Keyphrases
Classical Noise
6%
Cochlear Implant
6%
Cochlear Implant Technology
6%
Cochlear Implant Users
100%
Deaf children
6%
Deep Denoising Autoencoder
100%
Deep Learning Methods
6%
Denoising Autoencoder Model
6%
Environment-aware
100%
Implementation Cost
6%
Intelligibility Test
13%
Knowledge Transfer
100%
Listening Test
13%
Model Layer
6%
Noise Classification
100%
Noise Reduction
6%
Noise Reduction Algorithm
6%
Noise Reduction System
100%
Noise-independent
13%
Noisy Conditions
6%
Number of Parameters
20%
Objective Evaluation
6%
Objective Test
6%
Perceptual Evaluation of Speech Quality
13%
Performance Gain
6%
Performance Rate
6%
Short-time Objective Intelligibility
13%
Speech Intelligibility
6%
Subjective Listening Tests
6%
Successful Implementation
6%
T-distributed Stochastic Neighbor Embedding (t-SNE)
6%
T-S Model
6%
Transfer Approach
100%
Transfer Technology
26%
Usability Study
100%
User-centric
100%
Using Knowledge
6%
Computer Science
Deep Learning Method
6%
Denoising Autoencoder
100%
Development Approach
100%
Experimental Result
6%
Knowledge Transfer
100%
Noise Reduction Algorithm
6%
Noisy Condition
6%
Performance Gain
6%
Successful Implementation
6%
Test Condition
6%
Usability Study
100%
Medicine and Dentistry
Cochlear Implant
100%
Health Care Cost
12%
Noise Reduction
100%
Speech Intelligibility
12%
Speech Production
37%
Engineering
Cochlear Implant
100%
Deep Learning Method
6%
Denoising Autoencoders
100%
Experimental Result
6%
Implementation Cost
6%
Layer Model
6%
Middle Layer
6%
Objective Evaluation
6%
Successful Implementation
6%
Test Condition
6%
Test Result
6%
Nursing and Health Professions
Cochlea Prosthesis
100%
Logopedics
80%