Project duration: 2021-01-01 - 2025-12-31
Project duration: 2018-01-01 - 2022-06-30
Project duration: 2015-04-01 - 2017-03-31
Noise protection_FSP Bayern: Prediction method for noise and vibration protection for BIM-based building planning - completion of input data and extension to artificial intelligence methods
For timber construction, planning tools for sound and vibration protection in the form of a specialist acoustic model are to be integrated into open BIM platforms.
Overall lead for THRO input THRO:
Prof. Dr. Ulrich Schanda,
Dr. Andreas Mayr,
Prof. Dr.-Ing. Andreas Rabold,
Prof. Dr. Ulrich Wellisch
BIM
Bauphysik
Building Information Modeling
Digitale Transformation
Holzbau
Labor für Schallmesstechnik
Schallschutz
Project duration: 2018-01-01 - 2022-06-30
Prediction method for noise and vibration protection for BIM-based building planning
Research focus "Forecasting methods for noise and vibration protection for BIM-based building planning - continuation and extension to methods of artificial intelligence
Project lead THRO:
Dr. Andreas Mayr,
Prof. Dr. Ulrich Schanda,
Prof. Dr. Harald Krause,
Prof. Dr.-Ing. Andreas Rabold
BIM
Bauphysik
Building Information Modeling
Digitale Transformation
Holzbau
Labor für Schallmesstechnik
Schallschutz
Project duration: 2015-04-01 - 2017-03-31
Vibroacoustics in the planning process for timber constructions - modeling, numerical simulation, validation
The aim of the project is a planning process that closely links the numerical simulation and verification of vibroacoustic building properties to a comprehensive building information model (BIM).
Sub-project lead THRO:
Prof. Dr. Ulrich Schanda
BIM
Bauphysik
Bautechnik
Building Information Modeling
Digitale Transformation
Finite-Elemente Methode
Holzbau
Körperschall
Labor für Schallmesstechnik
Centre for Research, Development and Transfer
Technische Hochschule Rosenheim
Hochschulstraße 1
83024 Rosenheim
Support of publications
M.A. Laura ScholzT +49 (0) 8031 / 805 - 2689
laura.scholz[at]th-rosenheim.de