Echo

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Referenz

Christoph Klemmt, Rajat Sodhi: Echo. In: EvoMUSART 2015, 125-135.

DOI

http://link.springer.com/chapter/10.1007/978-3-319-16498-4_12

Abstract

This paper is interested in the artistic possibilities of systematic translations of sound or music into three-dimensional form. The generation of static two and three-dimensional form based on music or sound has been used by various artists, architects, scientists and technicians.

The time-based attributes of a sound can be directly transformed into spatial dimensions of the generated form. A two-dimensional example is the visualisation of a sound wave in which the time of the sound is recorded from left to right, while the frequency, another time-based attribute of the sound, is recorded in the vertical direction.

Many attempts in generating systematic three-dimensional translations are taking the form of single-surface morphologies, due to most data which can be extracted from a sound being dependent variables for any given time-frequency coordinate. We are proposing a system of analysing reassigned sound data within a variable time frame as a tool to extract multiple consecutive layers of information, which in their combination have the potential to form non-surface morphologies.

The artistic possibilities of the morphologies as an architectural geometry has been tested with the design of an exhibition for Design Shanghai 2013.


Extended Abstract

Bibtex

@incollection{
year={2015},
isbn={978-3-319-16497-7},
booktitle={Evolutionary and Biologically Inspired Music, Sound, Art and Design},
volume={9027},
series={Lecture Notes in Computer Science},
editor={Johnson, Colin and Carballal, Adrian and Correia, João},
doi={10.1007/978-3-319-16498-4_12},
title={Echo},
url={http://dx.doi.org/10.1007/978-3-319-16498-4_12 http://de.evo-art.org/index.php?title=Echo },
publisher={Springer International Publishing},
keywords={Architecture; Sound; Data; Form; Reassignment; Echo},
author={Klemmt, Christoph and Sodhi, Rajat},
pages={125-135},
language={English}

}

Used References

Brand, A.: Klangwelten. (video) Frankfurter Allgemeine Zeitung, 07 November 2014

Chladni, E.F.F.: Entdeckungen Über Die Theorie Des Klanges. Weidmanns Erben Und Reich. Leipzig (1787)

Davies, K., Walters, P.: Artist case study - sound form. University of the West of England, Bristol (2008). http://www.uwe.ac.uk/sca/research/cfpr/research/3D/Artists/soundform/soundform.pdf

Kanach, S. (ed.) Music and Architecture by YannisXenakis. Pendragon Press, New York (2008)

Klanten, R., Bourquin, N., Ehmann, S., van Heerden, F., Tissot, T. (ed.) DATA FLOW Visualising Information in Graphic Design. Gestalten, Berlin. ISBN 978-3-89955-217-1 (2008)

Klemmt, C.: Anisotropia - morphological sound analysis. In: Costa, X., Thorne, M. (eds) Change, Architecture, Education, Practices – Proceedings of the International ACSA Conference, Barcelona, Spain, 20–22 June 2012. (ISBN 978-0-935502-83-1) (2012)

Lieser, W (2010) The World of Digital Art. Ullmann Publishing, Potsdam

Kaiser, J.F.: Digital filters. In: Kuo, F.F., Kaiser, J.F. (eds.) System Analysis by Digital Computer, Chap. 7. Wiley, New York (1966)

Flanagan, JL (1972) Speech Analysis, Synthesis and Perception. Springer, New York http://dx.doi.org/10.1007/978-3-662-01562-9

Allen, J.B.: Short time spectral analysis, synthesis, and modification by discrete fourier transform. IEEE Trans. Acoust. Speech Sig. Process. ASSP-25(3), 235–238 (1977)

Hainsworth, S.: Chapter 3: Reassignment methods. Techniques for the Automated Analysis of Musical Audio (Ph.D.). University of Cambridge (2003)

Fulop, SA, Fitz, K (2006) Algorithms for computing the time-corrected instantaneous frequency (reassigned) spectrogram, with applications. J. Acoust. Soc. Am. 119: pp. 360-371 http://dx.doi.org/10.1121/1.2133000

Design Shanghai 2013 - Aesthetics City. Shanghai People’s Fine Art Publishing House, China


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