GSLAN - Ground Station Local Area Network

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4G and 5G radio towers are already in place around the world's inhabited geographic zones.

A replacement for satellite is proposed for telecommunications signal normally carried by the orbital base stations. The replacement is Ground Station Local Area Network (GSLAN). It may be substantially easier to place relay towers between the inhabited zones introduced, above.

The entire array would function even better if the power of the communications network was supplemented by an array of extended height metal pylons, strategically positioned at the highest mountain tops, hill tops and rises, to mount mast antennas. (See the article about mast antennas.)

The mast antenna generally transmits in a directions. For most efficient and powerful effect the antennas 'transmitter output may be focused as a beam. The receiver must refocus received beams in a radio collector.

With high gain receiving amplification in receiving devices, and computer, signal filtering the network would sustain low, arithmetic wave amplification and combination or entanglement. The minimum required amplification is a factor of 2. The receiving units would high gain transform the voltage levels, of the devices. A similar relay event would be emulated in the pylon towers receiving from the standard 4G/5G radio towers.

Carrier waves have always been presumed to be necessarily short wave. They can and should be the less powerful (less energy wasteful) long wave. Adding one pre-amplified wave to each successive communications wave provides an arithmetically combined wireless network. Please take a moment to test the visual result on Geogebra.com or Desmos.com. That will guide the required wave requirement of algorithmic component.

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