Your search keyword '"Ahrens, Jens"' showing total 16 results

1. Customized and high-performing acoustic levitators for contact-free experiments

Author

Argyri, Smaragda-Maria, Andersson, Carl, Paillet, Nicolas, Evenäs, Lars, Ahrens, Jens, Marzo, Asier, Contreras, Víctor, and Bordes, Romain

Published

2024

2. An overview of machine learning and other data-based methods for spatial audio capture, processing, and reproduction

Author

Cobos, Maximo, Ahrens, Jens, Kowalczyk, Konrad, and Politis, Archontis

Published

2022

3. Data-based spatial audio processing

Author

Cobos, Maximo, Ahrens, Jens, Kowalczyk, Konrad, and Politis, Archontis

Published

2022

4. Direction of arrival estimation using the rotating equatorial microphone.

Author

Lawrence, Jeremy, Ahrens, Jens, and Peters, Nils

Subjects

DIRECTION of arrival estimation, MICROPHONES, ACOUSTIC field, ACOUSTIC localization, CIRCULAR motion

Abstract

Introduction: Direction of arrival (DOA) estimation of sound sources is an essential task of sound field analysis which typically requires two or more microphones. In this study, we present an algorithm that allows for DOA estimation using the previously designed Rotating Equatorial Microphone prototype, which is a single microphone that moves rapidly along a circular trajectory, introducing DOA-dependent periodic distortions in the captured signal. Methods: Our algorithm compensates for the induced spectral distortions caused by the REM's circular motion for multiple DOA candidates. Subsequently, the best DOA candidate is identified using two distortion metrics. We verify our approach through numerical simulations and practical experiments conducted in a low-reverberant environment. Results: The proposed approach localizes unknown single-frequency sources with a mean absolute error of 23 degrees and unknown wideband sources with a mean absolute error of 5.4 degrees in practice. Two sources are also localizable provided they are sufficiently separated in space. Conclusion: Whilst previous work only allowed for DOA estimation of a single monochromatic sound source with a known frequency, our DOA estimation algorithm enables localization of unknown and arbitrary sources with a single moving microphone. [ABSTRACT FROM AUTHOR]

Published

2024

5. Perceptual detection thresholds for numerical dispersion in binaural auralizations of two acoustically different rooms.

Author

Meyer, Julie, Lokki, Tapio, and Ahrens, Jens

Subjects

FINITE difference time domain method, TERAHERTZ spectroscopy, DISPERSION (Chemistry), PLANE wavefronts, IMPULSE response, COMPUTATIONAL complexity

Abstract

Room acoustic simulations using the finite-difference time-domain method on a wide frequency range can be computationally expensive and typically contain numerical dispersion. Numerical dispersion can be audible and, thus, constitutes an artifact in auralizations. There is a need to measure perceptual thresholds for numerical dispersion to achieve an optimal balance between computational complexity and audibility of dispersion. This work measures the perceptual detection thresholds for numerical dispersion in binaural auralizations of two acoustically different rooms. Numerical dispersion is incorporated into measured binaural room impulse responses (BRIRs) by the means of filters that represent the dispersion that plane waves experience, which propagate in the simulation in the direction of the worst-case dispersion error. The results show that the perceptual detection threshold is generally lower for the most reverberant room and greatly depends on the source signal independently of the room in which the threshold is measured. It is the most noticeable in the pure BRIRs, i.e., with an impulse as source signal, and almost unnoticeable with speech. The results also show that there was no statistical evidence that the perceptual thresholds for the conditions where numerical dispersion was present or absent in the direct path of the BRIRs be different. [ABSTRACT FROM AUTHOR]

Published

2022

6. Spherical harmonic decomposition of a sound field based on observations along the equator of a rigid spherical scatterer.

Author

Ahrens, Jens, Helmholz, Hannes, Alon, David Lou, and Amengual Garí, Sebastià V.

Subjects

*ACOUSTIC field, *MICROPHONE arrays, *MICROPHONES, *SOUND pressure, *PLANE wavefronts

Abstract

We present a method for computing a spherical harmonic representation of a sound field based on observations of the sound pressure along the equator of a rigid spherical scatterer. Our proposed solution assumes that the captured sound field is height invariant so that it can be represented by a two-dimensional (2D) plane wave decomposition (PWD). The 2D PWD is embedded in a three-dimensional representation of the sound field, which allows for perfectly undoing the effect of the spherical scattering object. If the assumption of height invariance is fulfilled, then the proposed solution is at least as accurate as a conventional spherical microphone array of the same spherical harmonic order, which requires a multiple of the number of sensors. Our targeted application is binaural rendering of the captured sound field. We demonstrate by analyzing the binaural output signals that violations of the assumptions that the solution is based on—particularly height invariance and consequently also horizontal propagation—lead to errors of moderate magnitude. [ABSTRACT FROM AUTHOR]

Published

2021

7. Modeling continuous source distributions in wave-based virtual acoustics.

Author

Bilbao, Stefan and Ahrens, Jens

Subjects

*CONTINUOUS distributions, *FINITE difference time domain method, *ACOUSTIC radiators, *ACOUSTICS

Abstract

All acoustic sources are of finite spatial extent. In volumetric wave-based simulation approaches (including, e.g., the finite difference time domain method among many others), a direct approach is to represent such continuous source distributions in terms of a collection of point-like sources at grid locations. Such a representation requires interpolation over the grid and leads to common staircasing effects, particularly under rotation or translation of the distribution. In this article, a different representation is shown, based on a spherical harmonic representation of a given distribution. The source itself is decoupled from any particular arrangement of grid points, and is compactly represented as a series of filter responses used to drive a canonical set of source terms, each activating a given spherical harmonic directivity pattern. Such filter responses are derived for a variety of commonly encountered distributions. Simulation results are presented, illustrating various features of such a representation, including convergence, behaviour under rotation, the extension to the time varying case, and differences in computational cost relative to standard grid-based source representations. [ABSTRACT FROM AUTHOR]

Published

2020

8. Elitebildung - Schaffung von Minoritäten als politisches Programm

Author

Ahrens, Jens-Rainer

Published

1991

9. Incorporating source directivity in wave-based virtual acoustics: Time-domain models and fitting to measured dataa).

Author

Bilbao, Stefan, Ahrens, Jens, and Hamilton, Brian

Subjects

*FINITE difference time domain method, *ACOUSTICS, *ACOUSTIC wave propagation, *UNDERWATER acoustics, *HARMONIC functions, *SPHERICAL functions, *DIFFERENTIAL operators, *DIRAC function

Abstract

The modeling of source directivity is a problem of longstanding interest in virtual acoustics and auralisation. This remains the case for newer time domain volumetric wave-based approaches to simulation such as the finite difference time domain method. In this article, a spatio-temporal model of acoustic wave propagation, including a source term is presented. The source is modeled as a spatial Dirac delta function under the action of a series of differential operators associated with the spherical harmonic functions. Each term in the series gives rise to the directivity pattern of a given spherical harmonic, and is separately driven through a time domain filtering operation of an underlying source signal. Such a model is suitable for calibration against measured frequency-dependent directivity patterns and a procedure for arriving at time domain filters for each spherical harmonic channel is illustrated. It also yields a convenient framework for discretisation, and a simple strategy is presented, yielding a locally-defined operation over the spatial grid. Numerical results, illustrating various features of source directivity, including the comparison of measured and synthetic directivity patterns, are presented. [ABSTRACT FROM AUTHOR]

Published

2019

10. Perceptual evaluation of headphone auralization of rooms captured with spherical microphone arrays with respect to spaciousness and timbre.

Author

Ahrens, Jens and Andersson, Carl

Subjects

*VIRTUAL room acoustics, *MICROPHONE arrays, *IMPULSE response, *SPHERICAL harmonics, *TONE color (Music theory)

Abstract

A listening experiment is presented in which subjects rated the perceived differences in terms of spaciousness and timbre between a headphone-based headtracked dummy head auralization of a sound source in different rooms and a headphone-based headtracked auralization of a spherical microphone array recording of the same scenario. The underlying auralizations were based on measured impulse responses to assure equal conditions. Rigid-sphere arrays with different amounts of microphones ranging from 50 to up to 1202 were emulated through sequential measurements, and spherical harmonics orders of up to 12 were tested. The results show that the array auralizations are partially indistinguishable from the direct dummy head auralization at a spherical harmonics order of 8 or higher if the virtual sound source is located at a lateral position. No significant reduction of the perceived differences with increasing order is observed for frontal virtual sound sources. In this case, small differences with respect to both spaciousness and timbre persist. The evaluation of lowpass-filtered stimuli shows that the perceived differences occur exclusively at higher frequencies and can therefore be attributed to spatial aliasing. The room had only a minor effect on the results. [ABSTRACT FROM AUTHOR]

Published

2019

11. Knowledge and use of HIV pre-exposure prophylaxis among men who have sex with men in Berlin – A multicentre, cross-sectional survey.

Author

Werner, Ricardo Niklas, Gaskins, Matthew, Ahrens, Jens, Jessen, Heiko, Kutscha, Frank, Mosdzen, Regina, Osswald, Wolfgang, Sander, Dirk, Schellberg, Sven, Schwabe, Kai, Wünsche, Thomas, Dressler, Corinna, Sammons, Mary, and Nast, Alexander

Subjects

HIV infections, MEN who have sex with men, PUBLIC health, CROSS-sectional method, DISEASES

Abstract

Background: HIV pre-exposure prophylaxis (PrEP) has likely contributed to large decreases in HIV incidence among men who have sex with men (MSM) in several major cities. Berlin has seen a smaller decline, and affordable PrEP has been accessible through formal channels in Germany only since autumn 2017. We aimed to investigate knowledge and use of PrEP among MSM in Berlin, and factors predictive of a desire to use PrEP and history of PrEP use. Methods: Multicentre, paper-based, self-administered survey of adult MSM whose HIV status was negative or unknown at time of participation. Data were collected from 1 October 2017 to 2 April 2018. Results: 473 of 875 questionnaires were returned (response rate 54.1%; mean age 37.4 years, range 18–79). 90.0% of participants were aware of PrEP and, of these, 48.2% felt well informed about it. Among the 17.2% of participants reporting PrEP use, 59.3% indicated obtaining some or all of it from informal sources. 23.7% of those with no history of PrEP use reported having condomless anal intercourse (CAI) with two or more partners over the past six months. Worries about side effects, cost, not having a doctor who prescribes it, and a lack of information were the most frequently reported barriers to PrEP use. A desire to use PrEP and history of PrEP use were associated in our multivariable model with having multiple CAI partners. A history of PrEP use was associated with having a university degree, one or two parents born outside Germany, or friends living with HIV. Conclusions: We found high awareness of PrEP among MSM in Berlin, but also a strong need for more education on its pros, cons and proper use. The frequency of informal PrEP use was also high, raising urgent individual and public health concerns. Policy makers need to consider recent calls to improve access to PrEP and PrEP education through regular health services. [ABSTRACT FROM AUTHOR]

Published

2018

12. Spatial perception of sound fields recorded by spherical microphone arrays with varying spatial resolution.

Author

Avni, Amir, Ahrens, Jens, Geier, Matthias, Spors, Sascha, Wierstorf, Hagen, and Rafaely, Boaz

Subjects

*SPACE perception, *ACOUSTIC field, *ACOUSTIC transducers, *ACOUSTIC devices, *AUDITORY perception

Abstract

The area of sound field synthesis has significantly advanced in the past decade, facilitated by the development of high-quality sound-field capturing and re-synthesis systems. Spherical microphone arrays are among the most recently developed systems for sound field capturing, enabling processing and analysis of three-dimensional sound fields in the spherical harmonics domain. In spite of these developments, a clear relation between sound fields recorded by spherical microphone arrays and their perception with a re-synthesis system has not yet been established, although some relation to scalar measures of spatial perception was recently presented. This paper presents an experimental study of spatial sound perception with the use of a spherical microphone array for sound recording and headphone-based binaural sound synthesis. Sound field analysis and processing is performed in the spherical harmonics domain with the use of head-related transfer functions and simulated enclosed sound fields. The effect of several factors, such as spherical harmonics order, frequency bandwidth, and spatial sampling, are investigated by applying the repertory grid technique to the results of the experiment, forming a clearer relation between sound-field capture with a spherical microphone array and its perception using binaural synthesis regarding space, frequency, and additional artifacts. The experimental study clearly shows that a source will be perceived more spatially sharp and more externalized when represented by a binaural stimuli reconstructed with a higher spherical harmonics order. This effect is apparent from low spherical harmonics orders. Spatial aliasing, as a result of sound field capturing with a finite number of microphones, introduces unpleasant artifacts which increased with the degree of aliasing error. [ABSTRACT FROM AUTHOR]

Published

2013

13. A Modal Analysis of Spatial Discretization of Spherical Loudspeaker Distributions Used for Sound Field Synthesis.

Author

Ahrens, Jens and Spors, Sascha

Subjects

MODAL analysis, LOUDSPEAKERS, SOUND systems, NEAR field communication, FREQUENCY synthesizers, SPHERICAL harmonics, STATISTICAL sampling, HARMONIC analysis (Mathematics), GAUSSIAN distribution

Abstract

The theory of sound field synthesis methods like Wave Field Synthesis (WFS) and Near-field Compensated Higher Order Ambisonics (NFC-HOA) may be formulated based on the assumption of continuous distributions of secondary sources that enclose the receiver area in the general case. In practice, a finite number of discrete loudspeakers is used, which constitutes a fundamental departure from the theoretical requirements. In this paper, we present a detailed analysis of the consequences of this spatial discretization on the synthesized sound field via an analytical frequency-dependent modal decomposition of the latter for the case of Gaussian sampling. It is shown that the underlying mechanisms are essentially similar to those in the discretization of circular secondary source distributions so that the results obtained in the latter context may be directly applied. The outstanding parallel in the discretization of spherical and circular distributions is the fact that in both cases, repetitions in a given space frequency domain occur. Therefore, the spatial bandwidth of the desired sound field has essential influence on the properties of the evolving artifacts. We propose to categorize sound field synthesis methods into spatially narrowband, wideband, and fullband approaches and show that NFC-HOA constitutes a spatially narrowband method and that WFS constitutes a spatially fullband method. [ABSTRACT FROM PUBLISHER]

Published

2012

14. Wave field synthesis of a sound field described by spherical harmonics expansion coefficients.

Author

Ahrens, Jens and Spors, Sascha

Subjects

*HARMONIC analysis (Mathematics), *SPHERICAL harmonics, *HARMONIC functions, *MATHEMATICAL continuum, *ELECTROACOUSTIC transducers

Abstract

Near-field compensated higher order Ambisonics (NFC-HOA) and wave field synthesis (WFS) constitute the two best-known analytic sound field synthesis methods. While WFS is typically used for the synthesis of virtual sound scenes, NFC-HOA is typically employed in order to synthesize sound fields that have been captured with appropriate microphone arrays. Such recorded sound fields are essentially represented by the coefficients of the underlying surface spherical harmonics expansion. A sound field described by such coefficients cannot be straightforwardly synthesized in WFS. This is a consequence of the fact that, unlike in NFC-HOA, it is critical in WFS to carefully select those loudspeakers that contribute to the synthesis of a given sound source in a sound field under consideration. In order to enable such a secondary source selection, it is proposed to employ the well-known concept of decomposing the sound field under consideration into a continuum of plane waves, for which the secondary source selection is straightforward. The plane wave representation is projected onto the horizontal plane and a closed form expression of the secondary source driving signals for horizontal WFS systems of arbitrary convex shape is derived. [ABSTRACT FROM AUTHOR]

Published

2012

15. Wave field synthesis of moving virtual sound sources with complex radiation properties.

Author

Ahrens, Jens and Spors, Sascha

Abstract

An approach to the synthesis of moving virtual sound sources with complex radiation properties in wave field synthesis is presented. The approach exploits the fact that any stationary sound source of finite spatial extent radiates spherical waves at sufficient distance. The angular dependency of the radiation properties of the source under consideration is reflected by the amplitude and phase distribution on the spherical wave fronts. The sound field emitted by a uniformly moving monopole source is derived and the far-field radiation properties of the complex virtual source under consideration are incorporated in order to derive a closed-form expression for the loudspeaker driving signal. The results are illustrated via numerical simulations of the synthesis of the sound field of a sample moving complex virtual source. [ABSTRACT FROM AUTHOR]

Published

2011

16. Object-based Audio Reproduction and the Audio Scene Description Format.

Author

Geier, Matthias, Ahrens, Jens, and Spors, Sascha

Subjects

SOUND recordings, SPACE, LOUDSPEAKERS, AUDIOVISUAL materials, COMPUTER sound processing

Abstract

The introduction of new techniques for audio reproduction such as HRTF-based technology, wave field synthesis and higher-order Ambisonics is accompanied by a paradigm shift from channel-based to object-based transmission and storage of spatial audio. Not only is the separate coding of source signal and source location more efficient considering the number of channels used for reproduction by large loudspeaker arrays, it also opens up new options for a user-controlled interactive sound field design. This article describes the need for a common exchange format for object-based audio scenes, reviews some existing formats with potential to meet some of the requirements and finally introduces a new format called Audio Scene Description Format (ASDF) and presents the SoundScape Renderer, an audio reproduction software which implements a draft version of the ASDF. [ABSTRACT FROM AUTHOR]

Published

2010