32,890 research outputs found
A convolutional neural-network model of human cochlear mechanics and filter tuning for real-time applications
Auditory models are commonly used as feature extractors for automatic
speech-recognition systems or as front-ends for robotics, machine-hearing and
hearing-aid applications. Although auditory models can capture the biophysical
and nonlinear properties of human hearing in great detail, these biophysical
models are computationally expensive and cannot be used in real-time
applications. We present a hybrid approach where convolutional neural networks
are combined with computational neuroscience to yield a real-time end-to-end
model for human cochlear mechanics, including level-dependent filter tuning
(CoNNear). The CoNNear model was trained on acoustic speech material and its
performance and applicability were evaluated using (unseen) sound stimuli
commonly employed in cochlear mechanics research. The CoNNear model accurately
simulates human cochlear frequency selectivity and its dependence on sound
intensity, an essential quality for robust speech intelligibility at negative
speech-to-background-noise ratios. The CoNNear architecture is based on
parallel and differentiable computations and has the power to achieve real-time
human performance. These unique CoNNear features will enable the next
generation of human-like machine-hearing applications
The listening talker: A review of human and algorithmic context-induced modifications of speech
International audienceSpeech output technology is finding widespread application, including in scenarios where intelligibility might be compromised - at least for some listeners - by adverse conditions. Unlike most current algorithms, talkers continually adapt their speech patterns as a response to the immediate context of spoken communication, where the type of interlocutor and the environment are the dominant situational factors influencing speech production. Observations of talker behaviour can motivate the design of more robust speech output algorithms. Starting with a listener-oriented categorisation of possible goals for speech modification, this review article summarises the extensive set of behavioural findings related to human speech modification, identifies which factors appear to be beneficial, and goes on to examine previous computational attempts to improve intelligibility in noise. The review concludes by tabulating 46 speech modifications, many of which have yet to be perceptually or algorithmically evaluated. Consequently, the review provides a roadmap for future work in improving the robustness of speech output
Online Audio-Visual Multi-Source Tracking and Separation: A Labeled Random Finite Set Approach
The dissertation proposes an online solution for separating an unknown and time-varying number of moving sources using audio and visual data. The random finite set framework is used for the modeling and fusion of audio and visual data. This enables an online tracking algorithm to estimate the source positions and identities for each time point. With this information, a set of beamformers can be designed to separate each desired source and suppress the interfering sources
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