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André Gerlach
André Gerlach
Robert Bosch GmbH, Corporate Research
在 de.bosch.com 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Fully mass printed loudspeakers on paper
AC Hübler, M Bellmann, GC Schmidt, S Zimmermann, A Gerlach, ...
Organic Electronics 13 (11), 2290-2295, 2012
762012
Periodically arranged acoustic metamaterial in industrial applications: The need for uncertainty quantification
J Henneberg, JSG Nieto, K Sepahvand, A Gerlach, H Cebulla, S Marburg
Applied Acoustics 157, 107026, 2020
372020
Reducing mechanical cross-coupling in phased array transducers using stop band material as backing
J Henneberg, A Gerlach, H Storck, H Cebulla, S Marburg
Journal of Sound and Vibration 424, 352-364, 2018
292018
MEMS chip package and method for manufacturing an MEMS chip package
R Ehrenpfordt, M Bruendel, A Gerlach, C Leinenbach, S Knies, A Feyh, ...
US Patent 8,981,499, 2015
212015
Micromechanical functional apparatus, particularly a loudspeaker apparatus, and appropriate method of manufacture
R Ehrenpfordt, M Bruendel, A Gerlach, C Leinenbach, S Knies, A Feyh, ...
US Patent 9,269,831, 2016
182016
Experimental characterization of high-intensity focused airborne ultrasound fields
M Liebler, C Kling, A Gerlach, C Koch
The Journal of the Acoustical Society of America 148 (3), 1713-1722, 2020
112020
Comparative analysis of isothermal decay of the surface potential of fluoroethylenepropylene electrets and of the sensitivity of electret microphones at elevated temperature
A Gerlach, M Liebler, GM Sessler, H von Seggern, B Scheufele, E Hirth
AIP Advances 10 (9), 2020
112020
Quantitative characterization of high-intensity focused airborne ultrasonic fields
M Liebler, C Kling, B Best, A Gerlach, C Koch
Proc. 23rd Int. Cong. Acoustics, 6338-6345, 2019
112019
The potential of stop band material in multi-frequency ultrasonic transducers
J Henneberg, A Gerlach, H Cebulla, S Marburg
Journal of Sound and Vibration 452, 132-146, 2019
102019
Zusammenhang der DFEM-Schalleistungsbeschreibung mit der Rayleighschen Schallfelddarstellung ebener Strabler
G Hübner, A Gerlach
FORTSCHRITTE DER AKUSTIK 24, 682-684, 1998
91998
Micromechanical functional apparatus, particularly a loudspeaker apparatus, and appropriate method of manufacture
R Ehrenpfordt, M Bruendel, A Gerlach, C Leinenbach, S Knies, A Feyh, ...
US Patent 9,517,928, 2016
72016
System for determining the distance from and the direction to an object
C Brown, F Streichert, C Zott, A Gerlach
US Patent 9,274,223, 2016
72016
Convolutional neural network with data augmentation for object classification in automotive ultrasonic sensing
J Eisele, A Gerlach, M Maeder, S Marburg
The Journal of the Acoustical Society of America 153 (4), 2447-2447, 2023
52023
Ein Beitrag zur Erweiterung und Anwendung der Direkten Finiten Elemente Methode zur Bestimmung der abgestrahlten Luftschalleistung dreidimensional ausgedehnter Körperschallquellen
A Gerlach
Shaker, 2000
42000
Micromechanical Sound Transducer Arrangement and a Corresponding Production Method
R Ehrenpfordt, M Bruendel, A Gerlach, C Leinenbach, S Knies, A Feyh, ...
US Patent App. 13/782,566, 2013
32013
Relevance of phase information for object classification in automotive ultrasonic sensing using convolutional neural networks
J Eisele, A Gerlach, M Maeder, S Marburg
The Journal of the Acoustical Society of America 155 (2), 1060-1070, 2024
22024
Locally structured fiber reinforcements: an approach to realize anisotropic directivity pattern in ultrasound transducers
J Henneberg, A Gerlach, H Cebulla, S Marburg
SAE Technical Paper, 2018
22018
Electroacoustic transducer
A Gerlach, D Bartylla
US Patent 9,968,966, 2018
22018
Electroactive sound transducer foil having a structured surface
A Gerlach
US Patent 9,832,572, 2017
22017
Piezoelectric partial-surface sound transducer
S Polster, A Gerlach, C Arnold, S Zimmermann
US Patent 9,148,728, 2015
22015
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