1 Auditory, tactile, and vestibular sensory systems Perceptually relevant characteristics of sound The receptor system: The ear Basic sensory characteristics •Psychophysical scaling and frequency influence •Masking •Noise and hearing Perceptual processing •Alarms •Redundancy and speech
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1 Auditory, tactile, and vestibular sensory systems n Perceptually relevant characteristics of sound n The receptor system: The ear n Basic sensory characteristics.
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Auditory, tactile, and vestibular sensory systems
Perceptually relevant characteristics of sound The receptor system: The ear Basic sensory characteristics
• Psychophysical scaling and frequency influence• Masking• Noise and hearing
Perceptual processing• Alarms • Redundancy and speech
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Physical characteristics of sound
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Perceptually relevant characteristics of sound
Humans sensitive to frequencies between 20 and 20,000 Hz, 0db-140db
Sone= describes relative loudness of tones at a fixed frequency (1,000Hz) , 1 sone = 40 phon
Tone 1= 3 sone,Tone 2 = 6 sone => Tone 2 is twice as loud as Tone 1
Frequency influence: sensitivity is not uniform over range of frequency (reason for loudness button on stereo)
Phon= all tones judged equally loud if measured in phons, tones normalized on the loudness of a 1000Hz tone
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Equal loudness curves, phons
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Basic sensory characteristics
Masking: Sound obscured by other sound• Decreases d’• Minimum difference to ensure sound is heard = 15 dB• Greatest masking when frequencies are similar• Low-pitched sounds mask high-pitch more than
converse– Consonants more susceptible than vowels– Women’s voices more susceptible than men’s
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Basic sensory characteristics (Hearing loss)
Age-related decline in high frequency, particularly for males
Noise induced hearing loss• Loss of sensitivity when noise is present (masking)• Temporary threshold shift (concert effect) 100dB 100
minutes => 60dB shift• Permanent threshold shift, selective loss
• OSHA requires hearing protection plan for weighted average >85 db and reduce noise if above 90 db
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Perceptual processing
Alarms• Guarantee to be heard (30 dB over noise level)• Not exceed danger to hearing (adjust frequency)• Not startle (at least 20 msec rise time)• Not interfere with communication• Should be informative (no more than 6 based on limits
of absolute judgement) • Differentiate based on (rhythm, timbre, envelope, pitch)
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Basic concepts in alarm design
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Perceptual processing
Voice alarms• More informative• More confusing with voice communication• Susceptible to masking• Meaning may not be universal (Pull up)
Addressing the problem of false alarms• Make adjustable (Beta)• Increase sensitivity (d’)• Train to accept• Graded alert rather than binary
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Perceptual processing: Bottom up/Top down
Bottom up: Interpretation of stimulus driven by data in the world
Top down: Interpretation of stimulus driven by knowledge in the head
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Speech communication
Bottom up: Articulation index• Reflects the signal to noise ratio• Weighted average that reflects the frequency content
of speech
Top down: Speech intelligibility index• Adjusts for redundancy in vocabulary• More likely to misunderstand word in unconstrained