For more see the link, Prof. Steffen Marburg
Vibroacoustics of Vehicles and Machines, Department of Mechanical Engineering
Technical University of Munich, Germany
Biography and Research Interests:
The research interests of Steffen Marburg encompass the development and application of numerical methods for vibroacoustics and aeroacoustics, the experimentally based virtual prototyping of complex models in combination with parameter identification, the consideration and identification of parameter variations and structural acoustic optimization. The applications are manifold and include automotive parts, ships, electric tools and musical instruments. Marburg graduated from TU Dresden where he was awarded a doctoral degree in 1998. Subsequently he stayed on at TU Dresden and in 2004 became a junior professor for Structural Acoustic Optimization/Boundary Element Methods. In 2010 he moved to the University of the Federal Armed Forces in Munich and became a full professor for Technical Dynamics. In 2015 he was awarded the new professorship for Vibroacoustics at TUM. Marburg is associate editor of the peer-reviewed journal Acta Acustica united with Acustica, editor of the Journal of Computational Acoustics and chair of the TC Computational Acoustics of the European Acoustics Association.
Selected Publications:
S. Marburg, “Efficient optimization of a noise transfer function by modification of a shell structure geometry – Part I: Theory”, Structural and Multidisciplinary Optimization, Vol. 24, pp 51-59, 2002
S. Marburg and H.-J. Hardtke, “Efficient optimization of a noise transfer function by modification of a shell structure geometry – Part II: Application to a vehicle dashboard”, Structural and Multidisciplinary Optimization, Vol. 24, pp 60-71, 2002
S. Marburg, H.-J. Beer, J. Gier, H.-J. Hardtke, R. Rennert, F. Perret: Experimental verification of structural–acoustic modeling and design optimization. Journal of Sound and Vibration 252 (2002) 591–615
Marburg, S. [2002] “ Six boundary elements per wavelength: Is that enough?” Journal of Computational Acoustics 10(1), 25–51.
Denny Fritze, Steffen Marburg and Hans-Jurgen Hardtki, “Reducing radiated sound power of plates and shallow shells by local modification of geometry”, Acta Acustica united with Acustica, Vol. 89, pp 53-60, 2003
Denny Fritze, Steffen Marburg and Hans-Jurgen Hardtke, “Structural-acoustic sensitivity analysis of fully coupled systems for modification of shell geometry”, European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS2004), July 2004
Sascha Merz, Sebastian Oberst, Paul G. Dylejko, Nicole J. Kessissoglou, Yan K. Tso and Steffen Marburg, “Development of coupled FE/BE models to investigate the structural and acoustic responses of a submerged vessel”, Journal of Computational Acoustics, Vol. 15, No. 1, pp 23-47, 2007
Johannes Baumgart, Steffen Marburg and Stefan Schneider, “Efficient sound power computation of open structures with infinite/finite elements and by means of the Pade-via-Lanczos algorithm”, Journal of Computational Acoustics, Vol. 15, No. 4, pp 557-577, 2007
Marburg S (2008) Computational acoustics of noise propagation in fluids—finite and boundary element methods, chapter 11. Discretization requirements: how many elements per wavelength are necessary?, pp 309–332. Springer
Page 345 / 404