AI Thermal Anomaly Detection

Catch abnormal heat before it becomes downtime or fire

AVIAN turns continuous thermal imaging into an early-warning workflow. The system learns what normal heat looks like, filters routine activity, and alerts your team when a bearing, belt, panel, motor, or material zone starts moving the wrong way.

Talk to our team See AVIAN T100

Platform workflow

Detect

Alert

Verify

Act

Document

380°F

hotspot Sierra Pacific Industries could see in thermal before smoke or visible flame appeared in the RGB view.

Why it matters

Heat problems rarely start as obvious emergencies

Most industrial failures give off heat before they give off smoke, flame, vibration, or a shutdown alarm. The hard part is seeing the right heat signal continuously, without paging the team every time a forklift or welder crosses the scene.

Manual thermal rounds only capture a moment in time, often days or weeks apart.

Fixed thresholds can miss slow drift on assets that normally run warm.

Visible-light cameras show context, but they do not measure surface temperature.

Smoke and flame detection usually enters later in the event timeline.

How AVIAN works

Thermal intelligence built for real industrial scenes

AVIAN combines thermal capture, RGB context, zone-based monitoring, adaptive baselines, and smart alarm filtering so teams see useful anomalies instead of raw camera noise.

Thermal and RGB context

Operators see the heat signature and the visible scene together, so a hotspot is tied to the asset, belt edge, pile, panel, or process area that needs attention.

Baseline-aware detection

The system tracks normal thermal behavior for each monitored zone and flags sustained drift instead of relying only on a generic temperature limit.

Noise filtering

AVIAN filters routine industrial triggers such as forklifts, loaders, welding sparks, and hot work so alerts stay focused on events that deserve a response.

From signal to response

An anomaly only matters if the right person can act on it

The goal is not another dashboard. The goal is a clear handoff from detected heat to inspection, escalation, shutdown logic, or planned maintenance.

Detect

Spot thermal drift

AVIAN watches each zone continuously and identifies abnormal heat patterns on critical assets.

Alert

Reach the right team

Alerts can go to operators, supervisors, maintenance, and on-call teams through the channels they already use.

Verify

Check the live view

Thermal and RGB views help the team confirm whether the heat source is a bearing, belt, dust pocket, panel, or process condition.

Act

Move before failure

Teams can inspect, clean, stop equipment, escalate fire response, or schedule work while the fix is still routine.

Where it applies

Built around the assets where heat changes the outcome

Sawmills and planer mills

Catch planer heat, bearing drift, roll failures, and dust system hotspots before they turn into fire or lost production.

Recycling and waste

Watch battery events, smoldering loads, conveyor heat, and after-hours hotspots before smoke or sprinklers enter the story.

Biomass and pellet plants

Track friction heat around presses, conveyors, drives, and combustible dust zones.

Mining conveyors

Monitor remote conveyor runs, transfer points, idlers, and drives where manual checks are hard to time.

Proof from the field

Named examples where thermal visibility changed the response

The strongest proof for anomaly detection is not an abstract AI claim. It is an operator seeing heat early enough to intervene.

I can be anywhere in the mill, or even sitting at home

Sierra Pacific Industries uses AVIAN alerts so maintenance leaders can see and act on thermal events without standing beside the asset.

John Brummel, Sierra Pacific Industries

At Sierra Pacific Industries' Lincoln facility, thermal revealed a 380°F hotspot buried under dust while the RGB view still looked normal.

Sierra Pacific Lincoln facility

Schilliger Holz helped turn AVIAN from a concept into an industrial fire prevention system built around real mill conditions.

Schilliger Holz origin story

FAQ

Questions teams ask before they deploy AVIAN

Is AI thermal anomaly detection the same as predictive maintenance?

It is one practical input for predictive maintenance. AVIAN detects abnormal heat trends on monitored assets, then maintenance teams use that signal to inspect, schedule work, and prevent repeat failures before downtime or fire risk escalates.

Does AVIAN replace smoke detectors or flame detectors?

No. Smoke and flame detectors still matter for life safety and code-required fire detection. AVIAN watches an earlier stage of the event timeline: abnormal surface heat, friction, electrical faults, and process heat before smoke or flame appears.

Does anomaly detection require a new control system?

No. Operators can use AVIAN through a browser, phone, tablet, alerts, and reports. Sites that want automated response can integrate alerts into existing controls, but the anomaly detection workflow does not require a new SCADA workstation.

What kinds of anomalies does AVIAN detect?

Common examples include hot bearings, dragging conveyor belts, overheated motors, loose electrical connections, dust extraction heat, battery and charger heat, and equipment that drifts away from its normal thermal baseline.

Related resources

Condition-Based Monitoring With Thermal Imaging

A practical guide to using thermal data as an early maintenance and fire-risk signal.

Forklift Filtering and Nuisance Alarms

How AVIAN separates routine industrial movement from events that need action.

AVIAN T100 Thermal Monitoring

The fixed thermal camera system behind AVIAN anomaly detection and alerts.

AI Thermal Anomaly Detection

Catch abnormal heat before it becomes downtime or fire

Talk to our team See AVIAN T100

Platform workflow

Detect

Alert

Verify

Act

Document

380°F

hotspot Sierra Pacific Industries could see in thermal before smoke or visible flame appeared in the RGB view.

Why it matters

Heat problems rarely start as obvious emergencies

Manual thermal rounds only capture a moment in time, often days or weeks apart.

Fixed thresholds can miss slow drift on assets that normally run warm.

Visible-light cameras show context, but they do not measure surface temperature.

Smoke and flame detection usually enters later in the event timeline.

How AVIAN works

Thermal intelligence built for real industrial scenes

AVIAN combines thermal capture, RGB context, zone-based monitoring, adaptive baselines, and smart alarm filtering so teams see useful anomalies instead of raw camera noise.

Thermal and RGB context

Operators see the heat signature and the visible scene together, so a hotspot is tied to the asset, belt edge, pile, panel, or process area that needs attention.

Baseline-aware detection

The system tracks normal thermal behavior for each monitored zone and flags sustained drift instead of relying only on a generic temperature limit.

Noise filtering

AVIAN filters routine industrial triggers such as forklifts, loaders, welding sparks, and hot work so alerts stay focused on events that deserve a response.

From signal to response

An anomaly only matters if the right person can act on it

The goal is not another dashboard. The goal is a clear handoff from detected heat to inspection, escalation, shutdown logic, or planned maintenance.

Detect

Spot thermal drift

AVIAN watches each zone continuously and identifies abnormal heat patterns on critical assets.

Alert

Reach the right team

Alerts can go to operators, supervisors, maintenance, and on-call teams through the channels they already use.

Verify

Check the live view

Thermal and RGB views help the team confirm whether the heat source is a bearing, belt, dust pocket, panel, or process condition.

Act

Move before failure

Teams can inspect, clean, stop equipment, escalate fire response, or schedule work while the fix is still routine.

Where it applies

Built around the assets where heat changes the outcome

Sawmills and planer mills

Catch planer heat, bearing drift, roll failures, and dust system hotspots before they turn into fire or lost production.

Recycling and waste

Watch battery events, smoldering loads, conveyor heat, and after-hours hotspots before smoke or sprinklers enter the story.

Biomass and pellet plants

Track friction heat around presses, conveyors, drives, and combustible dust zones.

Mining conveyors

Monitor remote conveyor runs, transfer points, idlers, and drives where manual checks are hard to time.

Proof from the field

Named examples where thermal visibility changed the response

The strongest proof for anomaly detection is not an abstract AI claim. It is an operator seeing heat early enough to intervene.

I can be anywhere in the mill, or even sitting at home

Sierra Pacific Industries uses AVIAN alerts so maintenance leaders can see and act on thermal events without standing beside the asset.

John Brummel, Sierra Pacific Industries

At Sierra Pacific Industries' Lincoln facility, thermal revealed a 380°F hotspot buried under dust while the RGB view still looked normal.

Sierra Pacific Lincoln facility

Schilliger Holz helped turn AVIAN from a concept into an industrial fire prevention system built around real mill conditions.

Schilliger Holz origin story

FAQ

Questions teams ask before they deploy AVIAN

Is AI thermal anomaly detection the same as predictive maintenance?

Does AVIAN replace smoke detectors or flame detectors?

Does anomaly detection require a new control system?

What kinds of anomalies does AVIAN detect?

Related resources

Condition-Based Monitoring With Thermal Imaging

A practical guide to using thermal data as an early maintenance and fire-risk signal.

Forklift Filtering and Nuisance Alarms

How AVIAN separates routine industrial movement from events that need action.

AVIAN T100 Thermal Monitoring

The fixed thermal camera system behind AVIAN anomaly detection and alerts.

AI Thermal Anomaly Detection

Catch abnormal heat before it becomes downtime or fire

Talk to our team See AVIAN T100

Platform workflow

Detect

Alert

Verify

Act

Document

380°F

hotspot Sierra Pacific Industries could see in thermal before smoke or visible flame appeared in the RGB view.

Why it matters

Heat problems rarely start as obvious emergencies

Manual thermal rounds only capture a moment in time, often days or weeks apart.

Fixed thresholds can miss slow drift on assets that normally run warm.

Visible-light cameras show context, but they do not measure surface temperature.

Smoke and flame detection usually enters later in the event timeline.

How AVIAN works

Thermal intelligence built for real industrial scenes

AVIAN combines thermal capture, RGB context, zone-based monitoring, adaptive baselines, and smart alarm filtering so teams see useful anomalies instead of raw camera noise.

Thermal and RGB context

Operators see the heat signature and the visible scene together, so a hotspot is tied to the asset, belt edge, pile, panel, or process area that needs attention.

Baseline-aware detection

The system tracks normal thermal behavior for each monitored zone and flags sustained drift instead of relying only on a generic temperature limit.

Noise filtering

AVIAN filters routine industrial triggers such as forklifts, loaders, welding sparks, and hot work so alerts stay focused on events that deserve a response.

From signal to response

An anomaly only matters if the right person can act on it

The goal is not another dashboard. The goal is a clear handoff from detected heat to inspection, escalation, shutdown logic, or planned maintenance.

Detect

Spot thermal drift

AVIAN watches each zone continuously and identifies abnormal heat patterns on critical assets.

Alert

Reach the right team

Alerts can go to operators, supervisors, maintenance, and on-call teams through the channels they already use.

Verify

Check the live view

Thermal and RGB views help the team confirm whether the heat source is a bearing, belt, dust pocket, panel, or process condition.

Act

Move before failure

Teams can inspect, clean, stop equipment, escalate fire response, or schedule work while the fix is still routine.

Where it applies

Built around the assets where heat changes the outcome

Sawmills and planer mills

Catch planer heat, bearing drift, roll failures, and dust system hotspots before they turn into fire or lost production.

Recycling and waste

Watch battery events, smoldering loads, conveyor heat, and after-hours hotspots before smoke or sprinklers enter the story.

Biomass and pellet plants

Track friction heat around presses, conveyors, drives, and combustible dust zones.

Mining conveyors

Monitor remote conveyor runs, transfer points, idlers, and drives where manual checks are hard to time.

Proof from the field

Named examples where thermal visibility changed the response

The strongest proof for anomaly detection is not an abstract AI claim. It is an operator seeing heat early enough to intervene.

I can be anywhere in the mill, or even sitting at home

Sierra Pacific Industries uses AVIAN alerts so maintenance leaders can see and act on thermal events without standing beside the asset.

John Brummel, Sierra Pacific Industries

At Sierra Pacific Industries' Lincoln facility, thermal revealed a 380°F hotspot buried under dust while the RGB view still looked normal.

Sierra Pacific Lincoln facility

Schilliger Holz helped turn AVIAN from a concept into an industrial fire prevention system built around real mill conditions.