DOCSLIB.ORG

The Composition and Performance of Spatial Music

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The Composition and Performance of Spatial Music The Composition and Performance of Spatial Music A dissertation submitted to the University of Dublin for the degree of Doctor of Philosophy Enda Bates Trinity College Dublin, August 2009. Department of Music & Department of Electronic and Electrical Engineering Trinity College Dublin Declaration I hereby declare that this thesis has not been submitted as an exercise for a degree at this or any other University and that it is entirely my own work. I agree that the Library may lend or copy this thesis upon request. Signed, ___________________ Enda Bates ii Summary The use of space as a musical parameter is a complex issue which involves a number of different, yet interrelated factors. The technical means of performance, the sonic material, and the overall musical aesthetic must all work in tandem to produce a spatial impression in the listener which is in some way musically significant. Performances of spatial music typically involve a distributed audience and often take place in an acoustically reverberant space. This situation is quite different from the case of a single listener at home, or the composer in the studio. As a result, spatial strategies which are effective in this context may not be perceived correctly when transferred to a performance venue. This thesis examines these complex issues in terms of both the technical means of spatialization, and the compositional approach to the use of space as a musical parameter. Particular attention will be paid to the effectiveness of different spatialization techniques in a performance context, and what this implies for compositional strategies which use space as a musical parameter. Finally, a number of well known works of spatial music, and some original compositions by the author, are analyzed in terms of the perceptual effectiveness of the spatialization strategy. The results of a large number of listening tests and simulations were analysed to determine the fundamental capabilities of different spatialization techniques under the less than ideal conditions typically encountered during a performance. This analysis focussed on multichannel stereophony, Ambisonics, and Wavefield Synthesis. Other methods which are orientated toward a single listener are not addressed in this thesis. The results indicated that each spatialization scheme has particular strengths and weaknesses, and that the optimum technique in any situation is dependent on the particular spatial effect required. It was found that stereophonic techniques based on amplitude panning provided the most accurate localization but suffered from a lack of spaciousness and envelopment. Ambisonics provided an improved sense of envelopment but poor localization accuracy, particularly with first order Ambisonics systems. Consequently it would appear that stereophony is preferable when the directionality and focus of the virtual source is paramount, while Ambisonics is preferable if a more diffuse enveloping sound field is required. Ambisonics was consistently preferred for dynamically moving sources as this iii technique eliminated the panning artefacts exhibited by amplitude panning as the source moves from a position at a loudspeaker, to one inbetween a pair of loudspeakers. The decoding scheme and order of the Ambisonics system also has a significant effect on the perceptual performance of the system, particularly at off- centre listener positions. A single-band, max-rE decoding scheme was found to be the most suitable approach for a distributed audience, and increasing the order of the system was shown to improve the performance at all listener positions. It is recommended that an octagonal array be adopted as a minimum standard for performances of multichannel spatial music, as this arrangement can be utilized for higher order Ambisonics and can also be readily implemented with digital audio hardware. Wavefield synthesis (WFS) was found to be quite distinct from multichannel techniques such as stereophony or Ambisonics. The spatial aliasing frequency is a critical aspect of any WFS system and localization errors and timbral distortions significantly increase if this parameter is too low. The ability of WFS systems to position virtual sources both behind and in front of the loudspeaker array was shown to be extremely difficult to achieve, particularly if the listener’s position is fixed or if the performance space contains significant early reflections and reverberation. In the latter half of this thesis, a number of landmark works of spatial music were presented and analysed in terms of the perceptual validity of their approach to spatialization. It was shown that many composers have used spatial distribution to improve the intelligibility of different layers of material, and this approach was found to agree with the findings of scientific research in the area of auditory cognition. The use of recognizable spatial motifs was shown to be highly difficult to implement, and complex, abstract spatial designs are only indirectly related to what is eventually perceived by the audience. A gestural approach to spatial music has its origins in the practice of diffusion, yet this approach is equally applicable to other aesthetics and would seem to be highly suitable for mixed-media electroacoustic works. The use of augmented instruments which map the actions of the performer to a spatialization algorithm would seem to be well suited to performances of mixed-media spatial music. In addition, the use of flocking algorithms to control spatialization and sound synthesis also appears to be a novel and effective techniques for the creation of spatially dynamic, electronic sounds. iv Acknowledgements I am deeply grateful to my two supervisors, Dr. Dermot Furlong and Mr. Donnacha Dennehy, for all their support and guidance over the past four years. Without their incredible knowledge and encouragement, this thesis would not have been possible. I would also like to particularly thank Dr. Fionnuala Conway and Gavin Kearney for their help over the years, all those who took part in listening tests, and my colleagues at the Spatial Music Collective. Finally I am very grateful for the support of my family and friends, and all the students and staff of the Music and Media Technology course in Trinity College. v Table of Contents Summary...................................................................................................................... iii Acknowledgements........................................................................................................v Table of Contents..........................................................................................................vi List of Figures................................................................................................................x List of Tables ..............................................................................................................xiv 1 Introduction.................................................................................................................1 1.1 Spatial Music: A Personal Perspective ................................................................1 1.1.1 What Now in the Age of Disillusionment.....................................................2 1.1.2 Why Spatial Music?......................................................................................3 1.1.3 Why Talk About Spatial Hearing?................................................................5 1.1.4 The Imaginative Use of Empirical Thinking ................................................6 1.2 The Research Question ........................................................................................7 1.3 Aims and Objectives............................................................................................8 1.4 Methodology........................................................................................................8 1.5 Motivation............................................................................................................9 1.6 Outline................................................................................................................10 2 Spatial Hearing..........................................................................................................13 2.1 Directional Hearing............................................................................................14 2.2 Directional Hearing and Acoustics ....................................................................19 2.3 Distance Hearing & Moving Sources ................................................................22 2.3.1 Summary of Spatial Hearing.......................................................................25 2.4 Spatial Hearing with Multiple Sources..............................................................26 2.4.1 The Limits of Auditory Perception.............................................................28 2.4.2 Spatial Hearing and Virtual Sources...........................................................29 2.4.3 Spatial Audio Techniques...........................................................................30 3 Stereophony ..............................................................................................................32 3.1 Quadraphonic Sound..........................................................................................35 3.2 Cinema Surround Sound and 5.1 .......................................................................37 3.3 Multichannel Amplitude Panning Techniques...................................................38
Load more

Recommended publications
  • Developing Sound Spatialization Tools for Musical Applications with Emphasis on Sweet Spot and Off-Center Perception
    Sweet [re]production: Developing sound spatialization tools for musical applications with emphasis on sweet spot and off-center perception Nils Peters Music Technology Area Department of Music Research Schulich School of Music McGill University Montreal, QC, Canada October 2010 A thesis submitted to McGill University in partial fulfillment of the requirements for the degree of Doctor of Philosophy. c 2010 Nils Peters 2010/10/26 i Abstract This dissertation investigates spatial sound production and reproduction technology as a mediator between music creator and listener. Listening experiments investigate the per- ception of spatialized music as a function of the listening position in surround-sound loud- speaker setups. Over the last 50 years, many spatial sound rendering applications have been developed and proposed to artists. Unfortunately, the literature suggests that artists hardly exploit the possibilities offered by novel spatial sound technologies. Another typical drawback of many sound rendering techniques in the context of larger audiences is that most listeners perceive a degraded sound image: spatial sound reproduction is best at a particular listening position, also known as the sweet spot. Structured in three parts, this dissertation systematically investigates both problems with the objective of making spatial audio technology more applicable for artistic purposes and proposing technical solutions for spatial sound reproductions for larger audiences. The first part investigates the relationship between composers and spatial audio tech- nology through a survey on the compositional use of spatialization, seeking to understand how composers use spatialization, what spatial aspects are essential and what functionali- ties spatial audio systems should strive to include. The second part describes the development process of spatializaton tools for musical applications and presents a technical concept.
    [Show full text]
  • Form in the Music of John Adams
    Graduate Theses, Dissertations, and Problem Reports 2018 Form in the Music of John Adams Michael Ridderbusch Follow this and additional works at: https://researchrepository.wvu.edu/etd Recommended Citation Ridderbusch, Michael, "Form in the Music of John Adams" (2018). Graduate Theses, Dissertations, and Problem Reports. 6503. https://researchrepository.wvu.edu/etd/6503 This Dissertation is protected by copyright and/or related rights. It has been brought to you by the The Research Repository @ WVU with permission from the rights-holder(s). You are free to use this Dissertation in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you must obtain permission from the rights-holder(s) directly, unless additional rights are indicated by a Creative Commons license in the record and/ or on the work itself. This Dissertation has been accepted for inclusion in WVU Graduate Theses, Dissertations, and Problem Reports collection by an authorized administrator of The Research Repository @ WVU. For more information, please contact [email protected]. Form in the Music of John Adams Michael Ridderbusch DMA Research Paper submitted to the College of Creative Arts at West Virginia University in partial fulfillment of the requirements for the degree of Doctor of Musical Arts in Music Theory and Composition Andrew Kohn, Ph.D., Chair Travis D. Stimeling, Ph.D. Melissa Bingmann, Ph.D. Cynthia Anderson, MM Matthew Heap, Ph.D. School of Music Morgantown, West Virginia 2017 Keywords: John Adams, Minimalism, Phrygian Gates, Century Rolls, Son of Chamber Symphony, Formalism, Disunity, Moment Form, Block Form Copyright ©2017 by Michael Ridderbusch ABSTRACT Form in the Music of John Adams Michael Ridderbusch The American composer John Adams, born in 1947, has composed a large body of work that has attracted the attention of many performers and legions of listeners.
    [Show full text]
  • 1 Luigi Nono's Transformation, Creation, and Discovery of Musical Space
    Luigi Nono's transformation, creation, and discovery of musical space Hyun Höchsmann [Visiting Professor, East China Normal University, Shanghai] Abstract: It is the inaudible, the unheard that does not fill the space but discovers the space, uncovers the space as if we too have become part of sound and we were sounding ourselves (Luigi Nono). Emphasising the necessity for contemporary music to 'intervene in the sonic reality of our time', Nono strove to expand the conception of musical space in three directions: the transformation of non-musical space with the performance of his music in factories and prisons, the creation of a new musical space for the opera, Prometeo, and the discovery of the inner musical space of sound and silence, 'the inaudible, the unheard', in which we 'become part of sound' and we are 'sounding ourselves'. Nono aimed at 'the composition of music that wants to restore infinite possibilities in listening today, by use of non- geometrical space'. With the conception of opera as 'azione scenica' (stage activity) and a 'theatre of consciousness', Nono's 'musical space' for the performance of Prometeo was realised within a colossal wooden structure (by Renzo Piano) combining the stage, the set, and the orchestra pit into a single element. With the conviction that it is the composer's and the listener's responsibility to recognise how every sound is politically charged by its historical associations, Nono affirmed the simultaneity of musical invention and moral commitment and political action for justice and freedom. _____________________________________________ 'A new way of thinking music' To wake up the ear, the eyes, human thinking, intelligence, the most exposed inwardness.
    [Show full text]
  • Teaching Post-Tonal Music to Twenty-First- Century Students Author(S): Miguel A
    Department of Music Theory, Jacobs School of Music, Indiana University A Pedagogical and Psychological Challenge: Teaching Post-Tonal Music to Twenty-First- Century Students Author(s): Miguel A. Roig-Francolí Source: Indiana Theory Review, Vol. 33, No. 1-2 (Summer 2017), pp. 36-68 Published by: Indiana University Press on behalf of the Department of Music Theory, Jacobs School of Music, Indiana University Stable URL: https://www.jstor.org/stable/10.2979/inditheorevi.33.1-2.02 Accessed: 03-09-2018 01:27 UTC JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact [email protected]. Your use of the JSTOR archive indicates your acceptance of the Terms & Conditions of Use, available at https://about.jstor.org/terms Indiana University Press, Department of Music Theory, Jacobs School of Music, Indiana University are collaborating with JSTOR to digitize, preserve and extend access to Indiana Theory Review This content downloaded from 129.74.250.206 on Mon, 03 Sep 2018 01:27:00 UTC All use subject to https://about.jstor.org/terms A Pedagogical and Psychological Challenge: Teaching Post-Tonal Music to Twenty-First-Century Students Miguel A. Roig-Francolí University of Cincinnati ost-tonal music has a pr problem among young musicians, and many not-so-young ones. Anyone who has recently taught a course on the theory and analysis of post-tonal music to a general Pmusic student population mostly made up of performers, be it at the undergraduate or master’s level, will probably immediately understand what the title of this article refers to.
    [Show full text]
  • 2013-Pressrelease-OKTOPHONIE
    Park Avenue Armory Adds Two Performances for Karlheinz Stockhausen’s electronic masterpiece OKTOPHONIE, presented in a lunar environment created by Rirkrit Tiravanija Due to Overwhelming Demand Additional Performances Added, March 23 & 25 New York, NY—February 28, 2013—Due to overwhelming initial demand stemming from the 2013 artistic season announcement, Park Avenue Armory announced today the addition of two performances of the New York premiere of Karlheinz Stockhausen’s OKTOPHONIE. Part of Stockhausen’s magnum opus “Licht” (or “Light”) OKTOPHONIE is a trailblazing electronic music experience where the audience is surrounded by eight groups of loudspeakers, enveloping them in a sonic environment. OKTOPHONIE, which will be performed by one of his original collaborators Kathinka Pasveer, exemplifies Stockhausen’s work as a compositional pioneer who grappled with spatial music as he bent the rules and redefined the listening experience. Staging the work as the composer originally intended—in outer space—Rirkrit Tiravanija has been commissioned by the Armory to create a ritualized lunar experience, a floating seating installation within the Armory’s soaring drill hall that heightens the listeners’ octophonic experience and transports them to another realm. The audience will don white cloaks for the journey, carried along by the all- encompassing score, itself a meditation on the transformation from plunging darkness into blinding light. The Armory’s 2013 season will also include WS, a monumental installation by Paul McCarthy; The Machine, a play by one of Britain’s fastest rising young playwrights, Matt Charman, that chronicles Garry Kasparov’s 1997 chess game against IBM’s Deep Blue super-computer, a contest that set man against machine; Massive Attack V Adam Curtis, a new kind of imaginative experience conceived by Adam Curtis and Robert Del Naja mixing music, film, politics, and moments of illusion, performed by Massive Attack and special guests; and Robert Wilson’s powerful new staging of The Life and Death of Marina Abramović.
    [Show full text]
  • Major Heading
    THE APPLICATION OF ILLUSIONS AND PSYCHOACOUSTICS TO SMALL LOUDSPEAKER CONFIGURATIONS RONALD M. AARTS Philips Research Europe, HTC 36 (WO 02) Eindhoven, The Netherlands An overview of some auditory illusions is given, two of which will be considered in more detail for the application of small loudspeaker configurations. The requirements for a good sound reproduction system generally conflict with those of consumer products regarding both size and price. A possible solution lies in enhancing listener perception and reproduction of sound by exploiting a combination of psychoacoustics, loudspeaker configurations and digital signal processing. The first example is based on the missing fundamental concept, the second on the combination of frequency mapping and a special driver. INTRODUCTION applications of even smaller size this lower limit can A brief overview of some auditory illusions is given easily be as high as several hundred hertz. The bass which serves merely as a ‘catalogue’, rather than a portion of an audio signal contributes significantly to lengthy discussion. A related topic to auditory illusions the sound ‘impact’, and depending on the bass quality, is the interaction between different sensory modalities, the overall sound quality will shift up or down. e.g. sound and vision, a famous example is the Therefore a good low-frequency reproduction is McGurk effect (‘Hearing lips and seeing voices’) [1]. essential. An auditory-visual overview is given in [2], a more general multisensory product perception in [3], and on ILLUSIONS spatial orientation in [4]. The influence of video quality An illusion is a distortion of a sensory perception, on perceived audio quality is discussed in [5].
    [Show full text]
  • AMRC Journal Volume 21
    American Music Research Center Jo urnal Volume 21 • 2012 Thomas L. Riis, Editor-in-Chief American Music Research Center College of Music University of Colorado Boulder The American Music Research Center Thomas L. Riis, Director Laurie J. Sampsel, Curator Eric J. Harbeson, Archivist Sister Dominic Ray, O. P. (1913 –1994), Founder Karl Kroeger, Archivist Emeritus William Kearns, Senior Fellow Daniel Sher, Dean, College of Music Eric Hansen, Editorial Assistant Editorial Board C. F. Alan Cass Portia Maultsby Susan Cook Tom C. Owens Robert Fink Katherine Preston William Kearns Laurie Sampsel Karl Kroeger Ann Sears Paul Laird Jessica Sternfeld Victoria Lindsay Levine Joanne Swenson-Eldridge Kip Lornell Graham Wood The American Music Research Center Journal is published annually. Subscription rate is $25 per issue ($28 outside the U.S. and Canada) Please address all inquiries to Eric Hansen, AMRC, 288 UCB, University of Colorado, Boulder, CO 80309-0288. Email: [email protected] The American Music Research Center website address is www.amrccolorado.org ISBN 1058-3572 © 2012 by Board of Regents of the University of Colorado Information for Authors The American Music Research Center Journal is dedicated to publishing arti - cles of general interest about American music, particularly in subject areas relevant to its collections. We welcome submission of articles and proposals from the scholarly community, ranging from 3,000 to 10,000 words (exclud - ing notes). All articles should be addressed to Thomas L. Riis, College of Music, Uni ver - sity of Colorado Boulder, 301 UCB, Boulder, CO 80309-0301. Each separate article should be submitted in two double-spaced, single-sided hard copies.
    [Show full text]
  • Low Frequency Spatialization in Electro-Acoustic Music and Tel (02) 9528 4362 Performance: Composition Meets Perception Fax (02) 9589 0547 Roger T
    not ROCKET SCIENCE but REAL SCIENCE Pyrotek Noise Control recognises that the effective specification of a product needs reliable data. As such we are working with some of the world’s leading testing and certification organisations to help support our materials with clear unbiased test data giving a specifier the facts about our products’ performance. With an ongoing research and testing budget we have some interesting data to share. To keep up to date with all the additions to testing we are making, simply contact us for a personal visit or review our website www.pyroteknc.com and sign up for our ‘PRODUCT UPDATE’ emails and we will keep you up to date with our developments. you can hear a pin drop www.pyroteknc.com manufacturing quietness testing_april2014.indd 1 19/03/2014 3:02:43 PM Acoustics Australia EDITORIAL COMMITTEE: Vol. 42, No. 2 August 2014 Marion Burgess, From the Guest Editor.....................................................75 Truda King, Tracy Gowen From the President . .77 From the Chief Editor .....................................................78 PAPERS Acoustics Australia All Editorial Matters Special Issue: AUDITORY PERCEPTION (articles, reports, news, book reviews, new products, etc) Native and Non-Native Speech Perception The Editor, Acoustics Australia Daniel Williams and Paola Escudero. .........................................79 c/o Marion Burgess In Thrall to the Vocabulary [email protected] www.acoustics.asn.au Anne Cutler. ............................................................84 Active Listening: Speech Intelligibility in Noisy Environments General Business Simon Carlile . ...........................................................90 (subscriptions, extra copies, back issues, advertising, etc.) Auditory Grammar Mrs Leigh Wallbank Yoshitaka Nakajima, Takayuki Sasaki, Kazuo Ueda and Gerard B. Remijn. 97 P O Box 70 OYSTER BAY NSW 2225 Low Frequency Spatialization in Electro-Acoustic Music and Tel (02) 9528 4362 Performance: Composition Meets Perception Fax (02) 9589 0547 Roger T.
    [Show full text]
  • Thesis Is Presented in Partial Fulfilment of the Requirements for the Doctor of Musical Arts
    Redefining Moments: Interpreting Flexible Moment Form in the Late Solo Works of Franco Donatoni Ashley William Smith B.Mus (Hons.)W.Aust, M.Mus Yale This thesis is presented in partial fulfilment of the requirements for the Doctor of Musical Arts University of Western Australia Conservatorium of Music 2020 i Thesis Declaration I, Ashley William Smith, certify that: This thesis has been substantially accomplished during enrolment in this degree. This thesis does not contain material which has been submitted for the award of any other degree or diploma in my name, in any university or other tertiary institution. In the future, no part of this thesis will be used in a submission in my name, for any other degree or diploma in any university or other tertiary institution without the prior approval of The University of Western Australia and where applicable, any partner institution responsible for the joint-award of this degree. This thesis does not contain any material previously published or written by another person, except where due reference has been made in the text. This thesis does not violate or infringe any copyright, trademark, patent, or other rights whatsoever of any person. Third party editorial assistance was provided in preparation for this thesis by Laura Biemmi. This thesis does not contain work that I have published, nor work under review for publication. 3 March, 2020 ii Portfolio Components Required Material i) A dissertation of 37,000 words ii) Two recitals: Donatoni in Context, presented on 22 May 2016 at the University of Western Australia (DVD1) The Walk of Shame, presented on 16 June 2019 at the University of Western Australia (DVD2) iii) A lecture recital: Redefining Moments: An Introduction to Moment Form Theory, presented on 25 February 2020 at the University of Western Australia (DVD3) Supplementary Material iv) Recital Program (DVD1).
    [Show full text]
  • Framing Spatial Music: Approaching Spatialisation Through ‘Musical Paintings’
    Framing Spatial Music: Approaching spatialisation through ‘musical paintings’. I. Costabile Postgraduate Researcher at the Department of Music, University of Liverpool Keywords: Spatial music, mixed-media, sound art Abstract. This paper presents an on-going project that is concerned with the development of new formats for the exhibition of mixed-media and spatial music works in art galleries. This project was developed as part of practice-based research in composition that investigates new aesthetic possibilities of sound spatialisation. A variety of unique spaces have been designed to the experience of sound spatialisation in galleries, from Bernhard Leitner’s architectural works in the 1970s to the present, where a variety of multichannel installations continue to be exhibited worldwide. The dimensions of these spaces can be extensive, requiring the use of many loudspeakers, but it can also be minimal. This new project focuses on the latter possibility, taking as a starting point the aesthetics of traditional painting. It attempts to recreate an analogy to the spatialisation of visual objects inside a frame, exchanging visual material for sound. A ‘musical painting’, a term suggested by the author due to its hybrid form, is composed by the spatialisation of sound inside a small area, in which the spectators position themselves in front of the sound field to experience the composition. These pieces are comprised of an array of loudspeakers and a compact multichannel system hidden behind a canvas. This approach offers a range of possibilities to the field of composition and sound art, as it can be representative (e.g. soundscapes), performative, interactive or conceptual.
    [Show full text]
  • Kreuzspiel, Louange À L'éternité De Jésus, and Mashups Three
    Kreuzspiel, Louange à l’Éternité de Jésus, and Mashups Three Analytical Essays on Music from the Twentieth and Twenty-First Centuries Thomas Johnson A thesis submitted in partial fulfillment of the requirements for the degree of Master of Arts University of Washington 2013 Committee: Jonathan Bernard, Chair Áine Heneghan Program Authorized to Offer Degree: Music ©Copyright 2013 Thomas Johnson Johnson, Kreuzspiel, Louange, and Mashups TABLE OF CONTENTS Page Chapter 1: Stockhausen’s Kreuzspiel and its Connection to his Oeuvre ….….….….….…........1 Chapter 2: Harmonic Development and The Theme of Eternity In Messiaen’s Louange à l’Éternité de Jésus …………………………………….....37 Chapter 3: Meaning and Structure in Mashups ………………………………………………….60 Appendix I: Mashups and Constituent Songs from the Text with Links ……………………....103 Appendix II: List of Ways Charles Ives Used Existing Musical Material ….….….….……...104 Appendix III: DJ Overdub’s “Five Step” with Constituent Samples ……………………….....105 Bibliography …………………………………........……...…………….…………………….106 i Johnson, Kreuzspiel, Louange, and Mashups LIST OF EXAMPLES EXAMPLE 1.1. Phase 1 pitched instruments ……………………………………………....………5 EXAMPLE 1.2. Phase 1 tom-toms …………………………………………………………………5 EXAMPLE 1.3. Registral rotation with linked pitches in measures 14-91 ………………………...6 EXAMPLE 1.4. Tumbas part from measures 7-9, with duration values above …………………....7 EXAMPLE 1.5. Phase 1 tumba series, measures 7-85 ……………………………………………..7 EXAMPLE 1.6. The serial treatment of the tom-toms in Phase 1 …………………………........…9 EXAMPLE 1.7. Phase two pitched mode ………………………………………………....……...11 EXAMPLE 1.8. Phase two percussion mode ………………………………………………....…..11 EXAMPLE 1.9. Pitched instruments section II …………………………………………………...13 EXAMPLE 1.10. Segmental grouping in pitched instruments in section II ………………….......14 EXAMPLE 1.11.
    [Show full text]
  • History of 3D Sound
    HISTORY OF 3D SOUND BRAXTON BOREN American University Introduction The history of 3D sound is complicated by the fact that, despite how much the concept may appear to be a late-20th century technological buzzword, it is not at all new. Indeed, just as Jens Blauert famously reminded us that “there is no non-spatial hearing” (Blauert, 1997), so too due to the nature of our world all sound is inherently three-dimensional (Begault, 2000). For the majority of human history the listener – the hunter in the field, a singing congregant within a cavernous stone church, or the audience member at a live performance – perceived sound concomitantly with its spatial setting. In this sense it is the late-20th century view that is out of step with historical sound perception. The advent of audio recording in the 19th century led to the development of zero-dimensional (mono) sound, and later one-dimensional (stereo), and two-dimensional (quad and other surround formats) reproduction techniques. Due to the greater sensitivity of the human auditory system along the horizontal plane, early technology understandably focused on this domain. Our capability to mechanically synthesize full 3D auditory environments is relatively recent, compared to our long history of shaping sound content and performance spaces. The effect of physical space is not limited to the perceived physical locations of sounds – different spaces can also affect music in the time domain (e.g. late reflection paths) or frequency 1 domain (by filtering out high-frequency content). Often a listener’s experience of a space’s effect on sound – such as singing in the shower or listening to a choir in a reverberant stone church – is describing primarily non-localized qualities, which could be captured more or less in a monaural recording.
    [Show full text]