S P E E C H P R O C E SS I N G A N D B R A I N S I G N AT U R E S O F S P E E C H , PA RT I C U L A R LY

I N D I S T I N G U I S H I N G T R U E / FA L S E O R Y E S / N O R E S P O N S E S

Speech processing can refer either to a device that receives and interprets speech then performing a command in response or a machine that interprets brain wave signals related to thoughts of speech then performing a command.

The brain quickly interprets speech; this includes understanding a statement based on semantics, grammar, and intonation (Buzo ). Goal is to create a machine that can do the same and allow LIS patients to communicate effectively.

There’s little difference between the psychophysiological responses and brain signatures of an objectively true statement and those of a delusional (subjectively true) statement. (Langleben )

The brain shows increased activity to noises that have pitches or are decibels outside that of everyday speech. (Zatorre )

Through the processing of brain signatures through BMI (or BCI) to a speech synthesizer, individuals in a locked-in state can form speech and potentially engage in verbal conversation. (Guenther )

To create these

communication devices, the

first step is to create binary

communication devices

though the processing of

Yes/No thinking. This is

done by first semantic

classical conditioning

cortically evoked responses

to the meaning of a word or

sentence

C I T A T I O N S

Besserve & Co. , “Extraction of functional information from

ongoing brain electrical activity”, Tubingen, Germany.

Buzo & Co., “Word Error Rate Improvement and Complexity

Reduction in Automatic Speech Recognition”, 2011 Speech

Technology and Human Computer Dialogue.

Guenther & Co., "Brain-machine interfaces for real-time speech

synthesis”, 2011 Annual International Conference of IEEE.

Henig, R., “Looking for the Lie”, New York Times.

Langleben & Co., “True lies: delusions and lie-detection

technology”, Neuroethics Publications Center for Neuroscience &

Society.

Mozsary & Co., “Comparison of feature extraction methods for

speech recognition in noise-free and in traffic noise environment”,

2011 . Speech Technology and Human-Computer Dialogue.

Ruf & Co., “Semantic Classical Conditioning and Brain-

Computer Interface Control: Encoding of Affirmative and

Negative Thinking”.

Schipor & Co., “Towards a multimodal emotion

recognition framework to be integrated in a Computer

Based Speech Therapy System”, 2011, Speech Technology

and Human-Computer Dialogue.

Sundaram & Co., “Experiments in context-independent

recognition of non-lexical ‘yes’ or ‘no’ responses”, 2011,

Acoustics, Speech and Signal Processing.

Zatorre & Co., “Lateralization of phonetic and pitch

discrimination in speech processing”