ESTABLISHING UPLINK
ESTABLISHING UPLINK
Frequency discipline, /2a:2 calibration, and secure sensor cluster operations in anomaly proximity zones.
The /2a:2 calibration baseline is the foundational sensor standard for all ARCC field operations. It is not optional. It is not a suggestion. Every sensor — passive or active — must sync to /2a:2 before any data collection begins.
/2a:2 forces sensor firmware to assume non-neutral, Fe-dominant field conditions. Standard commercial sensor firmware assumes electrically neutral environments. In anomaly proximity zones, this assumption is catastrophically wrong and will produce false negatives on proximity boundaries.
Pre-Deployment Mandatory Sequence
Anomalous entities with high electron mobility are extraordinarily sensitive to consistent electromagnetic frequencies. A stationary carrier frequency from your sensor cluster can be detected, entrained, and disrupted by the entity within seconds of initial exposure.
Static Frequency Risk
Frequency Hopping Benefits
Every data packet captured in proximity to a confirmed anomaly is classified as potential evidence of non-human intelligence. It must be handled accordingly.
Forensic Hash
Apply SHA-256 forensic hash immediately upon capture. This creates a tamper-evident record of the original data state.
Timestamp & Coordinates
Log precise UTC timestamp and GPS coordinates at moment of capture. Anomalous entities move — location data is critical.
Encrypted Dispatch
Submit via encrypted System Dispatch channel only. No plaintext broadcast. Curator team review required before any public archive submission.
Redaction Before Archive
Sensitive field location data must be scrubbed before committing to the Public Vault. Protect operative positions.