SOUND-WAVE DATA-STREAM MULTIPLEXING TECHNOLOGY - TELECOMMUNICATIONS

NOTE: THIS IS A REPOST OF A POST FROM NOV 2015 WHICH WAS SUBSEQUENTLY DELETED. EVIDENCE OF THE ORIGINAL POST CAN BE FOUND IN ARCHIVE

This works using "compression waves" which occur naturally within a sphere/torus to accelerate signal

Sound-wave data-stream multiplexing technology

1Hz/5Hz parity should allow signal to carry harmoniously with 7.83Hz Schumann resonance

1Hz/1Hz - 5Hz parity transmit

1Hz/3Hz/5Hz/7.83Hz/16.25Hz receive

1Hz/5Hz transmit/receive are alternated to form sync

Outbound datastream accelerates as it syncs with Schumann resonance

Alternated inbound 1Hz/5Hz bandwidth (slack) is harmonized base sync to receive inbound signal at 7.83Hz

High density 7.83Hz signal transmission should create a natural harmonised super-frequency signal at 16.25Hz, preventing signal distortion and data loss

A mobile device will receive through a EPROM reactive to 3Hz/7.83Hz electrical current, with 1Hz, 3Hz, 5Hz, 7.83 and 16.25Hz gateways

Current is passed through the EPROM in synced alternate phase (off-beat) to the 1Hz outbound frequency

Use NFC (Near-Field Communication) with cycles of 64 “bits” over 11.18Mhz frequency (11.118Mhz up to 11.18Mhz, native 64 over 63)

NFC increases from 2 metres range to atmospheric EM carriage World-wide broadcast

11.18Mhz\\1.1Hz

Ionosphere “Infosphere” routes carriage naturally over a free connection anywhere in the world

Theoretical max attainable send/receive could/should be somewhere between 315Mb/s and 420Mb/s (depending on software/hardware bottlenecks)