duvernost_udaju_id] => S
[popis] => In metallic materials the paths and fronts of fatigue cracks usually exhibit a certain tortuosity caused by microstructural heterogeneities. Our previous calculations for remote mode III loading revealed that the in-plane tortuosity of pre-crack fronts was associated with significant local k2 components of the effective stress intensity factor (SIF), thus enabling small segments growing in the local mode II to gradually advance the whole “mode III” crack front. In this work, the local effective SIFs at both in-plane and out-of-plane (3D) serrated crack fronts in the compact-tension-shear specimen under the remote mode II loading are numerically investigated by neglecting the friction stresses. The changes in local and global effective SIFs are presented separately for in-plane and out-of-plane tortuous crack fronts and, on the global level, also for their combination. Local k3 components appeared at in-plane serrated crack fronts and, for the out-of-plane roughness, local k1-values were present. For equal levels of the remote mode II loading, a geometrical shielding effect induced by the crack tortuosity, i.e., a uniform decrease of an averaged k2-value with increasing roughness of the crack front was revealed. When all three local loading modes along the tortuous crack front were considered in terms of equivalent SIFs, the shielding effect was also revealed in an entire or a prevailing range of roughness characteristics. However, some of equivalent SIF definitions predicted an unexpected slight anti-shielding effect in a certain small range of roughness characteristics close to those associated with crack fronts in real metallic materials.
[popis_orig] => In metallic materials the paths and fronts of fatigue cracks usually exhibit a certain tortuosity caused by microstructural heterogeneities. Our previous calculations for remote mode III loading revealed that the in-plane tortuosity of pre-crack fronts was associated with significant local k2 components of the effective stress intensity factor (SIF), thus enabling small segments growing in the local mode II to gradually advance the whole “mode III” crack front. In this work, the local effective SIFs at both in-plane and out-of-plane (3D) serrated crack fronts in the compact-tension-shear specimen under the remote mode II loading are numerically investigated by neglecting the friction stresses. The changes in local and global effective SIFs are presented separately for in-plane and out-of-plane tortuous crack fronts and, on the global level, also for their combination. Local k3 components appeared at in-plane serrated crack fronts and, for the out-of-plane roughness, local k1-values were present. For equal levels of the remote mode II loading, a geometrical shielding effect induced by the crack tortuosity, i.e., a uniform decrease of an averaged k2-value with increasing roughness of the crack front was revealed. When all three local loading modes along the tortuous crack front were considered in terms of equivalent SIFs, the shielding effect was also revealed in an entire or a prevailing range of roughness characteristics. However, some of equivalent SIF definitions predicted an unexpected slight anti-shielding effect in a certain small range of roughness characteristics close to those associated with crack fronts in real metallic materials.
[klicova_slova] => Compact-tension-shear specimen; Remote mode II loading; In-plane and out-of-plane crack roughness;
Geometrical shielding effect; Local stress intensity factors
[klicova_slova_orig] => Compact-tension-shear specimen; Remote mode II loading; In-plane and out-of-plane crack roughness;
Geometrical shielding effect; Local stress intensity factors
[url] => https://www.sciencedirect.com/science/article/pii/S0167844218306372
[oecd_obor_id] => 20501
[odpovedny_utvar_id] => 153
[odpovedny_utvar_nazev] => Institute of Physical Engineering
[odpovedny_utvar_zkratka] => IPE
[nadrazena_soucast_id] => 4
[nadrazena_soucast_zkratka] => FME
[nadrazena_soucast_nazev] => Faculty of Mechanical Engineering
[originalni_jazyk] => en
[schvalil_id] => 200135
[schvaleno] => 2021-03-09
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => ŽÁK, S.; HORNÍKOVÁ, J.; ŠANDERA, P.; VOJTEK, T.; KIANICOVÁ, M.; POKLUDA, J.
[pocet_tvurcu] => 6
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.tafmec.2019.01.030
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[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 0167-8442
[identifikator_popis] => ISSN - THEORETICAL AND APPLIED FRACTURE MECHANICS (NL)
[riv_dodavka_id] => 2538
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => ŽÁK, S.; HORNÍKOVÁ, J.; ŠANDERA, P.; VOJTEK, T.; KIANICOVÁ, M.; POKLUDA, J. Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading. THEORETICAL AND APPLIED FRACTURE MECHANICS, 2019, vol. 101, no. 1, p. 35-45. ISSN: 0167-8442.
[citace_html] => ŽÁK, S.; HORNÍKOVÁ, J.; ŠANDERA, P.; VOJTEK, T.; KIANICOVÁ, M.; POKLUDA, J. Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading. THEORETICAL AND APPLIED FRACTURE MECHANICS, 2019, vol. 101, no. 1, p. 35-45. ISSN: 0167-8442.
[citace_rtf] =>
[citace_bibtex] => @article{BUT158147,
author="Stanislav {Žák} and Jana {Horníková} and Pavel {Šandera} and Tomáš {Vojtek} and Marta {Kianicová} and Jaroslav {Pokluda}",
title="Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading",
journal="THEORETICAL AND APPLIED FRACTURE MECHANICS",
year="2019",
volume="101",
number="1",
pages="35--45",
doi="10.1016/j.tafmec.2019.01.030",
issn="0167-8442",
url="https://www.sciencedirect.com/science/article/pii/S0167844218306372"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 3.021
[if_q] => 1
[if_m17_q] => 1
[if_m25_q] => 1
[if_d] =>
[if_m17_d] => 2
[if_m25_d] => 2
[if_percentil] => 76.103
[if_m17_percentil] => 81.171
[if_m25_percentil] => 81.171
[ais] => 0.575
[ais_m17_q] => 2
[ais_m25_q] => 2
[ais_m17_d] => 4
[ais_m25_d] => 4
[ais_m17_percentil] => 69.741
[ais_m25_percentil] => 69.741
[jci] => 0.99
[jci_q] => 1
[jci_percentil] => 81.627
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] => 1
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[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] => 20501
[oecd_tree_podobor_nazev] => Materials engineering
[poznamka_metriky] =>
[nazev_en] => Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading
[popis_en] => In metallic materials the paths and fronts of fatigue cracks usually exhibit a certain tortuosity caused by microstructural heterogeneities. Our previous calculations for remote mode III loading revealed that the in-plane tortuosity of pre-crack fronts was associated with significant local k2 components of the effective stress intensity factor (SIF), thus enabling small segments growing in the local mode II to gradually advance the whole “mode III” crack front. In this work, the local effective SIFs at both in-plane and out-of-plane (3D) serrated crack fronts in the compact-tension-shear specimen under the remote mode II loading are numerically investigated by neglecting the friction stresses. The changes in local and global effective SIFs are presented separately for in-plane and out-of-plane tortuous crack fronts and, on the global level, also for their combination. Local k3 components appeared at in-plane serrated crack fronts and, for the out-of-plane roughness, local k1-values were present. For equal levels of the remote mode II loading, a geometrical shielding effect induced by the crack tortuosity, i.e., a uniform decrease of an averaged k2-value with increasing roughness of the crack front was revealed. When all three local loading modes along the tortuous crack front were considered in terms of equivalent SIFs, the shielding effect was also revealed in an entire or a prevailing range of roughness characteristics. However, some of equivalent SIF definitions predicted an unexpected slight anti-shielding effect in a certain small range of roughness characteristics close to those associated with crack fronts in real metallic materials.
[klicova_slova_en] => Compact-tension-shear specimen; Remote mode II loading; In-plane and out-of-plane crack roughness;
Geometrical shielding effect; Local stress intensity factors
[vysledek_datum] => 2019-06-01T00:00:00+02:00
)
[5] => Array
(
[vysledek_id] => 158402
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 133162
[vysledek_rok] => 2019
[nazev] => Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution
[nazev_orig] => Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution
[duvernost_udaju_id] => S
[popis] => Cyclic plasticity models for the description of the deformation characteristics of austenitic stainless steel 304 at a room temperature have been studied with the focus on its industrial use. The main objective of this work is to investigate the capabilities of the classical Chaboche model with four terms which is commonly used in practice, and to compare those capabilities with the same model enriched with the evolution of some kinematic hardening parameters. The incorporation of parameters evolution brings significant number of necessary parameters to be determined, compared to the classical Chaboche model with four terms. To overcome excessive number of necessary parameters, also two terms Chaboche model with parameters evolution is used. Presented paper evaluates the time and temperature independent modeling possibilities of Chaboche combined nonlinear kinematic hardening model and isotropic hardening model with von Mises yield criterion.
[popis_orig] => Cyclic plasticity models for the description of the deformation characteristics of austenitic stainless steel 304 at a room temperature have been studied with the focus on its industrial use. The main objective of this work is to investigate the capabilities of the classical Chaboche model with four terms which is commonly used in practice, and to compare those capabilities with the same model enriched with the evolution of some kinematic hardening parameters. The incorporation of parameters evolution brings significant number of necessary parameters to be determined, compared to the classical Chaboche model with four terms. To overcome excessive number of necessary parameters, also two terms Chaboche model with parameters evolution is used. Presented paper evaluates the time and temperature independent modeling possibilities of Chaboche combined nonlinear kinematic hardening model and isotropic hardening model with von Mises yield criterion.
[klicova_slova] => Cyclic plasticity; Chaboche kinematic hardening; kinematic hardening evolution; AISI 304 steel
[klicova_slova_orig] => Cyclic plasticity; Chaboche kinematic hardening; kinematic hardening evolution; AISI 304 steel
[url] => https://link.springer.com/article/10.3103/S0025654419010102
[oecd_obor_id] => 20302
[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] => 2020-03-18
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => PEČ, M.; ŠEBEK, F.; PETRUŠKA, J.
[pocet_tvurcu] => 3
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.3103/S0025654419010102
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[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 0025-6544
[identifikator_popis] => ISSN - Mechanics of Solids (RU)
[riv_dodavka_id] => 2419
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => PEČ, M.; ŠEBEK, F.; PETRUŠKA, J. Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution. Mechanics of Solids, 2019, vol. 54, no. 1, p. 122-129. ISSN: 0025-6544.
[citace_html] => PEČ, M.; ŠEBEK, F.; PETRUŠKA, J. Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution. Mechanics of Solids, 2019, vol. 54, no. 1, p. 122-129. ISSN: 0025-6544.
[citace_rtf] =>
[citace_bibtex] => @article{BUT158402,
author="Michal {Peč} and František {Šebek} and Jindřich {Petruška}",
title="Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution",
journal="Mechanics of Solids",
year="2019",
volume="54",
number="1",
pages="122--129",
doi="10.3103/S0025654419010102",
issn="0025-6544",
url="https://link.springer.com/article/10.3103/S0025654419010102"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 0.374
[if_q] => 4
[if_m17_q] => 4
[if_m25_q] => 4
[if_d] =>
[if_m17_d] => 10
[if_m25_d] => 10
[if_percentil] => 0.368
[if_m17_percentil] => 2.69
[if_m25_percentil] => 2.69
[ais] => 0.088
[ais_m17_q] => 4
[ais_m25_q] => 4
[ais_m17_d] => 10
[ais_m25_d] => 10
[ais_m17_percentil] => 4.369
[ais_m25_percentil] => 4.369
[jci] => 0.13
[jci_q] => 4
[jci_percentil] => 2.885
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] => 3
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20302
[oecd_tree_podobor_nazev] => Applied mechanics
[poznamka_metriky] =>
[nazev_en] => Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution
[popis_en] => Cyclic plasticity models for the description of the deformation characteristics of austenitic stainless steel 304 at a room temperature have been studied with the focus on its industrial use. The main objective of this work is to investigate the capabilities of the classical Chaboche model with four terms which is commonly used in practice, and to compare those capabilities with the same model enriched with the evolution of some kinematic hardening parameters. The incorporation of parameters evolution brings significant number of necessary parameters to be determined, compared to the classical Chaboche model with four terms. To overcome excessive number of necessary parameters, also two terms Chaboche model with parameters evolution is used. Presented paper evaluates the time and temperature independent modeling possibilities of Chaboche combined nonlinear kinematic hardening model and isotropic hardening model with von Mises yield criterion.
[klicova_slova_en] => Cyclic plasticity; Chaboche kinematic hardening; kinematic hardening evolution; AISI 304 steel
[vysledek_datum] => 2019-09-03T00:00:00+02:00
)
[6] => Array
(
[vysledek_id] => 158455
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 133232
[vysledek_rok] => 2019
[nazev] => Simple and low-cost analog tactile sensor for robot
[nazev_orig] => Simple and low-cost analog tactile sensor for robot
[duvernost_udaju_id] => S
[popis] => Tactile sensor based on pressure change measurement is simple and cheap solu-tion when magnitude of force is required. The touch sensor works on the princi-ple of pressure change caused by deformation of flexible spherical membrane. The magnitude of the force is converted to an analog signal that is easy to pro-cess. The resulting sensor is cheap, accurate and a simple signal processing sen-sor. The sensor is very sensitive. The sensor is also susceptible to noise from en-vironmental conditions unfortunately. The sensor can be adjusted for different load range by changing parameters of the membrane. Furthermore, the electronics can be placed at a greater distance from the sensor by guiding the medium (air) through rigid pipe, which is preferable especially in applications where there is little space.
[popis_orig] => Tactile sensor based on pressure change measurement is simple and cheap solu-tion when magnitude of force is required. The touch sensor works on the princi-ple of pressure change caused by deformation of flexible spherical membrane. The magnitude of the force is converted to an analog signal that is easy to pro-cess. The resulting sensor is cheap, accurate and a simple signal processing sen-sor. The sensor is very sensitive. The sensor is also susceptible to noise from en-vironmental conditions unfortunately. The sensor can be adjusted for different load range by changing parameters of the membrane. Furthermore, the electronics can be placed at a greater distance from the sensor by guiding the medium (air) through rigid pipe, which is preferable especially in applications where there is little space.
[klicova_slova] => Force magnitude · Touch sensor · Prosthetic Arm · Walking robot
[klicova_slova_orig] => Force magnitude · Touch sensor · Prosthetic Arm · Walking robot
[url] => https://link.springer.com/chapter/10.1007/978-3-030-29993-4_28
[oecd_obor_id] => 20204
[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] => 182808
[schvaleno] => 2023-02-02
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => KRÁLÍK, J.; VENGLÁŘ, V.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1007/978-3-030-29993-4_28
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 978-3-030-29992-7
[identifikator_popis] => ISBN - Mechatronics 2019: Recent Advances Towards Industry 4.0
[riv_dodavka_id] => 3148
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KRÁLÍK, J.; VENGLÁŘ, V. Simple and low-cost analog tactile sensor for robot. In Mechatronics 2019: Recent Advances Towards Industry 4.0. Springer Nature Switzerland AG 2020, 2019. p. 222-228. ISBN: 978-3-030-29992-7.
[citace_html] => KRÁLÍK, J.; VENGLÁŘ, V. Simple and low-cost analog tactile sensor for robot. In Mechatronics 2019: Recent Advances Towards Industry 4.0. Springer Nature Switzerland AG 2020, 2019. p. 222-228. ISBN: 978-3-030-29992-7.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT158455,
author="Jan {Králík} and Vojtěch {Venglář}",
title="Simple and low-cost analog tactile sensor for robot",
booktitle="Mechatronics 2019: Recent Advances Towards Industry 4.0",
year="2019",
pages="222--228",
publisher="Springer Nature Switzerland AG 2020",
doi="10.1007/978-3-030-29993-4\{_}28",
isbn="978-3-030-29992-7",
url="https://link.springer.com/chapter/10.1007/978-3-030-29993-4_28"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[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] => Simple and low-cost analog tactile sensor for robot
[popis_en] => Tactile sensor based on pressure change measurement is simple and cheap solu-tion when magnitude of force is required. The touch sensor works on the princi-ple of pressure change caused by deformation of flexible spherical membrane. The magnitude of the force is converted to an analog signal that is easy to pro-cess. The resulting sensor is cheap, accurate and a simple signal processing sen-sor. The sensor is very sensitive. The sensor is also susceptible to noise from en-vironmental conditions unfortunately. The sensor can be adjusted for different load range by changing parameters of the membrane. Furthermore, the electronics can be placed at a greater distance from the sensor by guiding the medium (air) through rigid pipe, which is preferable especially in applications where there is little space.
[klicova_slova_en] => Force magnitude · Touch sensor · Prosthetic Arm · Walking robot
[vysledek_datum] => 2019-08-28T00:00:00+02:00
)
[7] => Array
(
[vysledek_id] => 158485
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 133229
[vysledek_rok] => 2019
[nazev] => Step planning algorithm for n-legged walking robot with smooth direction control
[nazev_orig] => Step planning algorithm for n-legged walking robot with smooth direction control
[duvernost_udaju_id] => S
[popis] => Precise step-planning algorithm is important when we want to drive an n-legged walking robot. Probably the most widely used precise control system is based on neural networks, but those require a lot of computing power. The main goal of this paper is to propose a computationally efficient method for precise and smooth movement of a robot. An algorithm capable of computing end-step position based on movement around a circle was developed. It can be driven by control vector or (with minor modification) by a radius and a tangent. It is simple to implement, adjust and debug, and needs only a small amount of computational power. The proposed algorithm only generates the end points of each step. It can be used as a basis for more complex solution and can be also used in a system with a large number of legs. The movement of body, the kinematics of mechanical parts and the manipulation of center of mass must be solved by other algorithms.
[popis_orig] => Precise step-planning algorithm is important when we want to drive an n-legged walking robot. Probably the most widely used precise control system is based on neural networks, but those require a lot of computing power. The main goal of this paper is to propose a computationally efficient method for precise and smooth movement of a robot. An algorithm capable of computing end-step position based on movement around a circle was developed. It can be driven by control vector or (with minor modification) by a radius and a tangent. It is simple to implement, adjust and debug, and needs only a small amount of computational power. The proposed algorithm only generates the end points of each step. It can be used as a basis for more complex solution and can be also used in a system with a large number of legs. The movement of body, the kinematics of mechanical parts and the manipulation of center of mass must be solved by other algorithms.
[klicova_slova] => Walking robot, Planning Algorithm, Legged robot, Precise control, Quadruped
[klicova_slova_orig] => Walking robot, Planning Algorithm, Legged robot, Precise control, Quadruped
[url] => http://www.engmech.cz/im/proceedings/show/2019
[oecd_obor_id] => 20204
[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] => 162899
[schvaleno] => 2022-03-02
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => KRÁLÍK, J.; VENGLÁŘ, V.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.21495/71-0-199
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 978-80-87012-71-0
[identifikator_popis] => ISBN - ENGINEERING MECHANICS 2019
[riv_dodavka_id] => 2856
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => KRÁLÍK, J.; VENGLÁŘ, V. Step planning algorithm for n-legged walking robot with smooth direction control. In ENGINEERING MECHANICS 2019. First edition. 2019. p. 199-202. ISBN: 978-80-87012-71-0.
[citace_html] => KRÁLÍK, J.; VENGLÁŘ, V. Step planning algorithm for n-legged walking robot with smooth direction control. In ENGINEERING MECHANICS 2019. First edition. 2019. p. 199-202. ISBN: 978-80-87012-71-0.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT158485,
author="Jan {Králík} and Vojtěch {Venglář}",
title="Step planning algorithm for n-legged walking robot with smooth direction control",
booktitle="ENGINEERING MECHANICS 2019
",
year="2019",
series="First edition",
pages="199--202",
doi="10.21495/71-0-199",
isbn="978-80-87012-71-0",
url="http://www.engmech.cz/im/proceedings/show/2019"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[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] => Step planning algorithm for n-legged walking robot with smooth direction control
[popis_en] => Precise step-planning algorithm is important when we want to drive an n-legged walking robot. Probably the most widely used precise control system is based on neural networks, but those require a lot of computing power. The main goal of this paper is to propose a computationally efficient method for precise and smooth movement of a robot. An algorithm capable of computing end-step position based on movement around a circle was developed. It can be driven by control vector or (with minor modification) by a radius and a tangent. It is simple to implement, adjust and debug, and needs only a small amount of computational power. The proposed algorithm only generates the end points of each step. It can be used as a basis for more complex solution and can be also used in a system with a large number of legs. The movement of body, the kinematics of mechanical parts and the manipulation of center of mass must be solved by other algorithms.
[klicova_slova_en] => Walking robot, Planning Algorithm, Legged robot, Precise control, Quadruped
[vysledek_datum] => 2019-05-13T00:00:00+02:00
)
[8] => Array
(
[vysledek_id] => 158962
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 133481
[vysledek_rok] => 2019
[nazev] => Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings
[nazev_orig] => Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings
[duvernost_udaju_id] => S
[popis] => This paper deals with calculation of static equilibrium position of finite length hydrodynamic
journal bearings. Cylindrical and lemon bore hydrodynamic bearings are considered. Investigating the static
equilibrium position of the journal is very important for the correct determination of static and dynamic
characteristics of the bearings. The solution to this problem depends on the hydrodynamic pressure in the
bearing. The numerical solution of the Reynolds equation is used to calculate the pressure. The effect of
variable viscosity and density of the lubricant due to temperature changes is considered. The results of static
equilibrium position are shown for specific lemon bore bearing.
[popis_orig] => This paper deals with calculation of static equilibrium position of finite length hydrodynamic
journal bearings. Cylindrical and lemon bore hydrodynamic bearings are considered. Investigating the static
equilibrium position of the journal is very important for the correct determination of static and dynamic
characteristics of the bearings. The solution to this problem depends on the hydrodynamic pressure in the
bearing. The numerical solution of the Reynolds equation is used to calculate the pressure. The effect of
variable viscosity and density of the lubricant due to temperature changes is considered. The results of static
equilibrium position are shown for specific lemon bore bearing.
[klicova_slova] => Journal bearing, Cylindrical and lemon bearing, Reynolds equation, Energy equation, Static
equilibrium
[klicova_slova_orig] => Journal bearing, Cylindrical and lemon bearing, Reynolds equation, Energy equation, Static
equilibrium
[url] => http://www.engmech.cz/im/proceedings/show/2019
[oecd_obor_id] => 20302
[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] => 182808
[schvaleno] => 2022-03-02
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => POKORNÝ, J.
[pocet_tvurcu] => 1
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.21495/71-0-291
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 978-80-87012-71-0
[identifikator_popis] => ISBN - ENGINEERING MECHANICS 2019
[riv_dodavka_id] => 2856
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => POKORNÝ, J. Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings. In ENGINEERING MECHANICS 2019. Prague: Institute of Thermomechanics of the Czech Academy of Sciences, 2019. p. 291-294. ISBN: 978-80-87012-71-0.
[citace_html] => POKORNÝ, J. Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings. In ENGINEERING MECHANICS 2019. Prague: Institute of Thermomechanics of the Czech Academy of Sciences, 2019. p. 291-294. ISBN: 978-80-87012-71-0.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT158962,
author="Jan {Pokorný}",
title="Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings",
booktitle="ENGINEERING MECHANICS 2019",
year="2019",
pages="291--294",
publisher="Institute of Thermomechanics of the Czech Academy of Sciences",
address="Prague",
doi="10.21495/71-0-291",
isbn="978-80-87012-71-0",
url="http://www.engmech.cz/im/proceedings/show/2019"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20300
[oecd_tree_obor_nazev] => 2.3 Mechanical engineering
[oecd_tree_podobor_id] => 20302
[oecd_tree_podobor_nazev] => Applied mechanics
[poznamka_metriky] =>
[nazev_en] => Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings
[popis_en] => This paper deals with calculation of static equilibrium position of finite length hydrodynamic
journal bearings. Cylindrical and lemon bore hydrodynamic bearings are considered. Investigating the static
equilibrium position of the journal is very important for the correct determination of static and dynamic
characteristics of the bearings. The solution to this problem depends on the hydrodynamic pressure in the
bearing. The numerical solution of the Reynolds equation is used to calculate the pressure. The effect of
variable viscosity and density of the lubricant due to temperature changes is considered. The results of static
equilibrium position are shown for specific lemon bore bearing.
[klicova_slova_en] => Journal bearing, Cylindrical and lemon bearing, Reynolds equation, Energy equation, Static
equilibrium
[vysledek_datum] => 2019-05-13T00:00:00+02:00
)
[9] => Array
(
[vysledek_id] => 158987
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 133491
[vysledek_rok] => 2019
[nazev] => Coupled Model of Solenoid
[nazev_orig] => Coupled Model of Solenoid
[duvernost_udaju_id] => S
[popis] => Coupled modeling, within the meaning of including various physical aspects into one complex model, is desirable and unavoidable in many cases in technical practice these days. This attitude can be advantageously used in the design of technical devices. The more complex model is created, the more precise simulation of the reality is possible to obtain. But the complexity of a computational model must always correspond with what we expect from it.
Electricity and magnetism are strongly related to the thermal aspect. This is one of the reasons why neglecting this complexity can lead to misleading results. The intention of this paper is to show such a relationship with an illustrative example. The main result is a complex computational model of a solenoid that connects the mechanical and the thermal part of the system.
[popis_orig] => Coupled modeling, within the meaning of including various physical aspects into one complex model, is desirable and unavoidable in many cases in technical practice these days. This attitude can be advantageously used in the design of technical devices. The more complex model is created, the more precise simulation of the reality is possible to obtain. But the complexity of a computational model must always correspond with what we expect from it.
Electricity and magnetism are strongly related to the thermal aspect. This is one of the reasons why neglecting this complexity can lead to misleading results. The intention of this paper is to show such a relationship with an illustrative example. The main result is a complex computational model of a solenoid that connects the mechanical and the thermal part of the system.
[klicova_slova] => Coupled model; FEM; Finite difference method; FEMM; Simulink; Thermal calculation; Electromagnetism
[klicova_slova_orig] => Coupled model; FEM; Finite difference method; FEMM; Simulink; Thermal calculation; Electromagnetism
[url] => https://www.scopus.com/record/display.uri?eid=2-s2.0-85072886781&origin=resultslist&sort=plf-f&src=s&st1=coupled+model+of+solenoid&st2=&sid=08f1b40207981eeaa6be3753d6538962&sot=b&sdt=b&sl=40&s=TITLE-ABS-KEY%28coupled+model+of+solenoid%29&relpos=5&citeCnt=0&searchTerm=
[oecd_obor_id] => 20201
[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] => 182808
[schvaleno] => 2023-02-02
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => MUSIL, F.; VLACH, R.
[pocet_tvurcu] => 2
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1007/978-3-030-29993-4_6
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 978-3-030-29992-7
[identifikator_popis] => ISBN - Mechatronics 2019: Recent Advances Towards Industry 4.0
[riv_dodavka_id] => 3148
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => MUSIL, F.; VLACH, R. Coupled Model of Solenoid. In Mechatronics 2019: Recent Advances Towards Industry 4.0. Warsaw, Poland: Springer Verlag, 2019. p. 45-53. ISBN: 978-3-030-29992-7.
[citace_html] => MUSIL, F.; VLACH, R. Coupled Model of Solenoid. In Mechatronics 2019: Recent Advances Towards Industry 4.0. Warsaw, Poland: Springer Verlag, 2019. p. 45-53. ISBN: 978-3-030-29992-7.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT158987,
author="Filip {Musil} and Radek {Vlach}",
title="Coupled Model of Solenoid",
booktitle="Mechatronics 2019: Recent Advances Towards Industry 4.0",
year="2019",
pages="45--53",
publisher="Springer Verlag",
address="Warsaw, Poland",
doi="10.1007/978-3-030-29993-4\{_}6",
isbn="978-3-030-29992-7",
url="https://www.scopus.com/record/display.uri?eid=2-s2.0-85072886781&origin=resultslist&sort=plf-f&src=s&st1=coupled+model+of+solenoid&st2=&sid=08f1b40207981eeaa6be3753d6538962&sot=b&sdt=b&sl=40&s=TITLE-ABS-KEY%28coupled+model+of+solenoid%29&relpos=5&citeCnt=0&searchTerm="
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[oecd_tree_obor_nazev] => 2.2 Electrical engineering, Electronic engineering, Information engineering
[oecd_tree_podobor_id] => 20201
[oecd_tree_podobor_nazev] => Electrical and electronic engineering
[poznamka_metriky] =>
[nazev_en] => Coupled Model of Solenoid
[popis_en] => Coupled modeling, within the meaning of including various physical aspects into one complex model, is desirable and unavoidable in many cases in technical practice these days. This attitude can be advantageously used in the design of technical devices. The more complex model is created, the more precise simulation of the reality is possible to obtain. But the complexity of a computational model must always correspond with what we expect from it.
Electricity and magnetism are strongly related to the thermal aspect. This is one of the reasons why neglecting this complexity can lead to misleading results. The intention of this paper is to show such a relationship with an illustrative example. The main result is a complex computational model of a solenoid that connects the mechanical and the thermal part of the system.
[klicova_slova_en] => Coupled model; FEM; Finite difference method; FEMM; Simulink; Thermal calculation; Electromagnetism
[vysledek_datum] => 2019-08-28T00:00:00+02:00
)
[10] => Array
(
[vysledek_id] => 159097
[vysledek_druh_id] => CONPR
[ex_vysledek_id] => 133567
[vysledek_rok] => 2018
[nazev] => Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study
[nazev_orig] => Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study
[duvernost_udaju_id] => S
[popis] => The aim of this study was to analyse mechanical performance of cranial Ti-6Al-4V implant with Hydroxyapatite coating and to campare it with ordinary used PMMA implants and implants from another materials without coating (Ti-6Al-4V and PEEK) Finite element method was introduced as valuable tool for analyses in recent years. Cranial geometry was based on computed tomography dataset of undamaged skull.
[popis_orig] => The aim of this study was to analyse mechanical performance of cranial Ti-6Al-4V implant with Hydroxyapatite coating and to campare it with ordinary used PMMA implants and implants from another materials without coating (Ti-6Al-4V and PEEK) Finite element method was introduced as valuable tool for analyses in recent years. Cranial geometry was based on computed tomography dataset of undamaged skull.
[klicova_slova] => cranium; implant; skull; finite element method; coating
[klicova_slova_orig] => cranium; implant; skull; finite element method; coating
[url] => https://otik.uk.zcu.cz/bitstream/11025/30793/1/Chamrad.pdf
[oecd_obor_id] => 20601
[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] => 145421
[schvaleno] => 2019-11-14
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => CHAMRAD, J.; KALASOVÁ, D.; MARCIÁN, P.; ZIKMUND, T.; KAISER, J.
[pocet_tvurcu] => 5
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Conference proceedings
[druh_popis] => Conference proceedings
[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] =>
[identifikator_popis] =>
[riv_dodavka_id] => 2419
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => CHAMRAD, J.; KALASOVÁ, D.; MARCIÁN, P.; ZIKMUND, T.; KAISER, J. Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study. Plzeň: Computational Mechanics 2018, 2018. 2 p.
[citace_html] => CHAMRAD, J.; KALASOVÁ, D.; MARCIÁN, P.; ZIKMUND, T.; KAISER, J. Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study. Plzeň: Computational Mechanics 2018, 2018. 2 p.
[citace_rtf] =>
[citace_bibtex] => @proceedings{BUT159097,
editor="Jakub {Chamrad} and Dominika {Kalasová} and Petr {Marcián} and Tomáš {Zikmund} and Jozef {Kaiser}",
title="Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study",
year="2018",
pages="2",
publisher="Computational Mechanics 2018",
address="Plzeň",
url="https://otik.uk.zcu.cz/bitstream/11025/30793/1/Chamrad.pdf"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20600
[oecd_tree_obor_nazev] => 2.6 Medical engineering
[oecd_tree_podobor_id] => 20601
[oecd_tree_podobor_nazev] => Medical engineering
[poznamka_metriky] =>
[nazev_en] => Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study
[popis_en] => The aim of this study was to analyse mechanical performance of cranial Ti-6Al-4V implant with Hydroxyapatite coating and to campare it with ordinary used PMMA implants and implants from another materials without coating (Ti-6Al-4V and PEEK) Finite element method was introduced as valuable tool for analyses in recent years. Cranial geometry was based on computed tomography dataset of undamaged skull.
[klicova_slova_en] => cranium; implant; skull; finite element method; coating
[vysledek_datum] => 2018-10-31T00:00:00+01:00
)
[11] => Array
(
[vysledek_id] => 159490
[vysledek_druh_id] => ARTWOS
[ex_vysledek_id] => 133809
[vysledek_rok] => 2020
[nazev] => Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene
[nazev_orig] => Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene
[duvernost_udaju_id] => S
[popis] => The crack growth behaviour of thermoplastic polymers is a relevant topic in current research. While a dominant portion of studies in fracture mechanics investigates Mode I loading situations, very little is done to better understand Mixed Mode crack growth, which can be equally important to accurate live time predictions of polymer parts. In this research, fatigue tests on cylindrically notched specimens were performed in Mixed Mode I/III loading and compared via the so called equivalent stress intensity factor. Under these loading conditions, a significant reduction of the cycles to fracture occurred compared to pure Mode I
[popis_orig] => The crack growth behaviour of thermoplastic polymers is a relevant topic in current research. While a dominant portion of studies in fracture mechanics investigates Mode I loading situations, very little is done to better understand Mixed Mode crack growth, which can be equally important to accurate live time predictions of polymer parts. In this research, fatigue tests on cylindrically notched specimens were performed in Mixed Mode I/III loading and compared via the so called equivalent stress intensity factor. Under these loading conditions, a significant reduction of the cycles to fracture occurred compared to pure Mode I
[klicova_slova] => Equivalent stress intensity factor
Fatigue crack growth
Fracture mechanics
Mixed Mode loading
Polymers
[klicova_slova_orig] => Equivalent stress intensity factor
Fatigue crack growth
Fracture mechanics
Mixed Mode loading
Polymers
[url] => https://www.sciencedirect.com/science/article/pii/S0142112319303731?via%3Dihub
[oecd_obor_id] => 20501
[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] => 142155
[schvaleno] => 2020-10-11
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => GOSCH, A.; BERER, M.; HUTAŘ, P.; SLÁVIK, O.; VOJTEK, T.; ARBEITER, F.; PINTER, G.
[pocet_tvurcu] => 7
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1016/j.ijfatigue.2019.105269
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[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 0142-1123
[identifikator_popis] => ISSN - International Journal of Fatigue (GB)
[riv_dodavka_id] => 2549
[riv_dodavka_oznaceni] => RIV21-MSM-26210___
[riv_dodavka_rok] => 2021
[diagnostika_pocet] => 1
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 1
[citace_text] => GOSCH, A.; BERER, M.; HUTAŘ, P.; SLÁVIK, O.; VOJTEK, T.; ARBEITER, F.; PINTER, G. Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene. International Journal of Fatigue, 2020, no. 130, p. 1-11. ISSN: 0142-1123.
[citace_html] => GOSCH, A.; BERER, M.; HUTAŘ, P.; SLÁVIK, O.; VOJTEK, T.; ARBEITER, F.; PINTER, G. Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene. International Journal of Fatigue, 2020, no. 130, p. 1-11. ISSN: 0142-1123.
[citace_rtf] =>
[citace_bibtex] => @article{BUT159490,
author="Anja {Gosch} and Michael {Berer} and Pavel {Hutař} and Ondrej {Slávik} and Tomáš {Vojtek} and Florian {Arbeiter} and Gerald {Pinter}",
title="Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene",
journal="International Journal of Fatigue",
year="2020",
number="130",
pages="1--11",
doi="10.1016/j.ijfatigue.2019.105269",
issn="0142-1123",
url="https://www.sciencedirect.com/science/article/pii/S0142112319303731?via%3Dihub"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] => 5.186
[if_q] => 1
[if_m17_q] => 1
[if_m25_q] => 1
[if_d] =>
[if_m17_d] => 1
[if_m25_d] => 1
[if_percentil] => 89.098
[if_m17_percentil] => 92.587
[if_m25_percentil] => 92.587
[ais] => 0.818
[ais_m17_q] => 1
[ais_m25_q] => 1
[ais_m17_d] => 2
[ais_m25_d] => 2
[ais_m17_percentil] => 83.385
[ais_m25_percentil] => 86.476
[jci] => 1.34
[jci_q] => 1
[jci_percentil] => 92.47
[ef] =>
[scopus_sjr] => 1.669
[scopus_sjr_q] => 1
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[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] => 20501
[oecd_tree_podobor_nazev] => Materials engineering
[poznamka_metriky] =>
[nazev_en] => Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene
[popis_en] => The crack growth behaviour of thermoplastic polymers is a relevant topic in current research. While a dominant portion of studies in fracture mechanics investigates Mode I loading situations, very little is done to better understand Mixed Mode crack growth, which can be equally important to accurate live time predictions of polymer parts. In this research, fatigue tests on cylindrically notched specimens were performed in Mixed Mode I/III loading and compared via the so called equivalent stress intensity factor. Under these loading conditions, a significant reduction of the cycles to fracture occurred compared to pure Mode I
[klicova_slova_en] => Equivalent stress intensity factor
Fatigue crack growth
Fracture mechanics
Mixed Mode loading
Polymers
[vysledek_datum] => 2020-01-01T00:00:00+01:00
)
[12] => Array
(
[vysledek_id] => 160010
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 134204
[vysledek_rok] => 2019
[nazev] => Monte carlo based detection of parameter correlation in simulation models
[nazev_orig] => Monte carlo based detection of parameter correlation in simulation models
[duvernost_udaju_id] => S
[popis] => Simulation models which are of high order or are automatically generated via modelling software are usually depended on high number of unknown parameters. In this paper we present a method for detecting correlation between these parameters and identifying the subspace shape for their uncorrelated complements. This can be further used to lower the order of the optimization problem. For our low-order examples the methods’ operating principle is visualized and the subspace is shown.
[popis_orig] => Simulation models which are of high order or are automatically generated via modelling software are usually depended on high number of unknown parameters. In this paper we present a method for detecting correlation between these parameters and identifying the subspace shape for their uncorrelated complements. This can be further used to lower the order of the optimization problem. For our low-order examples the methods’ operating principle is visualized and the subspace is shown.
[klicova_slova] => MATLAB;Model-Based Design;Monte Carlo;Parameter correlation;Parameter estimation;PCA;Simulation;Simulink;
[klicova_slova_orig] => MATLAB;Model-Based Design;Monte Carlo;Parameter correlation;Parameter estimation;PCA;Simulation;Simulink;
[url] => https://www.scopus.com/record/display.uri?eid=2-s2.0-85072902194&origin=resultslist&sort=plf-f&src=s&st1=Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models&st2=&sid=787f31190bbd4464ce77649579dea956&sot=b&sdt=b&sl=88&s=TITLE-ABS-KEY%28Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models%29&relpos=0&citeCnt=0&searchTerm=
[oecd_obor_id] => 20204
[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] => 182808
[schvaleno] => 2023-02-02
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => NAJMAN, J.; BRABLC, M.; RAJCHL, M.; BASTL, M.; SPÁČIL, T.; APPEL, M.
[pocet_tvurcu] => 6
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1007/978-3-030-29993-4_7
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 9783030299927 ISSN 2194-5357
[identifikator_popis] => ISBN - Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0 ISSN - Advances in Intelligent Systems and Computing (CH)
[riv_dodavka_id] => 3145
[riv_dodavka_oznaceni] => RIV20-MPO-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => NAJMAN, J.; BRABLC, M.; RAJCHL, M.; BASTL, M.; SPÁČIL, T.; APPEL, M. Monte carlo based detection of parameter correlation in simulation models. In Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0. Advances in Intelligent Systems and Computing. 1. Warsaw: Springer Verlag, 2019. p. 54-61. ISBN: 9783030299927. ISSN: 2194-5357.
[citace_html] => NAJMAN, J.; BRABLC, M.; RAJCHL, M.; BASTL, M.; SPÁČIL, T.; APPEL, M. Monte carlo based detection of parameter correlation in simulation models. In Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0. Advances in Intelligent Systems and Computing. 1. Warsaw: Springer Verlag, 2019. p. 54-61. ISBN: 9783030299927. ISSN: 2194-5357.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT160010,
author="Jan {Najman} and Martin {Brablc} and Matej {Rajchl} and Michal {Bastl} and Tomáš {Spáčil} and Martin {Appel}",
title="Monte carlo based detection of parameter correlation in simulation models",
booktitle="Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0",
year="2019",
series="1",
journal="Advances in Intelligent Systems and Computing",
volume="1044",
number="1044",
pages="54--61",
publisher="Springer Verlag",
address="Warsaw",
doi="10.1007/978-3-030-29993-4\{_}7",
isbn="9783030299927",
issn="2194-5357",
url="https://www.scopus.com/record/display.uri?eid=2-s2.0-85072902194&origin=resultslist&sort=plf-f&src=s&st1=Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models&st2=&sid=787f31190bbd4464ce77649579dea956&sot=b&sdt=b&sl=88&s=TITLE-ABS-KEY%28Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models%29&relpos=0&citeCnt=0&searchTerm="
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[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] => Monte carlo based detection of parameter correlation in simulation models
[popis_en] => Simulation models which are of high order or are automatically generated via modelling software are usually depended on high number of unknown parameters. In this paper we present a method for detecting correlation between these parameters and identifying the subspace shape for their uncorrelated complements. This can be further used to lower the order of the optimization problem. For our low-order examples the methods’ operating principle is visualized and the subspace is shown.
[klicova_slova_en] => MATLAB;Model-Based Design;Monte Carlo;Parameter correlation;Parameter estimation;PCA;Simulation;Simulink;
[vysledek_datum] => 2019-08-16T00:00:00+02:00
)
[13] => Array
(
[vysledek_id] => 160054
[vysledek_druh_id] => CONF
[ex_vysledek_id] => 26109
[vysledek_rok] => 2019
[nazev] => 13th International Conference on Mechatronics
[nazev_orig] => 13th International Conference on Mechatronics
[duvernost_udaju_id] => S
[popis] =>
[popis_orig] =>
[klicova_slova] =>
[klicova_slova_orig] =>
[url] => https://link.springer.com/book/10.1007/978-3-030-29993-4
[oecd_obor_id] => 20204
[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] => 144887
[schvaleno] => 2020-03-24
[vykazovat_riv] => 0
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] =>
[pocet_tvurcu] =>
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] =>
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[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] => 13th International Conference on Mechatronics. Varšava (16.09.2019)
[citace_html] => 13th International Conference on Mechatronics. Varšava (16.09.2019)
[citace_rtf] =>
[citace_bibtex] => @misc{BUT160054,
title="13th International Conference on Mechatronics",
year="2019",
url="https://link.springer.com/book/10.1007/978-3-030-29993-4",
note="Holding a conference"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[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] => 13th International Conference on Mechatronics
[popis_en] =>
[klicova_slova_en] =>
[vysledek_datum] => 2019-09-16T00:00:00+02:00
)
[14] => Array
(
[vysledek_id] => 160055
[vysledek_druh_id] => CONPA
[ex_vysledek_id] => 134224
[vysledek_rok] => 2019
[nazev] => Design of an antenna pedestal stabilization controller based on cascade topology
[nazev_orig] => Design of an antenna pedestal stabilization controller based on cascade topology
[duvernost_udaju_id] => S
[popis] => The design of the movable Satcom antenna represents a complex mechatronic problem. The restricted requirements for mechanical parts, drives and control systems must be met. In case of complex problems, the design based on the simulation model rapidly reduces development time. This paper deals with the design of the control algorithm and its verification with a simplified dynamic model of the stabilization system. To achieve the required accuracy, the control structure is divided into low-level and high-level stages. The performed simulations indicate that the presented algorithm is suitable for further development of stabilization systems.
[popis_orig] => The design of the movable Satcom antenna represents a complex mechatronic problem. The restricted requirements for mechanical parts, drives and control systems must be met. In case of complex problems, the design based on the simulation model rapidly reduces development time. This paper deals with the design of the control algorithm and its verification with a simplified dynamic model of the stabilization system. To achieve the required accuracy, the control structure is divided into low-level and high-level stages. The performed simulations indicate that the presented algorithm is suitable for further development of stabilization systems.
[klicova_slova] => Antenna pointing;Cascade control;SATCOM;Simulation;Simulink;SOTM;
[klicova_slova_orig] => Antenna pointing;Cascade control;SATCOM;Simulation;Simulink;SOTM;
[url] => https://www.scopus.com/record/display.uri?origin=recordpage&zone=relatedDocuments&eid=2-s2.0-85072881806&citeCnt=0&noHighlight=false&sort=plf-f&src=s&st1=Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models&st2=&sid=c9edc7a8a17bbb7026a9f87e9b47e535&sot=b&sdt=b&sl=88&s=TITLE-ABS-KEY%28Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models%29&relpos=0
[oecd_obor_id] => 20204
[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] => 182808
[schvaleno] => 2023-02-02
[vykazovat_riv] => 1
[vykazovat_riv_zmeny] => 1
[slozka_id] =>
[posledni_diagnostika] =>
[vycet_osob] => BASTL, M.; NAJMAN, J.; SPÁČIL, T.
[pocet_tvurcu] => 3
[tvurci_ids] =>
[poznamka] =>
[typ_nazev] =>
[kod_doi] => 10.1007/978-3-030-29993-4_58
[kod_dspace] =>
[rok_vytvoreni] =>
[pocet_zaznamu] =>
[zverejneno] => 1
[prvni_autor] =>
[korespondencni_autor] =>
[posledni_autor] =>
[znamka] =>
[kategorie_nazev] => Publication results
[druh_nazev] => Paper in proceedings (conference paper)
[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 9783030299927 ISSN 2194-5357
[identifikator_popis] => ISBN - Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0 ISSN - Advances in Intelligent Systems and Computing (CH)
[riv_dodavka_id] => 3148
[riv_dodavka_oznaceni] => RIV20-MSM-26210___
[riv_dodavka_rok] => 2020
[diagnostika_pocet] => 0
[diagnostika_pocet_chyba] => 0
[diagnostika_pocet_upozorneni] => 0
[diagnostika_pocet_informace] => 0
[citace_text] => BASTL, M.; NAJMAN, J.; SPÁČIL, T. Design of an antenna pedestal stabilization controller based on cascade topology. In Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0. Advances in Intelligent Systems and Computing. 1. Warsaw: Springer Verlag, 2019. p. 469-475. ISBN: 9783030299927. ISSN: 2194-5357.
[citace_html] => BASTL, M.; NAJMAN, J.; SPÁČIL, T. Design of an antenna pedestal stabilization controller based on cascade topology. In Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0. Advances in Intelligent Systems and Computing. 1. Warsaw: Springer Verlag, 2019. p. 469-475. ISBN: 9783030299927. ISSN: 2194-5357.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT160055,
author="Michal {Bastl} and Jan {Najman} and Tomáš {Spáčil}",
title="Design of an antenna pedestal stabilization controller based on cascade topology",
booktitle="Advances in Intelligent Systems and Computing - Mechatronics 2019: Recent Advances Towards Industry 4.0",
year="2019",
series="1",
journal="Advances in Intelligent Systems and Computing",
number="1044",
pages="469--475",
publisher="Springer Verlag",
address="Warsaw",
doi="10.1007/978-3-030-29993-4\{_}58",
isbn="9783030299927",
issn="2194-5357",
url="https://www.scopus.com/record/display.uri?origin=recordpage&zone=relatedDocuments&eid=2-s2.0-85072881806&citeCnt=0&noHighlight=false&sort=plf-f&src=s&st1=Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models&st2=&sid=c9edc7a8a17bbb7026a9f87e9b47e535&sot=b&sdt=b&sl=88&s=TITLE-ABS-KEY%28Monte+Carlo+Based+Detection+of+Parameter+Correlation+in+Simulation+Models%29&relpos=0"
}
[vykazano] =>
[vykazano_aspon_jednou] =>
[identifikacni_kod] =>
[neautorsky_vysledek] => 0
[if] =>
[if_q] =>
[if_m17_q] =>
[if_m25_q] =>
[if_d] =>
[if_m17_d] =>
[if_m25_d] =>
[if_percentil] =>
[if_m17_percentil] =>
[if_m25_percentil] =>
[ais] =>
[ais_m17_q] =>
[ais_m25_q] =>
[ais_m17_d] =>
[ais_m25_d] =>
[ais_m17_percentil] =>
[ais_m25_percentil] =>
[jci] =>
[jci_q] =>
[jci_percentil] =>
[ef] =>
[scopus_sjr] =>
[scopus_sjr_q] =>
[scopus_sjr_d] =>
[nature_index_group] =>
[incites_times_cited] =>
[incites_open_access] =>
[incites_jnci] =>
[incites_is_int_collab] =>
[incites_is_industry_collab] =>
[incites_esi_hot_paper] =>
[incites_esi_highly_cited_paper] =>
[incites_avg_cnci] =>
[incites_avg_percentile] =>
[scival_citations_count] =>
[scival_fwci] =>
[core_rank] => NA
[oecd_tree_oblast_id] => 20000
[oecd_tree_oblast_nazev] => 2. Engineering and Technology
[oecd_tree_obor_id] => 20200
[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] => Design of an antenna pedestal stabilization controller based on cascade topology
[popis_en] => The design of the movable Satcom antenna represents a complex mechatronic problem. The restricted requirements for mechanical parts, drives and control systems must be met. In case of complex problems, the design based on the simulation model rapidly reduces development time. This paper deals with the design of the control algorithm and its verification with a simplified dynamic model of the stabilization system. To achieve the required accuracy, the control structure is divided into low-level and high-level stages. The performed simulations indicate that the presented algorithm is suitable for further development of stabilization systems.
[klicova_slova_en] => Antenna pointing;Cascade control;SATCOM;Simulation;Simulink;SOTM;
[vysledek_datum] => 2019-09-16T00:00:00+02:00
)
)
)
Array
(
[total] => 3612
[page] => 216
[count] => 15
[n_pages] => 241
[pagelen] => 15
[odkaz] => typVysledku=&rok=&ftext=&btnSubmit=1
[base_detail] => /en/veda/publikace/detail/
[base_page] => /en/veda/publikace
[vysledek] => Array
(
[0] => Array
(
[quotations] => KŠICA, F.; HADAŠ, Z.; HLINKA, J.
[title] => Integration and test of piezocomposite sensors for structure health monitoring in aerospace
[typ] => PV
[year] => 2019
[id_vav] => 158038
)
[1] => Array
(
[quotations] => KUBÍK, P.; ŠEBEK, F.; ZAPLETAL, J.; PETRUŠKA, J.; NÁVRAT, T.
[title] => Ductile Failure Predictions for the Three-Point Bending Test of a Complex Geometry Made From Aluminum Alloy
[typ] => PV
[year] => 2019
[id_vav] => 158046
)
[2] => Array
(
[quotations] => ŠEBEK, F.; KUBÍK, P.; PETRUŠKA, J.; ZAPLETAL, J.
[title] => Non-associated flow rule in the prediction of complex stress states and deformations
[typ] => PV
[year] => 2019
[id_vav] => 158058
)
[3] => Array
(
[quotations] => ULIANOV, C.; HADAŠ, Z.; HYDE, P.; SMILEK, J.
[title] => Novel Energy Harvesting Solutions for Powering Trackside Electronic Equipment
[typ] => PV
[year] => 2019
[id_vav] => 158124
)
[4] => Array
(
[quotations] => ŽÁK, S.; HORNÍKOVÁ, J.; ŠANDERA, P.; VOJTEK, T.; KIANICOVÁ, M.; POKLUDA, J.
[title] => Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading
[typ] => PV
[year] => 2019
[id_vav] => 158147
)
[5] => Array
(
[quotations] => PEČ, M.; ŠEBEK, F.; PETRUŠKA, J.
[title] => Basic Kinematic Hardening Rules Applied to 304 Stainless Steel and the Advantage of Parameters Evolution
[typ] => PV
[year] => 2019
[id_vav] => 158402
)
[6] => Array
(
[quotations] => KRÁLÍK, J.; VENGLÁŘ, V.
[title] => Simple and low-cost analog tactile sensor for robot
[typ] => PV
[year] => 2019
[id_vav] => 158455
)
[7] => Array
(
[quotations] => KRÁLÍK, J.; VENGLÁŘ, V.
[title] => Step planning algorithm for n-legged walking robot with smooth direction control
[typ] => PV
[year] => 2019
[id_vav] => 158485
)
[8] => Array
(
[quotations] => POKORNÝ, J.
[title] => Calculation of Static Equilibrium Position of Hydrodynamic Journal Bearings
[typ] => PV
[year] => 2019
[id_vav] => 158962
)
[9] => Array
(
[quotations] => MUSIL, F.; VLACH, R.
[title] => Coupled Model of Solenoid
[typ] => PV
[year] => 2019
[id_vav] => 158987
)
[10] => Array
(
[quotations] => CHAMRAD, J.; KALASOVÁ, D.; MARCIÁN, P.; ZIKMUND, T.; KAISER, J.
[title] => Hydroxyapatite coating influence on performance of bone-implant contact in cranioplasty: Finite element study
[typ] => PV
[year] => 2018
[id_vav] => 159097
)
[11] => Array
(
[quotations] => GOSCH, A.; BERER, M.; HUTAŘ, P.; SLÁVIK, O.; VOJTEK, T.; ARBEITER, F.; PINTER, G.
[title] => Mixed Mode I/III fatigue fracture characterization of Polyoxymethylene
[typ] => PV
[year] => 2020
[id_vav] => 159490
)
[12] => Array
(
[quotations] => NAJMAN, J.; BRABLC, M.; RAJCHL, M.; BASTL, M.; SPÁČIL, T.; APPEL, M.
[title] => Monte carlo based detection of parameter correlation in simulation models
[typ] => PV
[year] => 2019
[id_vav] => 160010
)
[13] => Array
(
[quotations] =>
[title] => 13th International Conference on Mechatronics
[typ] => EV
[year] => 2019
[id_vav] => 160054
)
[14] => Array
(
[quotations] => BASTL, M.; NAJMAN, J.; SPÁČIL, T.
[title] => Design of an antenna pedestal stabilization controller based on cascade topology
[typ] => PV
[year] => 2019
[id_vav] => 160055
)
)
)