Subjective selection of non-individual head-related transfer functions

Proceedings of the 9th International Conference on Auditory Display (ICAD), Boston, MA, July 7-9, 2003.The individualization of head-related transfer functions (HRTFs) for virtual acoustics is a key technique for the optimization of the directional reproduction. This paper presents a subjective selection method for a fast, individual selection of one HRTF from a catalogue of non-individual ones. The selection method gives random access to sounds ltered with the HRTFs. In a rst selection step a group of HRTFs is chosen out of which a nal HRTF is singled out in a second step according to multiple criteria. The results of the two selection-steps were evaluated through a localization experiment. It is found that the selection minimizes the variance of the localization responses and the number of inside-the-head localizations. Localization error as well as the number of front-back confusions is small. As the selection method is fast, easy to implement, and operable for subjects without training, it is suitable for various applications, such as telephone conference systems or computer games

Investigating Perceptual Congruence Between Data and Display Dimensions in Sonification

The relationships between sounds and their perceived meaning and connotations are complex, making auditory perception an important factor to consider when designing sonification systems. Listeners often have a mental model of how a data variable should sound during sonification and this model is not considered in most data:sound mappings. This can lead to mappings that are difficult to use and can cause confusion. To investigate this issue, we conducted a magnitude estimation experiment to map how roughness, noise and pitch relate to the perceived magnitude of stress, error and danger. These parameters were chosen due to previous findings which suggest perceptual congruency between these auditory sensations and conceptual variables. Results from this experiment show that polarity and scaling preference are dependent on the data:sound mapping. This work provides polarity and scaling values that may be directly utilised by sonification designers to improve auditory displays in areas such as accessible and mobile computing, process-monitoring and biofeedback

Psychoacoustics: Facts and Models

Psychoacoustics – Facts and Models offers a unique, comprehensive summary of information describing the processing of sound by the human hearing system. It includes quantitative relations between sound stimuli and auditory perception in terms of hearing sensations, for which quantitative models are given, as well as an unequalled collection of data on the human hearing system as a receiver of acoustic information. In addition, many examples of the practical application of the results of basic research in fields such as noise control, audiology, or sound quality engineering are detailed. The third edition includes an additional chapter on audio-visual interactions and applications, plus more on applications throughout. Reviews of previous editions have characterized it as "an essential source of psychoacoustic knowledge," "a major landmark ," and a book that "without doubt will have a long-lasting effect on the standing and future evolution of this scientific domain.