Software for calculation of pedestrian-induced vibration of floors
Softver za proračun vibracija međuspratnih konstrukcija usled dinamičke sile pešaka
Authors
Milojević, MarijaLjaljević, Strahinja
Racić, Vitomir
Marjanović, Miroslav
Nefovska-Danilović, Marija
Conference object (Published version)
Metadata
Show full item recordAbstract
Trends in contemporary architecture towards open-plan spaces in commercial and residential
buildings have created problems with excessive vibrations of large-span floors induced by active
people. Solving vibration serviceability problems of as-built structures is costly and time-consuming.
Therefore, such a problem is the most efficiently and economically addressed at the
design stage. This paper presents software developed by the authors for assessing pedestrian-induced
vibrations of floors. The software is designed as a user-friendly graphical interface that
could be utilised in everyday design practice.
Trendovi u savremenoj arhitekturi, koji diktiraju projektovanje komercijalnih i stambenih zgrada
sa otvorenim prostorom, prouzrokovali su problem prekomernih vibracija međuspratnih
konstrukcija velikih raspona usled aktivnosti ljudi koji se po njima kreću. Saniranje prekomernih
vibracija već izgrađenih konstrukcija je skupo i vremenski zahtevno. Zbog toga je najefikasnije
i najekonomičnije ovaj problem eliminisati već u fazi projektovanja. U radu je predstavljen
softver za procenu vibracija međuspratnih konstrukcija izazvanih pešačkim opterećenjem,
jednostavnog grafičkog okruženja i pogodan za svakodnevnu upotrebu u projektovanju.
Keywords:
vibration / floor / serviceability / pedestrian-induced load / vibracije / međuspratna konstrukcija / dinamička sila pešakaSource:
16th Congress hosted by Association of Structural Engineers of Serbia, 2022, 256-265Publisher:
- Association of Structural Engineers of Serbia
Funding / projects:
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200092 (University of Belgrade, Faculty of Civil Engineering) (RS-200092)
- Substrate4CLT - Towards Sustainable Buildings: Novel Strategies for the Design of Vibration Resistant Cross-Laminated Timber Floors (RS-7677448)