Week 10 pt.2 : Music perception

Question 1

Music is…

Answer 1

• Ordered sound made and perceived by human beings, created in meaningful patterns
• Perhaps richest stimulus in our environment, comprising complex relationships, hierarchically structured timings & a multitude of timbres, which create a wide variety of styles and sounds

Question 2

Music listening, experts vs non-experts:

Answer 2

• Neuro-imaging results show brain regions that are selectively active during music listening in both musicians and non-musicians
• higher activity in musician, suggesting an effective experience
• The same areas are active in both groups which means that the network of areas that react to music are present in the brain, even in the absence of any formal training

Question 3

Musical range

Answer 3

• music is played in the range of 5,000Hz - 27.5Hz (frequency = pitch)
• human singing 1,300Hz - 75Hz
• the fundamental frequency of musical notes does not exceed 5,000Hz but harmonics range higher than this
• These higher harmonics contribute to the experience of timbre
• keyboard lays this out well

Question 4

octave…

Answer 4

• Octave = the interval between one note and a note with either double the frequency, or half the frequency of that note
• E.g. frequency of 220Hz has octaves of 100Hz below it and 400Hz above it
• we hear similarities between these doubled or halved frequencies… we refer to them by the same note name, but at different octaves
• notes at 200Hz ad 220Hz are more similar in pitch but we hear notes at 200Hz and 400Hz as being alike
• Notes that are one octave apart are said to be of the same chroma… this similarity of chroma from one octave to the next is represented by the pitch helix…

Question 5

Pitch chroma

Answer 5

• research suggests that musicians perceive pitch along 2 separable dimensions…
  1. tone height = represents the differences between sound frequencies that allow the listener to separate instruments playing in different frequency ranges (e.g. cello and flute) into different perceptual streams
  2. Tone chroma = based on the structure of western scale and provides basis for presenting melodies that dont depend on the particular instrument… what allows you to recognize a tune as twinkle twinkle little star across the same two instruments
• These 2 dimensions are often depicted using a helix structure… attempts to depict both the change in absolute frequency as you move from top to bottom… but also the fact that tones that are separated by an octave (such as 2 c sharp keys on a piano are chromatically similar)

Question 6

Semitone

Answer 6

• When we add the sharps and flats, we have 12 notes in an octave
• Each adjacent note is called a semitone
• there are 12 semitones in an octave in Western music
• when every note, including the sharps and flats, is played between one octave and the next (every semitone), this is called the chromatic scale

Question 7

equal-temperment scale…

Answer 7

• means that every adjacent note has an identical frequency ratio
• we perceive the difference between each successive semitone as equivalent in terms of difference in pitch to the one before it
• demonstrates Weber’s law (what matters in perception is the ratio, not the absolute difference)
• advantage is that any melody can be played starting on any particular note

Question 8

Harmony, consonance & dissonance

Answer 8

• Harmony = which pitches sound nice when played together
• Consonance = the perception of pleasantness in harmony when 2+ notes are played (notes fit with each other)
• Dissonance = the perception of unpleasantness or disharmony when 2+ notes do not fit together
• Musical context & culture plays a role in our perception of consonance and dissonance

Question 9

Dynamics…

Answer 9

• relative loudness (amplitude) & how loudness changes cross a composition (decibels)
• can create emotion

Question 10

Rhythm

Answer 10

refers to the temporal patterning of the music including…
1. tempo = speed
2. meter = temporal pattern of sound across time (how many beats per measure)
3. beat = spaced pulses that indicate if a piece is fast or slow (4/4 3/4)

Question 11

Timbre

Answer 11

• complex sounds created by harmonics
• e.g. violin and a flute may be playing a note with the same pitch, but it sounds different on each instrument
• attack = beginning buildup of a note
• decay = how long fundamental frequency & harmonics remain at peak loudness

Question 12

pitch sensitive cortex

Answer 12

• computations that give rise to representation of pitch arise from an area just beyond the primary auditory cortex
• right hemisphere more active
• This area has been shown to be pitch sensitive, not frequency sensitive

Question 13

measuring the effect of musical training - ERP’s

Answer 13

• One of the ways in which event related potentials (ERPs) can be used to study auditory processing involves an odd-ball paradigm
• In which, one stimulus called standard is played over and over again, and on occasion a different stimulus called an odd-ball is played
• idea is that if brain activity elicited by the odd-ball stimulus is different from the pattern of brain activity elicited by the standard, than we can assume that the underlying brain regions that produce those waveforms were ale to tell difference between the 2 stimuli
• This difference is illustrated by subtracting one waveform from the other, producing a mismatched response/mismatch negativity

Question 14

Some changes are musical training specific…

Answer 14

• researchers able to show that the brains of musicians are better able to discriminate very small pitch changes than non-musicians
• also able to show the training related benefits that appear to be specific to a musicians instrument

Question 15

music & memory

Answer 15

• study had people come into lab and ask them to sing their favourite song from memory
• Despite receiving no instruction to do so, the majority of ppl sang the song in almost exact pitch in which it was recorded
• Suggesting they were not only encoding and remembering the relative changes in pitch (melody) but also the absolute pitch of the song (actual pitches by recording artists)
• Connections between music and memory can persist despite significant impairment to these cognitive mechanisms

Question 16

Keeping time

Answer 16

• Music perception & production engages and depends upon tight integration between the auditory and motor system which allows us to keep time
• Timekeeping seems to be a uniquely auditory phenomenon
• recent evidence has suggested that other species are able to entrain their movement by keeping time, specifically species that are vocal learners, able to modify their vocalizations in order to improve their species (cockatoo)

Question 17

Music & hearing aids

Answer 17

• music and language overlap entirely, but the difference between the loudest & quietest sounds & frequency range is greater in music than in speech
• so for high frequency hearing loss… a lot of the music is being lost & not as much language
• the way that hearing aids shift info away from regions of damage and toward lower frequency regions can have bad consequences for pitch perception in music
• These frequency compressions can cause terrible pitch distortions that may make music sound even more shitty
• To fix many hearing aids allow user to toggle between modes & include a music listening one where frequency compression is not used

Question 18

Music & cochlear implants

Answer 18

• things even worse for them
• may never be able to have a pleasurable representation of melodic music
• cuz cochlear implants replace the frequency resolution of the hair cells with a small number of electrodes that cannot provide as rich a sound
• so, frequency representations present in sound are not preserved, resulting in a perception that is more like noise than melody

Question 19

Multicolour synesthesia (colour music)

Answer 19

• Synesthesia refers to phenomenon in which stimulation of one sensory pathway leads to involuntary experiences in a second pathway
• the sound of music automatically and consistently elicits the perception of colour
• There is some consistency across different individuals with synesthesia
• Notes separated by an octave elicit very similar colours
• synesthetic perception reflects enhanced patterns of connectivity between the visual and auditory pathways
• Often have near perfect pitch

Question 20

Congenital amusia

Answer 20

• ppl who have severe deficits in musical perception from birth
• typically retain their ability to discriminate changes in frequency, but unable to determine whether shifted note was higher or lower in pitch than the others
• This deficit produces a number of obvious atypical behaviours… Inability to detect pitch changes within a melody & Failure to recognize familiar tunes & Poor pitch reproduction

Question 21

Shepard tones

Answer 21

• illusion occurs when frequency information across a consistent & restricted range causes perception of a sound that seems to rise in pitch forever
• each note is comprised of sound energy at multiple frequencies each of which is an octave apart
• With each successive note played, the frequency of the sounds increases but there is a point when the highest of these frequencies is no longer produced & instead replaced by a new low frequency component
• Auditory system hears a continued upward pitch
• If several are put together, the percept is one of a sound that rises forever
• been used to create effect, across movies and music applications
• like the auditory version of the Barber pole illusion

Question 22

music & evolution…

Answer 22

• No real consensus on what evolutionary pressures drove development of music perception
• Some hypothesis include…. music may have had a positive impact on sexual selection, may have improved pro-social behaviour / it may have co-evolved with dance or tool making
• however these mechanisms evolved, music and language take advantage of similar perceptual systems

Question 23

OPERA (music & language)

Answer 23

• OPERA hypothesis developed to look at the overlap between speech & music
• Particularly to describe why musical training might strengthen these processes and could result in improved speech processing

Question 24

OPERA acronym…

Answer 24

• (O)verlap = refers to fact that many of the areas are common do both systems
• (P)resicion = music places high demand for precision on these systems (e.g. pitch variability is not a big problem in speech but can dramatically affect perception of music)
• (E)motion = listeners tend to invest emotionally in the perception and production of music
• (R)epetition = they do so in a highly repetitive practice structure
• (A)ttention = and one which requires high levels of dedicated attention

Question 25

conclusions of OPERA

Answer 25

• this means music perception & production can tune the systems that underlie speech perception & have behavioural advantages
• across many measures the 2 classes of stimuli are highly similar (e.g. frequency content, dynamic range, harmonic structure, etc.)

Question 26

Music training & enhanced language (FFR)

Answer 26

• can musical training improve the brains ability to perceive speech?
• this has been measured using a frequency following response (FFR)
• the musicians brain activity tracked changes in pitch much more closely than the non-musician
• They observe that the younger the training began the greater the apparent benefit for speech encoding was

Question 27

cultural norms & expectations

Answer 27

• Speech perception and music perception have many components that are highly culturally specific
• The vast majority of the available research focuses on English and the Western musical system