Wikia

Psychology Wiki

Deutsch's scale illusion

Talk0
34,117pages on
this wiki
Revision as of 06:50, January 31, 2009 by Dr Joe Kiff (Talk | contribs)

(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)

Assessment | Biopsychology | Comparative | Cognitive | Developmental | Language | Individual differences | Personality | Philosophy | Social |
Methods | Statistics | Clinical | Educational | Industrial | Professional items | World psychology |

Cognitive Psychology: Attention · Decision making · Learning · Judgement · Memory · Motivation · Perception · Reasoning · Thinking  - Cognitive processes Cognition - Outline Index


File:Diana deutsch scale fig3b.jpg
Deutsch's Scale Illusion

Discovered by Diana Deutsch in 1973, Deutsch's scale illusion is an auditory illusion produced by simultaneous ascending and descending major scales beginning in separate stereo channels with each successive note being switched to the opposite channel. With the left channel: C'-D-A-F--A-D-C'; and the right: C-B-E-G-E-B-C; the ear hears both: C'-B-A-G--A-B-C'; and: C-D-E-F--E-D-C. The tones are equal-amplitude sine waves, and the sequence is played repeatedly without pause at a rate of four tones per second. (Listen to the Stereo Sound Example linked below.)

When listening to the illusion over headphones, most right-handers hear a melody corresponding to the higher tones as on the right and a melody corresponding to the lower tones as on the left. When the earphone positions are reversed, the higher tones continue to appear to be coming from the right and the lower tones from the left. Other people experience different illusions, such as the higher tones on the left and the lower tones on the right, or a pattern in which the sounds appear to be localized in different and changing ways. Right-handers and left-handers differ statistically in how the scale illusion is perceived.

As with all (most?) other sensory illusions, they are the result of the actions of the brain to "clean" the data it's fed in order to make sense of it. In this case, it perceives 2 logical signals each made of half of the notes, as opposed to a string of random occurences for each note. Whenever there is a correlation, the brain tries to make a pattern out of it. The pattern may not be 100% accurate or what the original sender intended it to be, but it usually is accurate enough for a species to evolve training its natural neural net. Any crude signal processor can be fooled. Any complex signal processor may be too complex, big, expensive, slower than realtime etc. to be of any practical use. Practical, in our case, meaning balancing costs/efficency to assure survival/evolution.

ReferencesEdit

  • Deutsch, D. (1974). An illusion with musical scales. Journal of the Acoustical Society of America 56: s25. Abstract
  • Deutsch, D. (1975). Two-channel listening to musical scales. Journal of the Acoustical Society of America 57: 1156-1160. Abstract PDF Document
  • Deutsch, D. (1975). Musical Illusions. Scientific American 233: 92-104.
  • Deutsch, D. (1979). Binaural integration of melodic patterns. Perception & Psychophysics 25: 399-405. PDF Document
  • Deutsch, D. (1983). Auditory illusions, handedness, and the spatial environment. Journal of the Audio Engineering Society 31: 607-618.
  • Deutsch, D. (1985). Dichotic Listening to Melodic Patterns and Its Relationship to Hemispheric Specialization of Function. Music Perception 3: 127-154. PDF Document
  • Deutsch, D. (1987). Illusions for Stereo Headphones.. Audio Magazine: 36-48. PDF Document
  • Radvansky GA, Hartmann WM, Rakerd B. (1992). Structural alterations of an ambiguous musical figure: the scale illusion revisited. Perception & Psychophysics 52 (3): 256-62.
  • Deutsch, D. (1999). Grouping mechanisms in music. In D. Deutsch (Ed.). The psychology of music, 2nd Edition: 299-348. PDF Document

External linksEdit

This page uses Creative Commons Licensed content from Wikipedia (view authors).
Advertisement | Your ad here

Around Wikia's network

Random Wiki