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Graczykowski C., Holnicki-Szulc J., Protecting offshore wind turbines against ship impacts by means of Adaptive inflatable Structures, SHOCK AND VIBRATION, 16, 4, 335-353, 2009 | |
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Graczykowski C., Heinonen J., Feasibility study of adaptive inflatable structures for protecting wind turbines, JOURNAL OF STRUCTURAL MECHANICS, 40, 2, 7-23, 2007 | |
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Graczykowski C., Faraj R., Optimal and predictive control of semi-active fluid-based dampers under impact excitation, EACS 2022, 7TH EUROPEAN CONFERENCE ON STRUCTURAL CONTROL, 2022-07-10/07-13, WARSZAWA (PL), 142-143, 2022 | |
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Graczykowski C., Faraj R., Predictive control of semi-active fluid-based dampers under impact excitation, DSTA 2021, 16TH INTERNATIONAL CONFERENCE DYNAMICAL SYSTEMS THEORY AND APPLICATIONS, 2021-12-06/12-09, ŁÓDŹ (PL), 1-2, 2021 | |
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Graczykowski C., Faraj R., Optimal control of semi-active shock-absorbers subjected to dynamic excitation using Pontryagin's maximum principle, gradient-based methods and direct methods, EURODYN 2020, XI INTERNATIONAL CONFERENCE ON STRUCTURAL DYNAMICS, 2020-11-23/11-26, ATENY (GR), 1-1, 2020 | |
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Graczykowski C., Faraj R., Identification-based predictive control of semi-active shock-absorbers for adaptive dynamic excitation mitigation, MECCANICA, 55, 12, 2571-2597, 2020 | |
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Graczykowski C., Faraj R., Model Identification Adaptive Control of fluid-based shock-absorbers for impact mitigation, RANM2019, FOURTH INTERNATIONAL CONFERENCE ON RECENT ADVANCES IN NONLINEAR MECHANICS, 2019-05-07/05-10, ŁÓDŹ (PL), 1-2, 2019 | |
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Graczykowski C., Faraj R., Development of control systems for fluid-based adaptive impact absorbers, MECHANICAL SYSTEMS AND SIGNAL PROCESSING, 122, 622-641, 2019 | |
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Graczykowski C., Faraj R., Self-adaptive fluid-based absorbers for impact mitigation and vibration damping, ISMA 2018 / USD 2018, INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING / INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS, 2018-09-17/09-19, LEUVEN (BE), 217-228, 2018 | |
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Graczykowski C., Mathematical models and numerical methods for the simulation of adaptive inflatable structures for impact absorption, COMPUTERS AND STRUCTURES, 174, 3-20, 2016 | |
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Graczykowski C., Theoretical models and numerical methods for adaptive inflatable structures, CIVIL-COMP PROCEEDINGS, 102, 1-26, 2013 | |
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Grabowski Frederic, Nałęcz‑Jawecki Paweł, Lipniacki Tomasz, Predictive power of non-identifiable models, SCIENTIFIC REPORTS, 13, 1, 11143-1-12, 2023 | |
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Grabowski F., Preibisch G., Giziński S., Kochańczyk M., Lipniacki T., SARS-CoV-2 variant of concern 202012/01 has about twofold replicative advantage and acquires concerning mutations, VIRUSES, 13, 3, 392-1-16, 2021 | |
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Grabowski F., Kochańczyk M., Lipniacki T., The Spread of SARS-CoV-2 Variant Omicron with a Doubling Time of 2.0–3.3 Days Can Be Explained by Immune Evasion, VIRUSES, 14, 2, 294-1-13, 2022 | |
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Grabowski F., Czyż P., Kochańczyk M., Lipniacki T., Limits to the rate of information transmission through the MAPK pathway, JOURNAL OF THE ROYAL SOCIETY INTERFACE, 16, 152, 20180792-1-10, 2019 | |