Martin Larsen scite author profile

Martin Larsen

5Publications

24Citation Statements Received

119Citation Statements Given

How they've been cited

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117

Affiliations

FLSmidth (Denmark), Oticon Medical (Denmark), FORCE Technology (Denmark)

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Adaptive parametric model order reduction technique for optimization of vibro-acoustic models: Application to hearing aid design

Mediante

Jensen

Naets

et al. 2018

Journal of Sound and Vibration

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A three dimensional children head database for acoustical research and development

Harder¹,

Paulsen²,

Larsen³

et al. 2013

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A framework for geometry acquisition, 3-D printing, simulation, and measurement of head-related transfer functions with a focus on hearing-assistive devices

Harder

Paulsen

Larsen

et al. 2016

Computer-Aided Design

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Individual head-related transfer functions (HRTFs) are essential in applications like fitting hearing-assistive devices (HADs) for providing accurate sound localization performance. Individual HRTFs are usually obtained through intricate acoustic measurements. This paper investigates the use of a three-dimensional (3D) head model for acquisition of individual HRTFs. Two aspects were investigated; whether a 3D-printed model can replace measurements on a human listener and whether numerical simulations can replace acoustic measurements. For this purpose, HRTFs were acoustically measured for four human listeners and for a 3D printed head model of one of these listeners. Further, HRTFs were simulated by applying the finite element method to the 3D head model. The monaural spectral features and spectral distortions were very similar between re-measurements and between human and printed measurements, however larger deviations were observed between measurement and simulation. The binaural cues were in agreement among all HRTFs of the same listener, indicating that the 3D model is able to provide localization cues potentially accessible to HAD users. Hence, the pipeline of geometry acquisition, printing, and acoustic measurements or simulations, seems to be a promising step forward towards in-silico design of HADs.

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Reliability in Measuring Head Related Transfer Functions of Hearing Aids

Harder

Paulsen

Larsen

et al. 2015

Acta Acustica united with Acustica

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A parallel solver for animal genetics

Madsen

Larsen²

1998

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Martin Larsen

Adaptive parametric model order reduction technique for optimization of vibro-acoustic models: Application to hearing aid design

A three dimensional children head database for acoustical research and development

A framework for geometry acquisition, 3-D printing, simulation, and measurement of head-related transfer functions with a focus on hearing-assistive devices

Reliability in Measuring Head Related Transfer Functions of Hearing Aids

A parallel solver for animal genetics

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