Most of the information processed during the day is visual. When the electrolytic balance of the vision resonator chains is adjusted they are producing events which are seen by the motoric chains for eye movement.

Example : A peripheral event is recognized by a visual recognition chains and produces an object that requires eye movement. The object (oscillations) are recognized by a motoric chain that carries out the eye movement.

The rapid eye movement is caused by motoric chains that are triggered by the relaxation of the visual recognition chains. The movement will be erratic.

This should show up as a reduced rapid eye movement in sequential sleeping phases.

Another way to check this hypothesis would be to cover the eyes of a person during the day, so that less visual information is acquired.

There will be a problem, because the visual chains are also used during thinking. Therefore the test person should be able to concentrate the thinking on subjects that normally do not require eye movements.

A person who is looking into a microscope for the major part of the day looking at a single object or similar objects should have reduced rapid eye movements.