Pierre Schaeffer
According to Schaeffer:This unit of sound ound-objectis the equivalent to a unit of breath or articulation, a unit of instrumental gesture. The sound object is therefore an acoustic action and intention of listening.Schaeffer believed that the sound object should be free from its sonic origin (its sound source, or source bonding) so that a listener could not identify it, what he termed as
1. A sonic entity is detected by its signal being picked up by the autonomous mechanism of hearing (ouïr) 2. The signalled sonic entity (having been detected) 'sound character' is deciphered by the active perception of listening (écouter) 3. The signalled sonic entity is then subjected to a twofold focused attention that judges then describes it 4. The signalled sonic entities' significance is then understood by abstraction, comparison, deduction and by linking it to different sources and types (either the initial meaning is confirmed or if denied an additional meaning is worked out.This leads to the acousmatic situation that is focused on subjective "listening itself which becomes the phenomena under study" rather than the object sound source. Music theorist Brian Kane, in his book ''Sound Unseen'' notes that Schaeffer states, "the sound object, is never revealed clearly except in the acousmatic experience.” Schaeffer's theory of acousmatic experience, the sound object, and a technique he called reduced listening (''écoute réduite'') utilizes a phenomenological approach derived from the work of
Curtis Roads
Curtis Roads, in his 2001 book ' Microsound', while attributing the origin of the term to Pierre Schaeffer, describes the sound object as "a basic unit of musical structure, generalizing the traditional concept of note to include complex and mutating sound events on a time scale ranging from a fraction of a second to several seconds." This broader interpretation includes the following categories of sound objects:1. ''Infinite'' The ideal time span of mathematical durations such as the infinite sine waves of classical Fourier analysis. 2. ''Supra'' A time scale beyond that of an individual composition and extending into months, years, decades, and centuries. 3. ''Macro'' The time scale of overall musical architecture or form, measured in minutes or hours, or in extreme cases, days. 4. ''Meso'' Divisions of form. Groupings of sound objects into hierarchies of phrase structures of various sizes, measured in minutes or seconds. 5. ''Sound object'' A basic unit of musical structure, generalizing the traditional concept of note to include complex and mutating sound events on a time scale ranging from a fraction of a second to several seconds. 6. ''Micro'' Sound particles on a time scale that extends down to the threshold of auditory perception (measured in thousandths of a second or milli-seconds). 7. ''Sample'' The atomic level of digital audio systems: individual binary samples or numerical amplitude values, one following another at a fixed time interval. The period between samples is measured in millionths of a second (microseconds). 8. ''Subsample'' Fluctuations on a time scale too brief to be properly recorded or perceived, measured in billionths of a second (nanoseconds) or less. 9. ''Infinitesimal'' The ideal time span of mathematical durations such as the infinitely brief delta functions."
Trevor Wishart
English composerGiven that we have established a coherent aural image of a real acoustic space, we may then begin to position sound-objects within the space. Imagine for a moment that we have established the acoustic space of a forest (width represented by the spread across a pair of stereo speakers, depth represented by decreasing amplitude and high-frequency components and increasing reverberation) then position the sounds of various birds and animals within this space.
Denis Smalley
"I have developed the concepts and terminology of ''spectromorphology''as tools for describing and analysing listening experience… A ''spectromorphological'' approach sets out spectral and morphological models and processes, and provides a framework for understanding structural relations and behaviours as experienced in the temporal flux of the music."An important aspect of spectromorphology is, what Smalley calls ‘source bonding’, which he describes as the duality of any given listening situation. According to Smalley sound objects have an extrinsic nature if its source bonding remains intact, but if not, it has a sonic characteristic that is intrinsic in nature. The condition in which a sound object has an intrinsic or extrinsic source bonding depends on the experiences of the listener.
References
{{Pierre Schaeffer Electronic music Musical techniques