Psychoacoustics

Question 1

What is psychoacoustic and the main goal of this science?

Answer 1

The psychology in hearing science. The goal is to investigate how the behavior is resulted from the stimuli.

Question 2

In psychoacoustics we investigate…

Answer 2

The relationship (F): how the behaviors (Ω) result from the stimuli (S): Ω= F(S), or what is F.

Question 3

What is the difference between “psychoacoustics” and “Psychophysics”?

Answer 3

Psychacoustics refers to the behavioral consequences of acoustic stimuli, but psychophysics refers to the study of physical stimuli and their interaction with sensory systems.

Question 4

What are the three properties of sound?

Answer 4

Intensity, frequency contents, temporal pattern

Question 5

Position of Psychology in neuroscience: (6)

Answer 5

• It is the start and the end point of neuroscience.
• Brain is initially treated like a black box: the concerns are on the input and output: input=stimuli, output=behavioral consequences.
• The black box is then opened to show which brain structures are likely responsible for behavior.
• Hypotheses are proposed to establish F quantitatively.
• Hypotheses are tested, and F is modified via psychological, neurological, molecular experiments, potential mechanisms underneath F is explored
• Theories developed and matured to explain the behaviors and serve people

Question 6

What are the four functional relationships? (Between S and Ω)

Answer 6

Detection, discrimination, identification, Judging (scaling)

Question 7

Detection refers to:

Answer 7

determining whether the signal is there or not;

Question 8

Discrimination is judging:

Answer 8

a difference when two signals are presented

Question 9

Identification is the ability to:

Answer 9

point out which one is the target signal among other sources

Question 10

Judging is thought of as:

Answer 10

‘scaling’ in which the response is quantified

Question 11

What are the corresponding behaviors (Ω) to the sound properties? (4)

Answer 11

Intensity- loudness
Frequency- Pitch
Temporal pattern- Timing
Combination of frequency, and intensity change with time—timbre -Quality

Question 12

What is considered a high-level process?

Answer 12

Recognition of speech

Question 13

What are the two big categories for these psychoacoustic studies?

Answer 13

Analytic and Individual

Question 14

What is the difference between analytic and individual?

Answer 14

Analytic refers to the roles of the individual acoustic parameters (intensity, frequency, and temporal patterns)

Integrative studies look at how the integration of individual parameters relates to our perception.

Question 15

What is an example of analytic study?

Answer 15

Analytic: how the acoustic parameters are discriminated, identified, and scaled.

Question 16

What is an example for integration studies? (5)

Answer 16

• Sound localization tasks
• Notion of ‘timbre’
• Integration of frequency components
• Intensity and temporal patterns”
• Auditory perception tasks

Question 17

Define integration.

Answer 17

It is the process of neurons across different auditory channels, different types of neurons, and different nuclei, excitation versus inhibition, afferent versus efferent.”

Question 18

What is the difference between a ‘top-down’ and bottom up’ process as it relates to the auditory system?

Answer 18

Top-down means how the experience and knowledge affect what we hear and bottom-up is how what we hear and pick up (the physical feature of sound) affects the perception.

Question 19

Auditory perception: (2)

Answer 19

• Acoustic image in the complex sound field
• Involves top-down process (experience and knowledge already stored)

Question 20

What is another word for ‘limen’?

Answer 20

Threshold

Question 21

What are the three dimensions of auditory ability?

Answer 21

Absolute limen (Detection), Terminal limen, Difference limen (Discrimination)

Question 22

What is the difference between the three dimensions of auditory ability? (3)

Answer 22

• Absolute limen: lower boundary of detection (i.e. minimum or sensitivity)
• Terminal limen: upper boundary of detection (i.e. maximum or limitation)
• Difference limen: the smallest change in some aspect of the stimulus which can be detected

Question 23

What is sensitivity as it relates to hearing thresholds?

Answer 23

Absolute thresholds to sound intensity/pressure—the basic target of hearing evaluation (what we do in audiology audiogram)

Question 24

What are minimum audibility curves?

Answer 24

The sensitivity across frequency range.

Question 25

What is the frequency range of hearing?

Answer 25

20 to 20000Hz

Question 26

What is the terminal threshold?

Answer 26

The upper limit also known as the threshold of discomfort/ threshold of pain

Question 27

What is the dynamic range of hearing?

Answer 27

The threshold between the terminal and minimum audibility curve.

Question 28

Why do we call it dynamic range?

Answer 28

It is “dynamic” considering the loudness changes as a result of sound level changes

Question 29

What is loudness?

Answer 29

Loudness is the perception of sound strength, mainly related to sound level, but also changed by many other factors, such as frequency, duration, the existence of other signals, and tested behaviorly

Question 30

10 dB level change results in ___ times of change in loudness

Answer 30

2

Question 31

What does dynamic range vary with?

Answer 31

Frequency and the largest at the middle frequency

Question 32

What is the difference of the curves between the Terminal threshold curve vs. audibility curve?

Answer 32

Terminal threshold curve is flat, while audibility curve is curved.

Question 33

Briefly, how is the threshold statistically determined?

Answer 33

Not only by guessing but there are multiple trials and the correct percentage.

For “yes/no” method, the criterion is 50%, which does not clearly show this principle.

Question 34

Explain the variability threshold across individuals with normal hearing in testing.

Answer 34

Thresholds can vary by 20 dB across individuals with normal hearing (i.e. normal hearing range from -10 to 10 dB HL)

Question 35

What is test re-test reliability and what is it often given as? (2)

Answer 35

*The variation across different tests on the same groups of subjects.

*The normality is often given as a range (i.e., 10-15 dB in hearing threshold)

Question 36

What does the range 10-15dB depend on for what is obtained when testing hearing?

Answer 36

The range depends on the accuracy of the method and the skill level of the performer.

Question 37

What kind of (shape) graph is the general absolute threshold?

Answer 37

An open V shape (ie it slopes downward as it approaches the middle frequency (lower threshold) and then goes upward (higher thresholds for the higher frequencies)

Question 38

What contributes to the general V shape of the graph of the general absolute threshold?

Answer 38

The middle and external ear resonance, and cochlea (by using bone conduction to determine).

Question 39

How is the cochlea’s contribution tested?

Answer 39

Using bone conduction since is a way to bypass the external and middle ear.

Question 40

What does MAF and MAP stand for?

Answer 40

MAF is the minimum audible field
MAP is minimum audible pressure

Question 41

How is the MAF threshold measured?

Answer 41

Speaker and Calibration in an open field
Binaural
SPLs measured with subject absence

Question 42

How is the MAP threshold measured?

Answer 42

Closed field
Monaural
SPLs measures with coupler.

Question 43

What is the decibel difference between MAF and MAP and how is it accounted for?

Answer 43

There is a 6dB difference with the MAF having a lower threshold than MAP.

Question 44

What are three reasons for the 6dB difference?

Answer 44

1. MAP method eliminates external ear resonance, resulting in an amplification loss.
2. Binaural summation in MAF
3. Physiological noises heard in MAP

Question 45

Why should we need to care about MAF and MAP differences?

Answer 45

Real-ear calibration is not practical in many cases

Question 46

What is a coupler?

Answer 46

A ‘man made’ cube that is meant to mimic the human ear based on impedance characteristics.

Question 47

Why is RETSPL measured?

Answer 47

To ensure the reference is equal across different labs.
(Reference Equivalent Threshold Sound Pressure Level)

Question 48

Which coupler size between 6cc and 2cc is sued for supra-aural earphones, and which is for insert earphones?

Answer 48

6cc for supra-aural (bigger coupler) and 2cc for insert (smaller coupler); Aside from memory aid: Supraaura covers the auricle and inserts as in you insert to the ears.

Question 49

What are the 3 main applications RETSPL is used for?

Answer 49

1) Reference for speaker/earphone calibration in clinic
2) Establishing hearing level using RETSPL zero point- 0 dB HL;
3) Allowance of noise in the previous two

Question 50

What is the difference between SPL, HL and SL (briefly, within the scope of this course)?

Answer 50

SPL: reference of the physical sound pressure
HL: reference of hearing thresholds of normal subjects based on RETSPL (reference equivalent threshold sound pressure level)
SL(sensation level): reference of individual hearing thresholds.

Question 51

When is there more allowance for noise with RETSPL? Why?

Answer 51

When using earphones, they can block out more sound.

This is also why the earphones are better when you are doing a bedside evaluation, that is, an evaluation that is not in the controlled soundproof audio booth but is in a place that has a lot of background noise.

Question 52

What is the way to say the difference threshold as it relates to intensity?

Answer 52

The JDD (just detectable difference)

Question 53

What is Weber’s law?

Answer 53

The JDD a law for sensory discrimination.

Question 54

What is Weber’s law as it relates to intensity?

Answer 54

The slightest intensity difference that can be detected as a function of the amount of intensity

Question 55

What does a smaller delta l mean?

Answer 55

Smaller delta I mean less of a difference is needed for detection

Question 56

As in the class example, what will be the delta I (JDD) if the intensity is 1000, and it is known that I= 10 units and the delta I is 0.5 units?

Answer 56

The answer is 50 units
Because 0.5/10 = 0.05, we have Delta I = 0.05*1000 = 50 units (just cross multiplication)

Question 57

Based on Weber’s law, what was the graphical expectation?

Answer 57

Expect a horizontal line.

Question 58

What is the intensity discrimination for pure tones?

Answer 58

Both Weber’s fraction and JDD in dB will NOT change with base quantity.

Intensity discrimination for pure tones is ~1 dB (or ~0.3 in deltaI/I) .

Question 59

Based on the results, what is Weber’s law described as?

Answer 59

Near missed

Question 60

What did the results show relating to higher sound levels and Weber’s Law? (2)

Answer 60

Better Threshold than what was predicted from Weber’s law.

It slopes downward as in there is a lower delta I or lower JDD

Question 61

What type of sound follows Weber’s law better?

Answer 61

White noise

Question 62

How does the intensity discrimination threshold for white noise compare to pure tone?

Answer 62

The intensity discrimination threshold is smaller for white noise than for pure tones.

Question 63

What are three methods to play the sound for the intensity discrimination task?

Answer 63

Gated pulse tone, continuous tone, and modulating the tone

Question 64

What are possible confounds for the gated pulse tone and continuous tone?

Answer 64

The gated pulse tone relies on short memory
The continuous tone is influenced by adaptation

Question 65

Which method is recommended to overcome the gated pulse tone and continuous tone?

Answer 65

The modulation method

Question 66

Which method is recommended to overcome the gated pulse tone and continuous tone?

Answer 66

The modulation method

Question 67

Which method has a lower threshold between the continuous pedestal compared to the gated method?

Answer 67

The continuous pedestal (squares) method gives a lower threshold.

Question 68

Auditory perception: (2)

Answer 68

• Acoustic image in the complex sound field
• Meaning: involving top-down process (experience and knowledge already stored)

Question 69

What are 3 examples of integration in psychoacoustics?

Answer 69

Timbre
Sound localization
Auditory perception

Question 70

Describe Timbre:

Answer 70

Quality of a complex sound, integration of frequency components, intensity, and temporal patterns

Question 71

Describe Sound Localization:

Answer 71

The use of different cues in intensity, time, and spectrum for locating sound signals

Question 72

Describe Auditory Perception (2):

Answer 72

Acoustic image in a complex sound field
Meaning: involving top-down process (experience and knowledge already stored)

Question 73

How is the configuration of the audibility curve formed?

Answer 73

By the contribution from external and middle ears