restlessness and ESP (extra sensory perception)
by Henryk Szubinski
the inner unkown frontal creates the compression of areas of the brain from the rear and front into the center where it is displaced to the rear by an ncrease of pressure from each hemisphere of the brain.
It may be so, that it may push the problem frontal through the brains Mid section and make contact with the spine at the rear of the brain and then respoding to the action reaction of memory and how it becomes cognitive awareness by the localization of the vertebrae that has been reduced in function of the lower body and the digestion of foods. Having found this vertebrae ,the lift of it in relation to being unknown defines the amount of up lift or joy that replaces the restlessness.
by using:
1) smell to touch some object
2)touch some object and sense taste
3) hear something to touch one self.
4) look at something while smelling
5)observe some event while listening
6) listen and sense touch
7)observe something visualy and sense taste.
In total these are ESP (extra sensory perception) functions that help to displace waste from the brain by thinking it.
Cleaning it up while making the connections, of one sense compared with another.
Meaning that the 1 to 7 are usually subconscious events that may be controlled and
made into cognitive awareness as the 6th sense or the 7th.
so that the compressed result becomes the loction of the center and the outer brain sides of the compression while also taking with it the spinal push related to this as the pressure values are either total in their 4,5,6,7 vectors or as the problem artificial center of the brain as that which creates triangulation of the default model.
This opens the triangle and displaces the frontal through the previous triangle now open
into the rear of the brain and into the spine.In this place the action reaction occurs as the problem in motion displaces into the back of the cranius and responds to the salience.
as related to gravity perception. In this way the auditory may be compressed ,but also as a function of the spine contact as the indicator of when to excrete from our stomach by using our Ears. Or as drinking something with our eyes or as eating with our smell. Or as excreting fluids with your visual cortex .The combinations woul be 6 x 10 exp 36
as the 6 th sense and our biological clock.
These are indicators fro the subcoscious and define the indicators for living.
The brain as that which pushes out wastes just like the other organs do. This may be the back up funcions of the brain needing to reduce restlessness as the removal of the waste as an indicator of being satisfied and having no more blockages in the cognition related to the body or the body related to the cognition.
more ;
This interactive or one sided subconscious occurs more than often in TV commercials that use the various human senses and their expression by commercials.We are not even aware of it. So anyone wanting to be aware of it would find that there are more than trillions of billions of such manipulations of the ESP sense perception.
image from
http://rstb.royalsocietypublishing.org
2017 sep 27
Example of ESP where the Medium presses on the sides of the brains hemispheres as the auditory or dorsal attention or salience and executive control to stimulate the 6th sense and define the subconscious brain.
When we are restless we want to know why. Many mediums give some indication that everything is OK.
When we are restless we want to know why. Many mediums give some indication that everything is OK.
from Wikipedia
date 2017 sep 27
The salience (also called saliency) of an item – be it an object, a person, a pixel, etc. – is the state or quality by which it stands out relative to its neighbors. Saliency detection is considered to be a key attentional mechanism that facilitates learning and survival by enabling organisms to focus their limited perceptual and cognitive resources on the most pertinent subset of the available sensory data.
Saliency typically arises from contrasts between items and their neighborhood, such as a red dot surrounded by white dots, a flickering message indicator of an answering machine, or a loud noise in an otherwise quiet environment. Saliency detection is often studied in the context of the visual system, but similar mechanisms operate in other sensory systems. What is salient can be influenced by training: for example, for human subjects particular letters can become salient by training.[1][2]
When attention deployment is driven by salient stimuli, it is considered to be bottom-up, memory-free, and reactive. Conversely, attention can also be guided by top-down, memory-dependent, or anticipatory mechanisms, such as when looking ahead of moving objects or sideways before crossing streets. Humans and other animals have difficulty paying attention to more than one item simultaneously, so they are faced with the challenge of continuously integrating and prioritizing different bottom-up and top-down influences.
date 2017 sep 27
The salience (also called saliency) of an item – be it an object, a person, a pixel, etc. – is the state or quality by which it stands out relative to its neighbors. Saliency detection is considered to be a key attentional mechanism that facilitates learning and survival by enabling organisms to focus their limited perceptual and cognitive resources on the most pertinent subset of the available sensory data.
Saliency typically arises from contrasts between items and their neighborhood, such as a red dot surrounded by white dots, a flickering message indicator of an answering machine, or a loud noise in an otherwise quiet environment. Saliency detection is often studied in the context of the visual system, but similar mechanisms operate in other sensory systems. What is salient can be influenced by training: for example, for human subjects particular letters can become salient by training.[1][2]
When attention deployment is driven by salient stimuli, it is considered to be bottom-up, memory-free, and reactive. Conversely, attention can also be guided by top-down, memory-dependent, or anticipatory mechanisms, such as when looking ahead of moving objects or sideways before crossing streets. Humans and other animals have difficulty paying attention to more than one item simultaneously, so they are faced with the challenge of continuously integrating and prioritizing different bottom-up and top-down influences.