HF Monolith Network - Theoretical Model

This diagram represents an observational model of multi-layer HF communication structures based on publicly monitored signal patterns (CW, USB, RTTY, SYNOP, and multi-frequency broadcasts). It is not an official specification.

1. Network Overview

INITIATION LAYER
XHOP (Monolith CW Trigger Network)

↓

ROUTING / BROADCAST LAYER
RDL (Multi-frequency HF/VLF Data Broadcast Hub)

↓

OPERATIONAL LAYER
REA4 / A2CA (SYNOP Weather + Monolith Broadcast)

↓

SECONDARY NETWORKS
Buzzer / NVTI / Ground-Air-Navy channels / auxiliary relays

2. Communication Modes

CW (A1A / OOK) — control signaling, routing triggers, Monolith initiation
USB Voice — structured messages, callsigns, urgency levels
RTTY / FSK Data — machine-readable broadcasts (RDL layer)
SYNOP — standardized meteorological reports (REA4)

3. Message Propagation Model

XHOP (Trigger)
      ↓
RDL (Broadcast Relay)
      ↓
REA4 / A2CA (Structured Operational Output)
      ↓
Secondary Networks (Redistribution / Echo / Relay)

4. Key Observed Behaviors

Multi-frequency simultaneous transmission (HF diversity broadcasting)
Monolith messages appearing across multiple networks
Time-offset propagation between CW and USB (~minutes)
Redundant termination markers (K / TTT TTT)
Cross-network message replication with modified identifiers

5. Termination & Control Signals

K — logical end of transmission (CW-style)
TTT TTT — physical/channel termination marker (HF robustness)
PRIYOM — voice equivalent of "over / reception state"

6. Notes

This model is derived from observational radio monitoring patterns across HF networks. Propagation effects, overlapping stations, and automated transmission systems may influence perceived structure.