The USG&T distributed an Extremely Low Frequency signal into localized areas of the city.  Transmission occured by using and altering the electromagnetic field surrounding the powerline network.  The signal was inaudible and relied on passive bio-reception.   A special portable electronic unit was designed to plug into the grid and automatically pattern the pulse-wave signal, distributing it using the network's alternating current.   These Conditioning Units were concentrated into five local areas.   A website journal generated feedback to review and record reactions.  This project was hosted by Lampo, Chicago.
 

USG&T

The USG&T carrier system is designed to alter the electromagnetic field of the electric-power supply grid and uses this powerline network to distribute a pre-determined signal to localized regions of the city. This Extremely Low Frequency signal combines well-defined active electrical transmission with passive biodynamic reception, relying on the electromagnetic (EM) fields generated by powerline and residential wiring.

This carrier system requires no new wiring using instead the existing powerline infrastructure to remotely transmit to the designated reception area (fig.1).   In-house equipment installation or signal amplification is not required.

 

EM Field Strength

A reliable, radiated signal with field strength levels sufficient to generate effective EM conditions can be anticipated.   Reports entered into the USG&T Journal will help provide information to more accurately chart EM field propagation for steering signal patterning.  

The effectiveness of the magnetic field decreases with the distance from the powerline network wiring. Enhanced field strength can be initiated with concentrated exposure and close-proximity electromagnetic signal transfer.

       
 

Signal Distortion

"Lock-on" of the EM pulsed signal is dependent upon and will fluctuate with electrical voltage variations, e.g., brownouts or power-surges. Targeted area reception also may experience disturbances due to signal interference from some electronic devices and motors, lightning, or power station transients resulting in poor signal propagation.

       

The Conditioning Unit

The Conditioning Unit (CU) (fig. 2) plugs into a wall outlet and automatically patterns the signal transmission, integrating it directly into the powerline EM field.   Once activated the CU is in continuous use, generating the signal inaudibly and coupling it with the electrical current as it alternates its direction of flow.

To maximize signal saturation, the Conditioning Units have been distributed to multiple locations.   These CU locations operate as Signal Distribution Ports (SDPs).   Additional SDP hosts may be added to the designated local areas as required.   All deployed CUs can be considered primary transmitters using identical pulsed signaling with a frequency of 7-8Hz.   Local area mapping is guided by SDP locations and CU signaling limitations.

         
 

The USG&T Journal

Responses by email will be sorted by keyword and entered into the USG&T Journal to review and record observations, reactions and suggestions.   This journal will be monitored in a continuous effort to better understand and improve the Conditioning Unit and signal radiation characteristics, making corrections or reinforcing positive results, if necessary.   The signal frequency may be modified to adapt and synchronize with daily cycles or rhythms as response patterns dictate.   Journal entries can be used to communicate a desired response label preferably during real-time signaling or to recognize a group or neighbor who has "caught the signal".

     

Signaling Awareness

The USG&T signal couples with the powerline EM field and operates as bio-resonance through modulation. Signaling awareness may depend on individual sensitivity.

Figure 1.

How it works : Electricity is sent from the power plant to the substation which is then distributed over the powerline network.   The electricity alternates its flow over the powerline (Alternating Current or AC), back and forth with a frequency of 60Hz, in the process creating an electromagnetic field.   The CU plugs into the powerline and will "piggyback" the signal onto this current altering the powerline's own electromagnetic field in the designated area network.

     
       
Figure 2.

About the size of a typewriter, the CU's integrated components produce the signal's pulsed modulations.   Once plugged into the wall outlet the unit is "on" and requires no tuning, continuously generating the signal through bio-resonant EM fields.