Problem 8

Question 1

Auditory space

Answer 1

Sounds of different locations

–> exists all around

Question 2

Auditory localization

Answer 2

Locating of sound sources in auditory space

–> sounds stimulate the cochlea based on their sound frequencies, which causes a pattern of nerve firing

Question 3

Localization cues

Answer 3

a) binaural cues

b) monaural cues

Question 4

Azimuth/

Horizontal

Answer 4

Dimension that extends from left to right

Question 5

Elevation/

Vertical

Answer 5

Dimension that extends up and down

Question 6

Distance

Answer 6

Distance of the sound source to the listener

Question 7

Binaural cues

Answer 7

Use information reaching both ears to determine the azimuth of sounds

–> sounds that are of to the side, reach one ear faster and is therefore louder there

Question 8

Inter aural time difference

ITD

Answer 8

Difference between WHEN a sound reaches the left ear + when it reaches the right one

• -> ITD locates low frequencies
• -> judge the azimuth

Question 9

Inter aural level difference

ILD

Answer 9

Difference in the SOUND PRESSURE level/ the level of sound reaching the two ears

• -> ILD locates high frequencies
• -> judge the azimuth

Question 10

Acoustic shadow

Answer 10

Refers to the head being a barrier

–> reduces the intensity of high frequency sounds that reach the far ear

Question 11

Cone of confusion

Answer 11

Points on this cone have the same ILD + ITD

–> thus, ITD + ILD provide ambiguous info about the elevation of a sound source

Question 12

Monaural cues

Answer 12

Use information of only one ear to determine the elevation of sounds

Question 13

Spectral cue

Answer 13

Primary monaural cue

–> info for localization is contained in the differences in the distribution of frequencies that reach each ear

Question 14

Why are there differences in frequency distribution reaching each ear ?

Answer 14

Because before the sound enters the auditory canal, it is reflected from the head + within the various folds of pinnae

Question 15

Jefress Model of auditory localization

Answer 15

Neurons are wired so they each receive signals from the 2 ears

–> at the beginning neurons only receive signals from either ear, if signals then reach a neuron together it will fire

Question 16

Coincidence neurons

Answer 16

Neurons that only fire when both signals coincide by arriving at the neuron simultaneously

–> each neuron responds best to a specific ITD

—> presented in the superior + inferior colliculei

Question 17

Binaural localization

Answer 17

Based on

a) sharply tuned neurons for birds
b) broadly tuned neurons for mammals

Question 18

Place code

Answer 18

ITD is indicated by the firing of neurons at a specific place

–> code for birds

Question 19

Distributed code

Answer 19

ITD is determined by the firing of many broadly tuned neurons working together

–> code for mammals

=> broadly tuned neurons in the right hemisphere respond best to sound coming from the left and vice versa

Question 20

Which cortical areas provide information about the location of sound sources ?

Answer 20

• A1 area to a small extent

- Neurons in the belt area provide most precise + detailed info

Question 21

Auditory what pathway

Answer 21

Starts in the anterior part of the core + belt

• -> extends to the prefrontal cortex
• -> responsible for identifying sounds

Question 22

Auditory where pathway

Answer 22

Starts in the posterior part of the core + belt

• -> extends into the prefrontal cortex
• -> responsible for locating sounds

Question 23

Direct sound

Answer 23

Sound reaching the ears directly from where it originated

Question 24

Indirect sound

Answer 24

Sound reaching the ears from different locations

Question 25

Precedence effect

Answer 25

We generally perceive sound as coming from its source, rather than from many different directions at once

Question 26

Reverberation time

Answer 26

The time it takes for a sound to decrease to 1/1000th of its original pressure

–> it this time is too long it may echo, which is difficult to localize

Question 27

Auditory scene

Answer 27

Array of sound sources at different locations in the environment

Question 28

Which cues help separating sound sources ?

Answer 28

a) location cue

b) onset time
- -> if 2 sounds start at slightly different times, they’re from diff. locations

c) Pitch + timbre
- -> sounds having same pitch have same location

d) Auditory continuity
e) melody schema
f) pitch proximity

Question 29

Melody schema

Answer 29

Representation of a familiar melody that is stored in a persons memory

Question 30

Auditory continuity

Answer 30

Sounds with the same frequency or smoothly changing frequencies are perceived as continuous

–> even when they are interrupted by a different stimulus

Question 31

Signal transmission from cochlea to the parabelt area

Answer 31

–> Signals are transmitted out of the cochlea toward the auditory receiving area by synapsing in

1. cochlear nucleus
2. Superior Olivary Nucleus
3. Inferior Colliculus
4. Medial Geniculate Nucleus
   (SONIC MG)
5. auditory receiving area

–> Signals then travel to

a) core area
b) belt area
c) parabelt area

Question 32

Auditory scene analysis

Answer 32

Process by which the stimuli produced by each of the sources in the scene are separated

Question 33

Scale illusion

Answer 33

The idea that if you present tones to each ear that jump up and down you will perceive them as smooth

Question 34

Harmonicity

Answer 34

Grouping based on harmonical relationships to the fundamental

–> if you’ve a fundamental with harmonics that are close together you are more likely to group them together

Question 35

Pitch proximity

Answer 35

The hearer tends to link successive tones that are close in pitch and to separate those that are further apart

–> particularly salient when presented at rapid speed

Question 36

Franssen effect

Answer 36

When a loudspeaker presents a tone of abrupt onset, brief duration and another presents a tone of long duration, the listener will perceive the two tones as a single entity coming from the speaker that produces the abrupt tone

–> incorrect localization of a sound

Question 37

Conductive hearing loss

Answer 37

Damage to outer or middle ear

–> hearing aid is needed

Question 38

Sensorineural hearing loss

Answer 38

Damage to hair cells and/or auditory nerves

• -> cochlear implant
• -> auditory stem implant

Question 39

Hidden hearing loss

Answer 39

Difficulty concentrating on a sound when background noise is present

–> most prevalent in adolescents