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NAB > 4e. Sound Localisation > Flashcards

4e. Sound Localisation Flashcards

1
Q

Sound Localisation

- Degrees

A

2 degrees azimuth

10 degrees elevation

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2
Q

Maximum Detectable Interaural Time Difference

A

660 microseconds

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3
Q

Minimum Detectable Interaural Time Difference

A

10 microseconds

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4
Q

Interaural Time Difference

- Frequency

A

Can be used for localisation of continuous sounds below 1.4kHz, where phase becomes ambiguous

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5
Q

End Bulb of Held Synapse

- Function

A

Preserve temporal information of phase-locking

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6
Q

End Bulb of Held Synapse

- Structure

A

Auditory nerve fibre enveloping a cell form the ventral cochlear nucleus, which is a spherical bushy cell

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7
Q

End Bulb of Held Synapse

- Locations

A
  • Anterior ventral cochlear nucleus (AVCN)
  • Medial nucleus of the trapezoid body (MNTB)
  • Ventral nucleus of the lateral lemniscus
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8
Q

End Bulb of Held Synapse

- Action Potential Components

A
  1. Presynaptic potential (PP) from the large end-bulb
    - Excitatory post synaptic potential (EPSP)
    - Somatic action potential (SAP)
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9
Q

Interaural Time Difference

- Neural Pathway

A
  1. Cochlea
  2. Anterior ventral cochlear nuclei (AVCN)
  3. Spherical bushy cell
  4. Ventral stria (trapezoid body)
  5. Medial superior olive (MSO)

MSO receives information from both AVCNs, which meet in the same cell

Each MSO is tuned to localise sound coming from the direction of the contralateral ear

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10
Q

Interaural Time Difference

- Neural Analysis

A

Cell in the medial superior olive (MSO) uses coincidence detection and delay lines to measure the intramural time differences

Gives a labelled line scheme encoding azimuth

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11
Q

Maximum Interaural Intensity Difference

A

20dB

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12
Q

Interaural Intensity Difference

- Neural Pathway

A
  1. Cochlea
  2. Anterior ventral cochlear nucleus (AVCN)
  3. Globular bushy cells which also receive a giant synapse
  4. Contralateral medial nucleus of the trapezoid body (MNTB)
  5. Sign inverting synapse so that an interneurone can provide inhibitory input to the lateral superior olive (LSO)

The same ISO cell receives excitatory input from the ipsilateral AVCN via a spherical bushy cell

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13
Q

Interaural Intensity Difference

- Output

A

If contralateral intensity is higher than ipsilateral intensity then the LSO output is inhibitory and a weak output is created

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14
Q

Duplex Theory of Sound Localisation in Azimuth

A
  • Interaural time difference

- Interaural intensity difference

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NAB (37 decks)

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