TheoB needs a governed intake system for live signals.
An ingestion engine for source connection, polling control, raw capture, schema normalization, freshness checks, risk classification, mesh handoff, and ingestion memory.
Every TheoB pathway can move through Past, Present, and Future without losing context.
Read current signals, conditions, and live context.
Voice ready
Before signals become intelligence, they need a clean doorway.
Live Signal Ingestion Engine OS governs how TheoB receives live data from APIs, feeds, cacao regions, weather systems, logistics, research, sensory inputs, community signals, and system telemetry before those signals enter the mesh.
Connect to approved APIs, feeds, uploads, sensors, operator inputs, and system telemetry.
Require source registry approval, credentials isolation, and provider health checks.Pull data on a schedule or event trigger without creating runaway requests or cost spikes.
Use polling limits, rate controls, backoff rules, and economic pressure review.Preserve incoming signal payloads with timestamp, source, scope, and ingestion metadata.
Do not store secrets or sensitive personal data unnecessarily.Convert incoming data into TheoB signal objects with consistent fields.
Validate required fields and mark incomplete or malformed data.Check whether the signal is current, stale, duplicated, delayed, or from a degraded source.
Route stale or degraded signals to source health review.Classify signals by domain, urgency, confidence, impact, and review requirement.
High-risk signals route to priority routing, verification, and human review.Send accepted signals into the Real-Time Planetary Signal Mesh for routing, correlation, memory, and action.
Keep audit trail from ingestion through downstream routing.Store ingestion history, failures, corrections, source behavior, and operational patterns.
Apply memory retention, trust decay, and privacy rules.