This paper discusses the use of surface electromyography for automatic speech recognition. Electromyographic signals captured at the facial muscles record the activity of the human articulatory apparatus and thus allow to trace back a speech signal even if it is spoken silently. Since speech is captured before it gets airborne, the resulting signal is not masked by ambient noise. The resulting Silent Speech Interface has the potential to overcome major limitations of conventional speech-driven interfaces: it is not prone to any environmental noise, allows to silently transmit confidential information, and does not disturb bystanders. We describe our new approach of phonetic feature bundling for modeling coarticulation in EMG-based speech re...
Conventional speech communication systems do not perform well in the absence of an intelligible acou...
This paper briefly reviews current silent speech methodologies for normal and disabled individuals. ...
Although still in experimental stage, articulation-based silent speech interfaces may have significa...
Speech is the natural medium of human communication, but audible speech can be overheard by bystande...
We present our recent advances in silent speech interfaces using electromyographic signals that capt...
For some time, new methods based on a different than acoustic signal analysis are used for speech re...
This thesis concerns the task of turning silently mouthed words into audible speech. By using senso...
Research interest in speech interfaces that can function even when an audible acoustic signal is not...
Abstract: An electromygraphic (EMG) Silent Speech Interface is a system which recognizes speech by c...
Abstract—This paper presents the results of our research in silent speech recognition (SSR) using Su...
This research examines the evaluation of fSEMG (facial surface Electromyogram) for recognizing speec...
Abstract — This paper presents a silent-speech interface based on electromyographic (EMG) signals re...
With 7.5 million people unable to speak due to various physical and mental conditions, patients are ...
In our previous work, we reported a surface electromyographic (EMG) continuous speech recognition sy...
This paper presents a silent-speech interface based on electromyographic (EMG) signals recorded in t...
Conventional speech communication systems do not perform well in the absence of an intelligible acou...
This paper briefly reviews current silent speech methodologies for normal and disabled individuals. ...
Although still in experimental stage, articulation-based silent speech interfaces may have significa...
Speech is the natural medium of human communication, but audible speech can be overheard by bystande...
We present our recent advances in silent speech interfaces using electromyographic signals that capt...
For some time, new methods based on a different than acoustic signal analysis are used for speech re...
This thesis concerns the task of turning silently mouthed words into audible speech. By using senso...
Research interest in speech interfaces that can function even when an audible acoustic signal is not...
Abstract: An electromygraphic (EMG) Silent Speech Interface is a system which recognizes speech by c...
Abstract—This paper presents the results of our research in silent speech recognition (SSR) using Su...
This research examines the evaluation of fSEMG (facial surface Electromyogram) for recognizing speec...
Abstract — This paper presents a silent-speech interface based on electromyographic (EMG) signals re...
With 7.5 million people unable to speak due to various physical and mental conditions, patients are ...
In our previous work, we reported a surface electromyographic (EMG) continuous speech recognition sy...
This paper presents a silent-speech interface based on electromyographic (EMG) signals recorded in t...
Conventional speech communication systems do not perform well in the absence of an intelligible acou...
This paper briefly reviews current silent speech methodologies for normal and disabled individuals. ...
Although still in experimental stage, articulation-based silent speech interfaces may have significa...