Engineering
Temporary Threshold Shift
100%
Emission Measurement
60%
Human Hearing
51%
Recovery Time
44%
Frequency Characteristic
38%
Similarities
38%
Sound Pressure Level
38%
Exposure Level
38%
Research Councils
37%
Sound Field
35%
Frequency Component
33%
Overexposure
33%
Detailed Model
33%
Acoustic Emission
33%
Free Field
27%
Diffuse Field
27%
Ear Canal
25%
Octave Band
24%
Frequency Resolution
22%
Transients
21%
Mathematical Model
20%
Level Measurement
19%
Energy Engineering
19%
A-Weighting
19%
Frequency Content
16%
Earphone
16%
Output Voltage
16%
Sound Insulation
16%
Construction Types
16%
Spectral Leakage
16%
Objective Evaluation
16%
Subjective Evaluation
16%
Characteristic Time
16%
Impulse Noise
16%
Function of Time
16%
Direct Application
16%
Recovery Process
16%
Illustrates
16%
Magnitude Response
16%
Operating Mode
16%
Statistically Significant Difference
16%
Noise Floor
16%
Loop Mode
16%
Filtration
16%
Hazards
15%
Binaural Recording
15%
Noise Level
13%
Narrowband
11%
Daily Life
11%
Safety Issue
11%
Keyphrases
Hearing Damage
55%
Stereo System
50%
Exposure Level
47%
Stereo
33%
Otoacoustic Emissions
33%
Live music
33%
Impulsive Noise
33%
Recovery Model
33%
Temporary Threshold Shift
33%
Frequency Component
33%
Distortion Product Otoacoustic Emission (DPOAE)
27%
Personal music Players
27%
Listening Habits
25%
Continuous Noise
23%
Emission Measurement
20%
Damage Risk
20%
Recovery Function
16%
Human Effects
16%
Overexposure
16%
Emission Recovery
16%
Frequency Content
16%
Frequency Effect
16%
Artifact Rejection
16%
Young People
16%
Calidad
16%
Dinamics
16%
CoMn
16%
Range Compression
16%
Level Dependence
16%
Analogon
16%
Ferrara
16%
Ratio-dependence
16%
Acoustic Probe
16%
Potential Risk
16%
Low Distortion
16%
Home Entertainment
16%
MP3 Player
16%
Background Noise
16%
Noise Exposure
16%
Walkman
16%
IPod
16%
Music Listening Habits
16%
Exposure Effects
16%
Impulse Noise
16%
Transient Evoked Otoacoustic Emission (TEOAE)
16%
Residual Response
16%
Hearing Status
16%
Time Weight
16%
Frequency Weighting
16%
Spectral Leakage
16%