Analyzing journeys in sound: usability of graphical interpolators for sound design
Analyzing journeys in sound: usability of graphical interpolators for sound design
Graphical interpolation systems provide a simple mechanism for the control of sound synthesis by providing a level of abstraction above the engine parameters, allowing users to explore different sounds without awareness of the underlying details. Typically, a graphical interpolator presents the user with a two-dimensional pane where a number of synthesizer presets, each representing a collection of synthesis parameter values, can be located. Moving an interpolation cursor within the pane results in the calculation of new parameter values, based on its position, the relative locations of the presets, and the mathematical interpolation function, thus generating new sounds. These systems supply users with two sensory modalities in the form of sonic output and visual feedback from the interface. A number of graphical interpolator systems have been developed over the years, with a variety of user-interface designs, but few have been subject to formal user evaluation. Our testing studied both user interaction with, and the perceived usability of, graphical interpolation systems by comparing alternative visualizations in order to establish whether the visual feedback provided by the interface aids the locating of sounds within the space. The outcomes of our study may help to better understand design considerations for graphical interpolators and inform future designs.
663–676
Gibson, Darrell, James
cb2f26ee-ea1e-47c8-860a-9c8a6bdc4d7f
Polfreman, Richard
26424c3d-b750-4868-bf6e-2bbb3990df84
17 April 2020
Gibson, Darrell, James
cb2f26ee-ea1e-47c8-860a-9c8a6bdc4d7f
Polfreman, Richard
26424c3d-b750-4868-bf6e-2bbb3990df84
Gibson, Darrell, James and Polfreman, Richard
(2020)
Analyzing journeys in sound: usability of graphical interpolators for sound design.
Personal and Ubiquitous Computing, 25, .
(doi:10.1007/s00779-020-01398-z).
Abstract
Graphical interpolation systems provide a simple mechanism for the control of sound synthesis by providing a level of abstraction above the engine parameters, allowing users to explore different sounds without awareness of the underlying details. Typically, a graphical interpolator presents the user with a two-dimensional pane where a number of synthesizer presets, each representing a collection of synthesis parameter values, can be located. Moving an interpolation cursor within the pane results in the calculation of new parameter values, based on its position, the relative locations of the presets, and the mathematical interpolation function, thus generating new sounds. These systems supply users with two sensory modalities in the form of sonic output and visual feedback from the interface. A number of graphical interpolator systems have been developed over the years, with a variety of user-interface designs, but few have been subject to formal user evaluation. Our testing studied both user interaction with, and the perceived usability of, graphical interpolation systems by comparing alternative visualizations in order to establish whether the visual feedback provided by the interface aids the locating of sounds within the space. The outcomes of our study may help to better understand design considerations for graphical interpolators and inform future designs.
Text
Gibson-Polfreman2021_Article_AnalyzingJourneysInSoundUsabil(1)
- Version of Record
More information
Published date: 17 April 2020
Identifiers
Local EPrints ID: 453719
URI: http://eprints.soton.ac.uk/id/eprint/453719
ISSN: 1617-4909
PURE UUID: e31a3e3a-2bf0-46c1-825e-6517680d3e5c
Catalogue record
Date deposited: 21 Jan 2022 17:39
Last modified: 16 Mar 2024 14:57
Export record
Altmetrics
Contributors
Author:
Darrell, James Gibson
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics