Right
brain language codes use gaze, play, vocal tones and rhythms, touch, visual imagery, and somatosensory experience; right brain mediated processing of emotion and attachment occurs through this somatic, non-verbal lexicon.
Not exact matches
The neural
code of vision is a secret
language between the eyes and the
brain.
In principle, a solution to the neural
code could give us enormous power over our psyches, because we could monitor and manipulate
brain cells with exquisite precision by speaking to them in their own
language.
It seems unlikely that the neural
codes that the
brain uses to represent other aspects of the world will be so simple; individual neurons may
code for several different properties of the world, making the
languages difficult to disentangle.
These
codes allow the
brain to represent features of the external world — such as sound, light, smell and position in space — in a
language that it can understand and compute.
Just as computers use programming
languages such as Java, the
brain seems to have its own operating
languages — a bewildering set of
codes hidden in the rates and timing with which neurons fire as well as the rhythmic electrical activities that oscillate through
brain circuits.
Because the oscillatory profile determines the time constants with which speech is segmented, and the neural
code presented to higher order
language brain regions due to temporally spike reorganization, functional isolation of auditory cortex should strongly impair on - line speech decoding.
By balancing the
brain and creating colorful connections to letter identification,
language patterns, reading fluency and reading comprehension, the patent - pending Live In Letters color -
code hitches together the left and right -
brain hemispheres, while brightly highlighting your student's newfound love for reading!
One subsystem pertains to how the
brain processes non-verbal events or scenarios (analogue
codes), while the other deals with
language within a learning environment (symbolic
codes):
Readers still accomplished the reading task by translating graphic symbols (letters) on a printed page into an oral
code (sounds corresponding to those letters) which was then treated by the
brain as oral
language.