Presentation is loading. Please wait.

Presentation is loading. Please wait.

A ERIK MARYAM.

Published byOphelia Perry Modified over 6 years ago

Similar presentations

Presentation on theme: "A ERIK MARYAM."— Presentation transcript:

1 a ERIK MARYAM

2 HIGH GAMMA and ORIENTING STIMULI

3 a. b.

4 FRONTAL HIGH GAMMA for ORIENTING STIMULI

5 PARALLEL LINE NEURAL COMMUNICATION

6 PARALLEL LINE NEURAL COMMUNICATION
Parallel columnar output varying in spike frequency and temporal coupling between columnar output provides a code for communication between cortical areas. The spatio-temporal coding hypothesis.

7 PARALLEL LINE NEURAL COMMUNICATION
Parallel columnar output varying in spike frequency and temporal coupling between columnar output provides a code for communication between cortical areas. The spatio-temporal coding hypothesis. When you hear “pa” auditory association cortex decodes the acoustic information resulting in a local spatio-temporal code for “pa” in the superior temporal plane. There is some evidence for regional phoneme modules in human association cortex.

8 PA PA IS EXTRACTED

9 PARALLEL LINE NEURAL COMMUNICATION
Parallel columnar output varying in spike frequency and temporal coupling between columnar output provides a code for communication between cortical areas. The spatio-temporal coding hypothesis. When you hear “pa” auditory association cortex decodes the acoustic information resulting in a local spatio-temporal code for “pa” in the superior temporal plane. There is some evidence for regional phoneme modules in human association cortex. To say “pa” on command the coupled parallel spike train outputs are sent via the arcuate fasiculus to Broca’s speech area where the “pa” code is extracted and processed for subsequent speech articulation.

10 PA IS SPOKEN arcuate fasiculus “PA” 45 73 57 32 68 84 59 29 47
PA IS SPOKEN

11

Download ppt "A ERIK MARYAM."

Similar presentations

What is the neural code? Puchalla et al., 2003. What is the neural code? Encoding: how does a stimulus cause the pattern of responses? what are the responses.

What is the neural code? Puchalla et al., What is the neural code? Encoding: how does a stimulus cause the pattern of responses? what are the responses.
Speech and Language. It is the highest function of the nervous system Involves understanding of spoken & printed words It is the ability to express ideas.

Speech and Language. It is the highest function of the nervous system Involves understanding of spoken & printed words It is the ability to express ideas.
The Neuroscience of Language. What is language? What is it for? Rapid efficient communication – (as such, other kinds of communication might be called.

The Neuroscience of Language. What is language? What is it for? Rapid efficient communication – (as such, other kinds of communication might be called.
CEREBRAL LOBES Burcu Ormeci, MD Assistant Proffessor Depatrment of Neurology.

CEREBRAL LOBES Burcu Ormeci, MD Assistant Proffessor Depatrment of Neurology.
 The cerebrum or cortex is the largest part of the human brain, associated with higher brain function such as thought and action. The cerebrum controls.

 The cerebrum or cortex is the largest part of the human brain, associated with higher brain function such as thought and action. The cerebrum controls.
INTRODUCTION TO HEARING. WHAT IS SOUND? amplitude Intensity measured in decibels.

INTRODUCTION TO HEARING. WHAT IS SOUND? amplitude Intensity measured in decibels.
Copyright © 2006 by Allyn and Bacon Chapter 8 The Sensorimotor System How You Do What You Do This multimedia product and its contents are protected under.

Copyright © 2006 by Allyn and Bacon Chapter 8 The Sensorimotor System How You Do What You Do This multimedia product and its contents are protected under.
Functional Anatomy of Spoken Input Note that the low-level auditory pathway is not specialized for speech sounds – Both speech and non-speech sounds activate.

Functional Anatomy of Spoken Input Note that the low-level auditory pathway is not specialized for speech sounds – Both speech and non-speech sounds activate.
Anatomy of language processing Mark Harju. Most components for language processing are located in the left hemisphere Most components for language processing.

Anatomy of language processing Mark Harju. Most components for language processing are located in the left hemisphere Most components for language processing.
SPEECH PERCEPTION The Speech Stimulus Perceiving Phonemes Top-Down Processing Is Speech Special?

SPEECH PERCEPTION The Speech Stimulus Perceiving Phonemes Top-Down Processing Is Speech Special?
Structure and function

Structure and function
Auditory-acoustic relations and effects on language inventory Carrie Niziolek [carrien] 24.922 5 may 2004.

Auditory-acoustic relations and effects on language inventory Carrie Niziolek [carrien] may 2004.
Auditory Neuroscience - Lecture 6 Hearing Speech auditoryneuroscience.com/lectures.

Auditory Neuroscience - Lecture 6 Hearing Speech auditoryneuroscience.com/lectures.
Speech and Language Lecture for the 2 nd BM course Dr Jan Schnupp

Speech and Language Lecture for the 2 nd BM course Dr Jan Schnupp
The Auditory System Sound is created by pressure waves in air; these waves are induced by vibrating membranes such as vocal cords. Because the membranes.

The Auditory System Sound is created by pressure waves in air; these waves are induced by vibrating membranes such as vocal cords. Because the membranes.
1 Language disorders We can learn a lot by looking at system failure –Which parts are connected to which Examine the relation between listening/speaking.

1 Language disorders We can learn a lot by looking at system failure –Which parts are connected to which Examine the relation between listening/speaking.
Psycholinguistics.

Psycholinguistics.
Recent Findings in the Neurobiology & Neuropsychology of Reading Processes A. Maerlender, Ph.D. Clinical School Services & Learning Disorders.

Recent Findings in the Neurobiology & Neuropsychology of Reading Processes A. Maerlender, Ph.D. Clinical School Services & Learning Disorders.
Hearing Impairment Hair cells are responsible for translating mechanical information into neural information. Thus, with damaged hair cells, the auditory.

Hearing Impairment Hair cells are responsible for translating mechanical information into neural information. Thus, with damaged hair cells, the auditory.
Adaptive, behaviorally gated, persistent encoding of task-relevant auditory information in ferret frontal cortex.

Adaptive, behaviorally gated, persistent encoding of task-relevant auditory information in ferret frontal cortex.

Similar presentations

Ads by Google