Fundamentals of Sensation and Perception

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Presentation transcript:

Fundamentals of Sensation and Perception Sound and the ears Erik Chevrier October 6th, 2015

Videos The Four Ways Sound Affects Us The Mad Scientist of Music Orchestra in my Mouth Unlocking Music With Neuroscience Music on the Brain

What is Sound? Physical definition Perceptual definition Sound is pressure changes in the air (or other medium) Perceptual definition The experience we have when we hear

Physical and Perceptual Dimensions of Sound Frequency Amplitude Waveform Pitch Loudness Timbre

Physical and Perceptual Dimensions of Sound Periodic sound waves Cycles of compression and rarefaction repeat in a regular, or periodic, fashion Pure tone Simplest periodic soundwave (sine wave or sinusoid)

Frequency and Pitch Related to pitch Expressed in units called Hz High frequency = High pitch Expressed in units called Hz Number of cycles/second 1 000 Hz = 1 000 cycles/second Range of young adult hearing 20Hz – 20 000Hz

Amplitude and Loudness Amplitude of a pure tone is the difference between the maximum and minimum sound pressure in the wave Amplitude is related to loudness Expressed in: Decibels (dB) (Micro) Pascals Watts per square metre

Amplitude and Loudness dB SPL = 20log(p/po) P = Micropascals Po = 20uPa = Pressure of 1 000 Hz tone at threshold Example 20 000 Micropascals dB = 20 log(20 000/20) dB = 20 log (1000) dB = 20 X 3 dB= 60

Audibility Curve

Equal Loudness Contours A curve showing the amplitude of tines at different frequencies that sound equally loud Phon The numerically equal to the amplitude of a 1 000 Hz 1 000Hz tone at 10 dB = 10 Phons 1 000Hz tone at 20 dB = 20 Phons

Waveform and Timbre Fourier analysis Fundamental frequency A mathematical procedure for decomposing a complex waveform into a collection of sine waves with various frequencies and amplitudes Fundamental frequency The frequency of the lowest-frequency component of a complex waveform; determines the perceived pitch of the sound

Waveform and Timbre Harmonic Timbre Each component of frequency of a complex waveform that is an integer multiple of the fundamental frequency Fundamental frequency = 1st harmonic Twice the fundamental frequency = 2nd harmonic Three times the fundamental frequency = 3rd harmonic Overtones = second + harmonics Timbre Difference between the quality of two sounds with the same pitch and loudness

Timbre Attack and decay also play a factor in timbre Illusion of the missing fundamental

Inverse Square Law The energy of sound decreases in proportion to the square of the distance from the source

The Ear

Middle Ear

Cochlea Perilymph Round Window A fluid that fills the tympanic and vestibular canals Round Window Relief valve at the base of the tympanic canal

Basilar Membrane

Organ of Corti Inner Hair Cells Outer Hair Cells Each hair cell has about 50 – 150 stereocilia Inner Hair Cells 3 500 inner hair cells Pear shaped Stereocilia not attached to tectorial membrane Most important for transduction Outer Hair Cells 3 rows of about 12 000 outer hair cells Cylindrical Stereocilia attached to tectorial membrane Amplify and sharpen responses of inner hair cells Auditory Nerve Type 1 – 95% - Thick myelinated Type 2 – 5% - Thinner unmylenated

Stereocilia

Videos Cymatics Orchestra in my Mouth Unlocking Music With Neuroscience Music on the Brain Transmission of Sound – Animated Video The Human Cochlea – Animated Video Organ of Corti – Animated Auditory Transmission – Animated Video

Video Lessons Auditory Structure Auditory Processing How Sound is Transferred to the Inner Ear

Discussion Describe the patterns of complex waveforms that could be heard at: A dance club A sporting event On a beach At a construction site

Neural Representation of Frequency and Amplitude Place code for frequency Temporal code for frequency

Place Code For Frequency

Place Code For Frequency - Evidence

Place Code For Frequency - Evidence

Temporal Code

Amplitude Representation

Disorders of Audition Tinnitus Conductive Hearing Impairments A persistent perception of sound (ringing or buzzing) not caused by actual sound. Conductive Hearing Impairments Loss of sound conduction to the cochlea as a result of problems in the outer or middle ear Sensorineural Hearing Impairments Hearing impairments caused by damage to the cochlea, the auditory nerve, or the auditory pathways of the brain Aging Noise induced

Age related Sensorineural impairments

Effects of Hair Cell Death and Hearing Level

Cochlear Implants Cochlear Implants

Questions?