Predictive Maintenance
Predict equipment failure before it stops the line - remaining-useful-life estimates your planner can actually schedule around.
TELEMETRY - PUMP P-12 · LIVE
Sensor traces - last 30 days
VIBRATION RMS mm/s
BEARING TEMP °C
MOTOR CURRENT A
⚑ vibration trend +34% · bearing-wear signature
Asset health - P-12
bearing wear · conf 0.91 · failure mode known
RUL ≈ 18 days P10-P90: 9-31 d
How it works
Connect the sensors you have
Vibration, temperature, current, PLC tags - via your historian or OPC-UA. No new hardware required to start; we tell you if it's worth adding.
Learn each asset's normal
Baselines per machine and per operating mode - so a heavy-load Monday doesn't look like a failure and real wear doesn't hide in the noise.
Estimate remaining useful life
Named failure mode, confidence, and an honest P10-P90 window - a range your planner can schedule around, not a fake precise date.
Turn warnings into work orders
Draft work orders into your CMMS with parts and window suggested; planner approves. Every alert and outcome logged for the loop.
The Four Guarantees™ - this build
Measured value
~40% of failure-mode downtime converted to planned maintenance at reference fleet; eval gate: precision/recall per failure mode on your history.
Defensible
Every alert carries the signature, confidence and sensor evidence behind it; alert-to-outcome log; no black-box "health scores".
Self-correcting
Confirmed and missed failures retrain per-asset baselines; alert precision tracked monthly; sensor drift and dead channels flagged.
Yours & everywhere
Runs on-prem or in your cloud, next to the historian. Full source. MCP endpoint - your CMMS and copilots read fleet health directly.
The number, sized honestly
Reference buyer: Lithuanian manufacturer - 30-80 critical rotating assets, an existing historian, unplanned downtime costing €2-10k per hour.
Three ways to own it
| Tier | What you get | Price | |
|---|---|---|---|
| Scaffolding ★ | The full repo - telemetry pipeline, per-asset baseline models, RUL estimator with intervals, alert-to-work-order flow, MCP server. Reference run on public bearing datasets. | €2,490 | |
| PoC ★★RECOMMENDED | Trained on your historian data - failure-mode precision/recall and warning horizon measured on your fleet's own history. Code + quality report yours. No guarantee until your sensors prove the signal exists. | from €7,500 | |
| Implementation ★★★ | Production: live alerts into CMMS work orders, per-asset baselines maintained, sensor-drift monitoring, retraining on confirmed outcomes, monthly downtime report - the agreed number (conservative) attaches here. | from €22,500 |
★ = engagement depth. PoC is the recommended path: quality proven on your data before production money. The PoC carries no performance guarantee by design; the agreed number (conservative) attaches at Implementation, informed by the PoC report.
What we don't promise
Ready to see your own number?
Request the build: within 48h you get a personal reply with the value sized to your volume.
No commitment · reply within 48h · your data stays in the EU