Monday, January 12, 2015

scene two The Blob


INT- RACHEL'S BEDROOM -EVENING

RACHEL,a pretty 17 year old girl wearing a headset attached to her temples  is lying on her bed, stomach down ,feet up. She is smiling dreamily, her legs moving with "the tone, the tune" of her
"Inner Vision".
CLOSE on Speakers
PLAYING a cover of Bread's "If "that Rachel via headset is sharing with her boyfriend JACOB-

INT-JACOB'S BEDROOM-EVENING
JACOB,a handsome 17 year old boy  wearing a headset attached to his temples lies "prone", smiling ,eyes shut "listening and feeling" RACHEL'S Mind to Mind "video" version of "If"
-
      the two of them together, so close via  Merge that ,at least for a time THEY
      are ONE

the imagery we see has no

INT.,EXT.,
no "place"(as we "might"Know It)
no TIME

and because of this RACHEL and JACOB's intertwining knows only the limitations of their Co-Conscious imagination.
The filmed imagery demonstrates "the dance" of kin "spirits "and should reflect
and introduce the intelligence, sophistication and inherent  goodness of both RACHEL and JACOB
and the type of love perhaps only teenagers are capable of sensing.
The song, Bread's "If "acts as a vehicle, a guide that provided both a starting point and an end point
to the Merge between RACHEL and JACOB.
At the start of their shared "dream "we gather a purposed focus
to steer away from "Hallmark"sentiments
and symbolism but as the two grow closer via the technology upon their heads
we gather
that the two lovers have mutually agreed to "fall back "upon  and fall into
everything "Hallmark"

Walks in the Park, showers of hearts and glitter, river boat rides.....


United States Patent 6,536,440
 
 
 
 
                March 2000

Method and system for generating sensory data onto the human neural cortex

A non-invasive system and process for projecting sensory data onto the human neural cortex is provided. The system includes a primary transducer array and a secondary transducer array. The primary transducer array acts as a coherent signal source, and the secondary transducer array acts as a controllable diffraction pattern that focuses energy onto the neural cortex in a desired pattern. In addition, the pattern of energy is constructed such that each portion projected into the neural cortex may be individually pulsed at low frequency. This low frequency pulsing is formed by controlling the phase differences between the emitted energy of the elements of primary and secondary transducer arrays.
 
Publication number
US3951134 A The earliest non-classified references to this type of technology appear in a 1976 patent by R.G. Malech Patent #3951134  “Apparatus and method for remotely monitoring and altering brain waves” USPTO granted 4/20/76. The patent describes a technique using the transmission of 100 and 210 MHz signals to the brain yielding a 110 MHz signal which is modulated by the brain waves and can be detected by a receiver for further processing.
Publication type
Grant
Application number
US 05/494,518
Publication date
Apr 20, 1976
Filing date
Aug 5, 1974
Priority date
Aug 5, 1974
Publication number
05494518, 494518, US 3951134 A, US 3951134A, US-A-3951134, US3951134 A, US3951134A
Inventors
Original Assignee
Export Citation
 
Apparatus and method for remotely monitoring and altering brain waves
US 3951134 A
Abstract

Apparatus for and method of sensing brain waves at a position remote from a subject whereby electromagnetic signals of different frequencies are simultaneously transmitted to the brain of the subject in which the signals interfere with one another to yield a waveform which is modulated by the subject's brain waves. The interference waveform which is representative of the brain wave activity is re-transmitted by the brain to a receiver where it is demodulated and amplified. The demodulated waveform is then displayed for visual viewing and routed to a computer for further processing and analysis. The demodulated waveform also can be used to produce a compensating signal which is transmitted back to the brain to effect a desired change in electrical activity therein.

 
 
 
 
 
                 


 

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