Thousands of unmanned sites.
One $4 node that notices.
Equipment drift, intrusion and environmental change at remote BTS, BBU and shelter sites — caught by a 1.59 W RF node before a truck roll, delivered out-of-band over LoRa. Built by people who spent 25 years inside telecom networks.
1.59 W per site · Out-of-band · Truck-roll avoidance
Reuses the CameraPlus stack — same nodes, a telecom model flashed over the air
See it at an unmanned site.
Too many sites, too little power, too late to know.
Too many sites to watch
Thousands of remote shelters, each blind between maintenance visits.
Every truck roll hurts
You find the fan failure or the open cabinet after it has already become an outage.
Tight power, flaky backhaul
Sites run on thin power budgets and unreliable links — camera-first simply won’t fit.
Drift before failure. Fits the power budget. Same node, any site.
Drift before failure
CSI catches enclosure changes, fan-failure vibration, intrusion and presence — the precursors, not the aftermath.
1.59 W, no extra backhaul
Runs on the site’s margins; the out-of-band alert leaves over LoRa, not your production link.
Same node, any site type
OTA-flash the model per site — BTS, BBU, shelter — without redeploying a single piece of hardware.
Cheap enough for every site, light enough for any site.
At $4 a node, instrumenting a fleet of thousands is an operating decision, not a capital project.
You buy fewer truck rolls, not hardware.
Run through MonitorPlus — we operate the nodes, the model and the reporting; you get the feed and the report.
What lands in your dashboard
- Equipment-drift alerts — fans, enclosures, environment
- Intrusion and presence at remote, unmanned sites
- Environmental change before it trips an alarm
- Conversational query across the whole site fleet
Why it fits telecom infrastructure
- Scales to thousands of sites at $4 each
- Delivers out-of-band when backhaul fails
- Avoids truck rolls by catching precursors
- Built on 25 years of deep telecom-network experience
Prove it on a cluster of sites.
A 30–60 day pilot on a handful of remote sites. We ship pre-configured nodes your field team installs in minutes, stand up drift + intrusion alerts out-of-band, and agree one success metric — e.g. failures caught before outage versus your current baseline.