ERIK

1
a
MARYAM
ERIK
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 informatio
n 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
45 73 57 32 68 84 59 29 47
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 informatio
n 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 Brocas speech
area where the pa code is extracted and
processed for subsequent speech articulation.
10
arcuate fasiculus
PA
45 73 57 32 68 84 59 29 47
45 73 57 32 68 84 59 29 47
PA IS SPOKEN
11
(No Transcript)