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Your search keyword '"Deckers, Elke"' showing total 297 results
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297 results on '"Deckers, Elke"'

1. Denoising of Photogrammetric Dummy Head Ear Point Clouds for Individual Head-Related Transfer Functions Computation

Author

Di Giusto, Fabio, Lluís, Francesc, van Ophem, Sjoerd, and Deckers, Elke

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Individual Head Related Transfer Functions (HRTFs), crucial for realistic virtual audio rendering, can be efficiently numerically computed on precise three-dimensional head and ear scans. While photogrammetry scanning is promising, it generally lacks in accuracy, leading to HRTFs showing significant perceptual deviation from reference data, owing to the scanning error mainly affecting the most occluded pinna structures. This papers analyses the use of Deep Neural Networks (DNNs) for denoising photogrammetric ear scans. Various DNNs, fine-tuned on pinna samples corrupted with modelled synthetic error mimicking that observed in photogrammetric dummy head ear scans, are tested and benchmarked against a classical denoising approach. One DNN is further modified and retrained to increase its denoising performance. The HRTFs computed on original and denoised scans are compared to those of a reference scan, showing that the best-performing DNN is capable of generally decreasing the deviation of photogrammetric dummy head HRTFs to levels obtained with accurately measured individual data. Correlation analysis between the geometrical metrics, computed on the scanned point clouds, and the related HRTFs is used to identify the most relevant metrics to assess the geometrical deviation between target and reference scans, in terms of the similarity of the HRTFs computed on them.

Published
2024

2. A guide to numerical dispersion curve calculations: explanation, interpretation and basic Matlab code

Author

Cool, Vanessa, Deckers, Elke, Van Belle, Lucas, and Claeys, Claus

Subjects
Physics - Applied Physics
Abstract

Dispersion diagrams play a crucial role in examining, analyzing and designing wave propagation in periodic structures. Despite their ubiquity and current research interest, introductory papers and reference scripting tailored to novel researchers in the field are lacking. This paper aims to address this gap, by presenting a comprehensive educational resource for researchers starting in the field of periodic structures and more specifically on the study of dispersion relations captured by dispersion surfaces or curves in dispersion diagrams. The objective is twofold. A first objective is to give a detailed explanation of dispersion diagrams, with graphical illustrations. Secondly, a documented Matlab code is provided to compute dispersion curves of 3D structures with 2D periodicity using the so-called inverse approach. These dispersion curves are obtained with numerical simulations using the finite element method. The code is written for elastic wave propagation and orthogonal periodicity directions, but can be extended to other types of linear wave propagation, non-orthogonal periodicity directions or 1D and 3D periodicity. The aim of this code is to serve as a starting point for novice researchers in the field, to facilitate their understanding of different aspects of dispersion diagrams and serve as a stepping stone in their future research., Comment: 43 pages, 23 figures

Published
2023
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3. Time integration of finite element models with nonlinear frequency dependencies

Author

Deckers, Elke, Jonckheere, Stijn, and Meerbergen, Karl

Subjects
Mathematics - Numerical Analysis, 65F99, 65L99, G.1.3, G.1.10
Abstract

The analysis of sound and vibrations is often performed in the frequency domain, implying the assumption of steady-state behaviour and time-harmonic excitation. External excitations, however, may be transient rather than time-harmonic, requiring time-domain analysis. Some material properties, e.g.\ often used to represent for damping treatments, are still described in the frequency domain, which complicates simulation in time. In this paper, we present a method for the linearization of finite element models with nonlinear frequency dependencies. The linearization relies on the rational approximation of the finite element matrices by the AAA method. We introduce the Extended AAA method, which is classical AAA combined with a degree two polynomial term to capture the second order behaviour of the models. A filtering step is added for removing unstable poles.

Published
2022

9. Ranking the Contributions of the Wave Modes to the Sound Transmission Loss of Infinite Inhomogeneous Periodic Structures

Author

Cool, Vanessa, Boukadia, Régis, Van Belle, Lucas, Desmet, Wim, Deckers, Elke, Ceccarelli, Marco, Series Editor, Agrawal, Sunil K., Advisory Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, Dimitrovová, Zuzana, editor, Biswas, Paritosh, editor, Gonçalves, Rodrigo, editor, and Silva, Tiago, editor

Published
2023
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10. Improving Locally Resonant Metamaterial Performance Predictions by Incorporating Injection Moulding Manufacturing Process Simulations

Author

Steijvers, Kristof, Claeys, Claus, Van Belle, Lucas, Deckers, Elke, Ceccarelli, Marco, Series Editor, Agrawal, Sunil K., Advisory Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, Dimitrovová, Zuzana, editor, Biswas, Paritosh, editor, Gonçalves, Rodrigo, editor, and Silva, Tiago, editor

Published
2023
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30. Highly Efficient Energetic Synthesis of Coupled Steady-State Dynamic Systems

Author

Müller, Gerhard (Prof. Dr.), Müller, Gerhard (Prof. Dr. habil.);Deckers, Elke (Prof. Dr.), Ullmann, Rupert Ludwig Emanuel, Müller, Gerhard (Prof. Dr.), Müller, Gerhard (Prof. Dr. habil.);Deckers, Elke (Prof. Dr.), and Ullmann, Rupert Ludwig Emanuel

Abstract

A performative framework is developed for extensive parameter variations of vehicle vibroacoustic finite element models. It employs a fully modular, generalized domain coupling based on Newton iterations and parametric model order reduction using Krylov subspaces and a grid-free greedy search for a global basis. The framework enables a globalized optimization of a vehicle structure using a power-based objective. The performance of such an objective and methods for experimental power determination are discussed., Ein performantes Framework zur wiederholten Parametervariationen von vibroakustischen Finite Elemente Fahrzeugmodellen wird vorgestellt. Er basiert auf einer modularen, generalisierten Gebietskopplung mittels Newton-Iterationen, sowie parametrischer Modellreduktion durch Krylov Unterräume und netzfreier Greedy-Suche einer globalen Basis. Das Framework ermöglich die globalisierte Optimierung einer Fahrzeugstruktur bezüglich einer leistungsbasierten Zielfunktion. Deren Performanz und experimentelle Validierung werden diskutiert.

Published
2024

31. Reproducibility of sound-absorbing periodic porous materials using additive manufacturing technologies: Round robin study

Author

Zieliński, Tomasz G., Opiela, Kamil C., Pawłowski, Piotr, Dauchez, Nicolas, Boutin, Thomas, Kennedy, John, Trimble, Daniel, Rice, Henry, Van Damme, Bart, Hannema, Gwenael, Wróbel, Rafał, Kim, Seok, Ghaffari Mosanenzadeh, Shahrzad, Fang, Nicholas X., Yang, Jieun, Briere de La Hosseraye, Baltazar, Hornikx, Maarten C.J., Salze, Edouard, Galland, Marie-Annick, Boonen, René, Carvalho de Sousa, Augusto, Deckers, Elke, Gaborit, Mathieu, and Groby, Jean-Philippe

Published
2020
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36. Analysis of laser scanning and photogrammetric scanning accuracy on the numerical determination of Head-Related Transfer Functions of a dummy head

Author

Di Giusto Fabio, van Ophem Sjoerd, Desmet Wim, and Deckers Elke

Subjects
head-related transfer functions, photogrammetry, boundary element method, binaural rendering, spatial sound localisation, Acoustics in engineering. Acoustical engineering, TA365-367, Acoustics. Sound, QC221-246
Abstract

Individual Head-Related Transfer Functions (HRTFs) are necessary for the accurate rendering of virtual scenes. However, their acquisition is challenging given the complex pinna shape. Numerical methods can be leveraged to compute HRTFs on meshes originating from precise scans of a subject. Although photogrammetry can be used for the scanning, its inaccuracy might affect the spatial cues of simulated HRTFs. This paper aims to assess the significance of the photogrammetric error affecting a Neumann KU100 dummy head scan. The geometrical differences between the photogrammetric scan and a laser scan are mainly located at the pinna cavities. The computed photogrammetric HRTFs, compared to measured and simulated data using objective and perceptually inspired metrics, show deviation in high frequency spectral features, stemming from the photogrammetric scanning error. This spectral deviation hinders the modelled elevation perception with photogrammetric HRTFs to levels comparable to renderings with nonindividual data. Extracting the photogrammetric geometry at individual ear cavities and merging it to the laser mesh, an assessment of the influence of the inaccuracy at different pinna structures is conducted. Correlation analysis between acoustic and geometrical metrics computed on the results is used to identify the most relevant geometrical metrics in relation to the HRTFs.

Published
2023
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43. Vibro-Acoustic Metamaterials for Improved Interior NVH Performance in Vehicles

Author

Van Belle, Lucas, primary, Sangiuliano, Luca, additional, Rocha de Melo Filho, Noé Geraldo, additional, Clasing Villanueva, Matias, additional, Boukadia, Régis, additional, Ahsani, Sepide, additional, Alves Pires, Felipe, additional, Zhang, Ze, additional, Claeys, Claus, additional, Deckers, Elke, additional, Pluymers, Bert, additional, and Desmet, Wim, additional

Published
2020
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