Miguel Angrick

Miguel Angrick
University of Bremen | Uni Bremen · Computer Science

PhD Student

About

22
Publications
3,057
Reads
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587
Citations

Publications

Publications (22)
Article
Full-text available
Background Brain-computer interfaces (BCIs) can restore communication for movement- and/or speech-impaired individuals by enabling neural control of computer typing applications. Single command click detectors provide a basic yet highly functional capability. Methods We sought to test the performance and long-term stability of click decoding using...
Preprint
Full-text available
Objective. Brain-Computer Interfaces (BCIs) hold significant promise for restoring communication in individuals with partial or complete loss of the ability to speak due to paralysis from amyotrophic lateral sclerosis (ALS), brainstem stroke, and other neurological disorders. Many of the approaches to speech decoding reported in the BCI literature...
Article
Full-text available
Brain–computer interfaces (BCIs) that reconstruct and synthesize speech using brain activity recorded with intracranial electrodes may pave the way toward novel communication interfaces for people who have lost their ability to speak, or who are at high risk of losing this ability, due to neurological disorders. Here, we report online synthesis of...
Article
Full-text available
Brain‐computer interfaces (BCIs) can be used to control assistive devices by patients with neurological disorders like amyotrophic lateral sclerosis (ALS) that limit speech and movement. For assistive control, it is desirable for BCI systems to be accurate and reliable, preferably with minimal setup time. In this study, a participant with severe dy...
Preprint
Full-text available
Background Brain-computer interfaces (BCIs) can restore communication in movement- and/or speech-impaired individuals by enabling neural control of computer typing applications. Single command “click” decoders provide a basic yet highly functional capability. Methods We sought to test the performance and long-term stability of click-decoding using...
Preprint
Full-text available
Recent studies have shown that speech can be reconstructed and synthesized using only brain activity recorded with intracranial electrodes, but until now this has only been done using retrospective analyses of recordings from able-bodied patients temporarily implanted with electrodes for epilepsy surgery. Here, we report online synthesis of intelli...
Article
Speech Neuroprostheses have the potential to enable communication for people with dysarthria or anarthria. Recent advances have demonstrated high-quality text decoding and speech synthesis from electrocorticographic grids placed on the cortical surface. Here, we investigate a less invasive measurement modality in three participants, namely stereota...
Preprint
Speech Neuroprostheses have the potential to enable communication for people with dysarthria or anarthria. Recent advances have demonstrated high-quality text decoding and speech synthesis from electrocorticographic grids placed on the cortical surface. Here, we investigate a less invasive measurement modality, namely stereotactic EEG (sEEG) that p...
Conference Paper
Neurological disorders can lead to significant impairments in speech communication and, in severe cases, cause the complete loss of the ability to speak. Brain-Computer Interfaces have shown promise as an alternative communication modality by directly transforming neural activity of speech processes into a textual or audible representations. Previo...
Conference Paper
Full-text available
Recent studies have shown promise for designing Brain-Computer Interfaces (BCIs) to restore speech communication for those suffering from neurological injury or disease. Numerous BCIs have been developed to reconstruct different aspects of speech, such as phonemes and words, from brain activity. However, many challenges remain toward the successful...
Article
Full-text available
Speech neuroprosthetics aim to provide a natural communication channel to individuals who are unable to speak due to physical or neurological impairments. Real-time synthesis of acoustic speech directly from measured neural activity could enable natural conversations and notably improve quality of life, particularly for individuals who have severel...
Presentation
Full-text available
While several previous studies have investigated mapping brain activity to speech using different experimental designs, features, window lengths, etc there are still many obstacles on the way to reaching a practical, real-time speech BCI. As an initial step toward improving performance, we propose to study the differences that distinguish speech an...
Preprint
Full-text available
Speech neuroprosthetics aim to provide a natural communication channel to individuals who are unable to speak due to physical or neurological impairments. Real-time synthesis of acoustic speech directly from measured neural activity could enable natural conversations and significantly improve quality of life, particularly for individuals who have s...
Article
Full-text available
Neural interfaces that directly produce intelligible speech from brain activity would allow people with severe impairment from neurological disorders to communicate more naturally. Here, we record neural population activity in motor, premotor and inferior frontal cortices during speech production using electrocorticography (ECoG) and show that ECoG...
Conference Paper
Millions of individuals suffer from impairments that significantly disrupt or completely eliminate their ability to speak. An ideal intervention would restore one's natural ability to physically produce speech. Recent progress has been made in decoding speech-related brain activity to generate synthesized speech. Our vision is to extend these recen...
Article
Objective: Direct synthesis of speech from neural signals could provide a fast and natural way of communication to people with neurological diseases. Invasively-measured brain activity (electrocorticography; ECoG) supplies the necessary temporal and spatial resolution to decode fast and complex processes such as speech production. A number of impr...
Article
The direct synthesis of continuously spoken speech from neural activity could provide a fast and natural way of communication for users suffering from speech disorders. Mapping the complex dynamics of neural activity to spectral representations of speech is a demanding task for regression models. Convolutional neural networks have recently shown pr...
Preprint
Objective: Direct synthesis of speech from neural signals could provide a fast and natural way of communication to people with neurological diseases. Invasively-measured brain activity (electrocorticography; ECoG) supplies the necessary temporal and spatial resolution to decode fast and complex processes such as speech production. A number of impre...
Conference Paper
Full-text available
The direct synthesis of continuously spoken speech from neural activity is envisioned to enable fast and intuitive Brain-Computer Interfaces. Earlier results indicate that intracranial recordings reveal very suitable signal characteristics for direct synthesis. To map the complex dynamics of neural activity to spectral representations of speech, Co...

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