Robert Höldrich scite author profile

Robert Höldrich

5Publications

199Citation Statements Received

0Citation Statements Given

How they've been cited

210

194

How they cite others

Affiliations

University of Music and Performing Arts Graz, Graz University of Technology, Knowledge Unlatched (Germany)

Publications

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Binaural rendering of Ambisonic signals by head-related impulse response time alignment and a diffuseness constraint

Zaunschirm

Schörkhuber

Höldrich

2018

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Binaural rendering of Ambisonic signals is of great interest in the fields of virtual reality, immersive media, and virtual acoustics. Typically, the spatial order of head-related impulse responses (HRIRs) is considerably higher than the order of the Ambisonic signals. The resulting order reduction of the HRIRs has a detrimental effect on the binaurally rendered signals, and perceptual evaluations indicate limited externalization, localization accuracy, and altered timbre. In this contribution, a binaural renderer, which is computed using a frequency-dependent time alignment of HRIRs followed by a minimization of the squared error subject to a diffuse-field covariance matrix constraint, is presented. The frequency-dependent time alignment retains the interaural time difference (at low frequencies) and results in a HRIR set with lower spatial complexity, while the constrained optimization controls the diffuse-field behavior. Technical evaluations in terms of sound coloration, interaural level differences, diffuse-field response, and interaural coherence, as well as findings from formal listening experiments show a significant improvement of the proposed method compared to state-of-the-art methods.

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PhysioSonic - Evaluated Movement Sonification as Auditory Feedback in Physiotherapy

Vogt

Pirrò

Kobenz

et al. 2010

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Personal noise ranking of road traffic: Subjective estimation versus physiological parameters under laboratory conditions

Raggam

Cik

Höldrich

et al. 2007

International Journal of Hygiene and Environmental Health

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Perception of Spatial Sound Phenomena Created by the Icosahedral Loudspeaker

Wendt

Sharma

Frank

et al. 2017

Computer Music Journal

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The icosahedral loudspeaker (IKO) is able to project strongly focused sound beams into arbitrary directions. Incorporating artistic experience and psychoacoustic research, this article presents three listening experiments that provide evidence for a common, intersubjective perception of spatial sonic phenomena created by the IKO. The experiments are designed on the basis of a hierarchical model of spatiosonic phenomena that exhibit increasing complexity, ranging from a single static sonic object to combinations of multiple, partly moving objects. The results are promising and explore new compositional perspectives in spatial computer music.

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3D binaural sound reproduction using a virtual ambisonic approach

Noisternig

Musil

Sontacchi

et al.

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