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Krzymień, W. “Notes on the tests and Vibration Properties of Hospital elevated Helipad Structures.” Archives of Civil Engineering Vol. 67 No. 3 (2021): pp. 231–242.KrzymieńW.“Notes on the tests and Vibration Properties of Hospital elevated Helipad Structures.”Archives of Civil EngineeringVol. 67No. 3 (2021): pp.231–242.Search in Google Scholar
Łusiak, T. and Grudzień, A. “rotor turbulence Influence on Helicopter Flights in High urban built-up.” Advances in Science and Technology Research Journal Vol. 7 No. 17 (2013): pp. 47–50.ŁusiakT.GrudzieńA.“rotor turbulence Influence on Helicopter Flights in High urban built-up.”Advances in Science and Technology Research JournalVol. 7No. 17 (2013): pp.47–50.Search in Google Scholar
Ruchała, P. and Grabowska, K. “Problems of an Aerodynamic Interference between Helicopter rotor Slipstream and an elevated Heliport.” Journal of KONES Vol. 26 (2019): pp. 189–196RuchałaP.GrabowskaK.“Problems of an Aerodynamic Interference between Helicopter rotor Slipstream and an elevated Heliport.”Journal of KONESVol. 26 (2019): pp.189–196Search in Google Scholar
Stanisławski, J. “A Simulation Model for Computing the Loads Generated at Landing Site During Helicopter take-Off or Landing Operation.” Transactions on Aerospace Research Vol. 2019 No. 2 (2019): pp. 59–75.StanisławskiJ.“A Simulation Model for Computing the Loads Generated at Landing Site During Helicopter take-Off or Landing Operation.”Transactions on Aerospace ResearchVol. 2019No. 2 (2019): pp.59–75.Search in Google Scholar
Chyla, A. and Bukała, M. “the Analysis of Hospital Helicopter Landing Sites Location in terms of their Vibroacoustic Impact.” transactions on Aerospace Research Vol. 2019 No. 3 (2019): pp. 43–56.ChylaA.BukałaM.“the Analysis of Hospital Helicopter Landing Sites Location in terms of their Vibroacoustic Impact.”Transactions on Aerospace ResearchVol. 2019No. 3 (2019): pp.43–56.Search in Google Scholar
Höfle, R., Heim, M., and Wiederin, S. “elastische Lager zur effizienten Schwingungsminderung bei schützenswerten bauwerken.” Bauingenieur Vol. 89 (2014): pp. 389–393.HöfleR.HeimM.WiederinS.“elastische Lager zur effizienten Schwingungsminderung bei schützenswerten bauwerken.”BauingenieurVol. 89 (2014): pp.389–393.Search in Google Scholar
Krzymień, W. and Cieślak, S. “Initial Analysis of Helicopter Impact on Hospital Helipads.” Transactions on Aerospace Research Vol. 2019 No. 3 (2019): pp. 14–23.KrzymieńW.CieślakS.“Initial Analysis of Helicopter Impact on Hospital Helipads.”Transactions on Aerospace ResearchVol. 2019No. 3 (2019): pp.14–23.Search in Google Scholar
Standard PN-b-02171. “Ocena wpływu drgań na ludzi w budynkach” (“Assessment of the impact of vibrations on people in buildings”) 2017.Standard PN-b-02171. “Ocena wpływu drgań na ludzi w budynkach” (“Assessment of the impact of vibrations on people in buildings”)2017.Search in Google Scholar
Szeląg, A., Stypuła, K., and Kamiński, T. “Sound radiation by Vibrating building Partitions in terms of Acceptable Vibration Values.” Acta Physica Polonica A Vol. 125 (2014): pp. 122–126.SzelągA.StypułaK.KamińskiT.“Sound radiation by Vibrating building Partitions in terms of Acceptable Vibration Values.”Acta Physica Polonica AVol. 125 (2014): pp.122–126.Search in Google Scholar
Dziubiński, A. “CFD Analysis of rotor Wake Influence on rooftop Helipad Operations Safety.” Transactions of the Institute of Aviation Vol. 242 No. 1 (2016): pp. 7–22.DziubińskiA.“CFD Analysis of rotor Wake Influence on rooftop Helipad Operations Safety.”Transactions of the Institute of AviationVol. 242No. 1 (2016): pp.7–22.Search in Google Scholar
Krzymień, W. and Cieślak, S. “Investigation of the Vibration Properties of Concrete elevated Hospital Helipads.” Vibrations in Physical Systems Vol. 31 No. 1 (2020): 1–10.KrzymieńW.CieślakS.“Investigation of the Vibration Properties of Concrete elevated Hospital Helipads.”Vibrations in Physical SystemsVol. 31No. 1 (2020): 1–10.Search in Google Scholar
Krzymień, W., Szmidt, M., and Cieślak, S. “Vibration Properties of Steel Constructed Hospital elevated Helipads.” Transactions on Aerospace Research, Vol. 2020 No. 3 (2020): pp. 11–20.KrzymieńW.SzmidtM.CieślakS.“Vibration Properties of Steel Constructed Hospital elevated Helipads.”Transactions on Aerospace Research, Vol. 2020No. 3 (2020): pp.11–20.Search in Google Scholar
Nash, A. “Vibration effects in Healthcare Facilities.” Acoustics’08 Paris, (2008): pp. 2891–2895. Available at http://www.conforg.fr/acoustics2008/cdrom/data/articles/002718.pdfNashA.“Vibration effects in Healthcare Facilities.”Acoustics’08 Paris, (2008): pp. 2891–2895. Available at http://www.conforg.fr/acoustics2008/cdrom/data/articles/002718.pdfSearch in Google Scholar
Wąchalski, K. “Assessment of the Current Construction Conditions for elevated Helipad on Hospital buildings in Poland.” Transactions on Aerospace Research Vol. 2016 No. 3 (2016): pp. 189–201.WąchalskiK.“Assessment of the Current Construction Conditions for elevated Helipad on Hospital buildings in Poland.”Transactions on Aerospace ResearchVol. 2016No. 3 (2016): pp.189–201.Search in Google Scholar
Wesolowsky, M.J. and Swallow, J.C. “Floor Vibration Considerations for Sensitive Equipment in Hospital, Medical, Pharma and Laboratory Facilities.” Canadian Acoustical Association, Acoustics Week in Canada, Winnipeg (Manitoba), (2014).WesolowskyM.J.SwallowJ.C.“Floor Vibration Considerations for Sensitive Equipment in Hospital, Medical, Pharma and Laboratory Facilities.”Canadian Acoustical Association, Acoustics Week in Canada, Winnipeg (Manitoba), (2014).Search in Google Scholar