Jamie Ferguson scite author profile

Sonification designers have little theory or experimental evidence to guide the design of data-to-sound mappings. Many mappings use acoustic representations of data values which do not correspond with the listener's perception of how that data value should sound during sonification. This research evaluates data-to-sound mappings that are based on psychoacoustic sensations, in an attempt to move towards using data-to-sound mappings that are aligned with the listener's perception of the data value's auditory connotations. Multiple psychoacoustic parameters were evaluated over two experiments, which were designed in the context of a domain-specific problem -detecting the level of focus of an astronomical image through auditory display. Recommendations for designing sonification systems with psychoacoustic sound parameters are presented based on our results.

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Investigating Perceptual Congruence between Data and Display Dimensions in Sonification

Ferguson

Brewster

2018

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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.

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Rehabilitation of Persons With Traumatic Brain Injury

Ragnarsson¹,

Clarke²,

Daling³

et al. 1999

614

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Evaluating mapping designs for conveying data through tactons

Ferguson

Williamson

Brewster

2018

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HapticLock: Eyes-Free Authentication for Mobile Devices

Dhandapani

Ferguson

Freeman

2021

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Jamie Ferguson

Evaluation of psychoacoustic sound parameters for sonification

Investigating Perceptual Congruence between Data and Display Dimensions in Sonification

Rehabilitation of Persons With Traumatic Brain Injury

Evaluating mapping designs for conveying data through tactons

HapticLock: Eyes-Free Authentication for Mobile Devices

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