Recently, artists and designers have begun to use digital technologies in order to
stimulate bodily interaction, while scientists keep revealing new findings about
sensorimotor contingencies, changing the way in which we understand human
knowledge. However, implicit knowledge generated in artistic projects can become
difficult to transfer and scientific research frequently remains isolated due to
specific disciplinary languages and methodologies. By mutually enriching holistic
creative approaches and highly specific scientific ways of working, this doctoral
dissertation aims to set the foundation for Enactive Sound Design. It is focused
on sound that engages sensorimotor experience that has been neglected within
the existing design practices. The premise is that such a foundation can be best
developed if grounded in transdisciplinary methods that bring together scientific
and design approaches.
The methodology adopted to achieve this goal is practice-based and supported
by theoretical research and project analysis. Three different methodologies were
formulated and evaluated during this doctoral study, based on a convergence of existing
methods from design, psychology and human-computer interaction. First, a
basic design approach was used to engage in a reflective creation process and to extend
the existing work on interaction gestalt through hands-on activities. Second,
psychophysical experiments were carried out and adapted to suit the needed shift
from reception-based tests to a performance-based quantitative evaluation. Last,
a set of participatory workshops were developed and conducted, within which the
enactive sound exercises were iteratively tested through direct and participatory
observation, questionnaires and interviews.
A foundation for Enactive Sound Design developed in this dissertation includes
novel methods that have been generated by extensive explorations into the fertile
ground between basic design education, psychophysical experiments and participatory
design. Combining creative practices with traditional task analysis further
developed this basic design approach. The results were a number of abstract sonic
artefacts conceptualised as the experimental apparatuses that can allow psychologists
to study enactive sound experience. Furthermore, a collaboration between
designers and scientists on a psychophysical study produced a new methodology
for the evaluation of sensorimotor performance with tangible sound interfaces.These performance experiments have revealed that sonic feedback can support
enactive learning. Finally, participatory workshops resulted in a number of novel
methods focused on a holistic perspective fostered through a subjective experience
of self-producing sound. They indicated the influence that such an approach may
have on both artists and scientists in the future. The role of designer, as a scientific
collaborator within psychological research and as a facilitator of participatory
workshops, has been evaluated.
Thus, this dissertation recommends a number of collaborative methods and strategies
that can help designers to understand and reflectively create enactive sound
objects. It is hoped that the examples of successful collaborations between designers
and scientists presented in this thesis will encourage further projects and
connections between different disciplines, with the final goal of creating a more
engaging and a more aware sonic future.
Date of Award | 2013 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Jillian Scott (Other Supervisor) |
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- Enaction/enactive
- Movement
- Sonic interaction design
Amplifying Actions - Towards Enactive Sound Design
Franinović, K. (Author). 2013
Student thesis: PhD