For site and property operators, a fire on the horizon is a clearance decision measured in minutes — and a duty-of-care obligation measured in records. Edgegenix puts an AI watch on your property: Edge AI detects smoke and fire on site, day and night, even with no network; Cloud AI verifies it against weather and terrain and keeps the timestamped evidence trail; ECIA keeps the site connected when networks degrade — exactly when it matters.
Fire early warning is the front door — the same platform carries asset monitoring, compliance records and site operations for each industry below.
Players, staff and guests spread across eighteen holes, often backing onto scrub and far from shelter. On high-risk days the club decides whether to open, when to clear the course, and how to show it met its duty of care.
One camera on high ground watches the full property and the bushland beyond it, day and night.
Minutes of notice with location and direction turn evacuation into a marshalled clearance, not a scramble.
Timestamped warnings and actions — the documented watch for the board, members and insurers.
Confidence to make open and close calls on total fire ban days, with a verified watch running.
Smoke & flame detection on site — keeps watching with no connectivity, syncs when the network returns.
Verified alert with location and direction, fused with weather — plus the duty-of-care evidence trail.
Connectivity watch for the site, so the alert path is proven healthy on the days it counts.
a fire’s area can grow within two hours of ignition — every ten-minute delay adds up to 1,500m² in moderately dry conditions.
Smoke taint can destroy a vintage while flame never reaches the rows — and claims turn on proving when grapes were exposed. The decisions that matter are when to sample, when to pick, and what to show the insurer.
A verified alert while smoke is still distant, so sampling and picking calls can start early — aligned with AWRI sampling protocol.
A timestamped, directional record of when smoke arrived, how long it stayed and from where.
Bring picking forward with confidence when smoke risk rises during vintage.
A continuous watch on nearby burns — direction, behaviour and proximity, day and night.
Smoke detection over the rows and the boundary — on-device, day and night.
Exposure timeline fused with wind and terrain — the evidence that targets sampling and resolves a contested claim.
Store-and-forward through outages so no exposure window goes unrecorded.
estimated cost to Australian wine grapes from the 2020 bushfires — largely smoke taint, not flame.
Huge areas, few people, patchy connectivity — and detection that still leans on lookout towers and public calls. In plantation timber, a late detection is the difference between a contained ignition and a lost compartment.
Camera detections verified at the edge before escalation, so crews aren’t sent to chase dust and glare.
Perimeters, hotspots and containment tracked through planned burns, with a record of conditions.
Boundaries, direction and intensity from thermal and RGB imagery, fused with weather and terrain.
Burn severity mapping, salvage priorities and regeneration monitoring after an event.
Verification at the tower — smoke vs dust, cloud and glare — before a crew moves.
One estate-wide picture: detections, burns, assets and compliance records.
Connectivity intelligence across remote country — the systems that need the network stay ahead of it.
of NSW timber plantations were destroyed in the 2019–20 Black Summer, with more than 70% hit by severe canopy fire.
Schools near the bushland interface carry the sharpest duty of care there is: students spread across grounds, buses and pickups on a schedule, and closure calls that have to be made early — on information, not rumour.
An AI watch on the boundary and beyond it — a verified alert with location and direction, not a smell of smoke and a guess.
Minutes of notice turn a bell and a hope into a marshalled movement to the assembly area or buses.
Evidence for the early calls — closures, excursion cancellations, early pickups — before the situation forces them.
A timestamped record of watch, warning and response for the department, board and parents.
Continuous smoke & fire watch on the school boundary — works through network congestion on emergency days.
Verified alerts to leadership with direction and context — and the record behind every call.
Alert path monitored and store-and-forward — warnings get through when networks are saturated.
of verified notice are the difference between an orderly, marshalled movement of students and an improvised one.
Residents with limited mobility can’t be evacuated in minutes — a safe relocation takes staff, vehicles and time. The earlier the verified warning, the more of that time you have; the record of it protects residents, staff and the provider.
Verified detection while fire is still distant — the hours a staged, safe relocation actually needs.
Location and direction context to decide: shelter in place, prepare, or move — wing by wing.
A timestamped record of watch, warning and action for regulators, insurers and families.
Early notice of smoke arrival for residents with respiratory vulnerability — not just flame risk.
24/7 AI watch on the boundary and the interface — independent of staff eyes on a busy day.
Verified alerts with spread direction — decision support for shelter vs relocate, and the evidence trail.
The alert path stays connected — predicted, monitored, store-and-forward through outages.
a safe relocation of low-mobility residents takes hours, not minutes — early verified warning is the only way to buy them.
Fire appliances, SES (State Emergency Service) vehicles and utility trucks carry multiple communications bearers — digital radio, LTE/5G multi-carrier, satellite and WiFi — bonded into one mission-critical link. But in the cab, connectivity is invisible: nobody knows which bearer is carrying, which is degrading, or which is about to drop at the worst moment. ECIA treats each vehicle as a node and keeps the answer live.
Radio, cellular, satellite and WiFi links monitored as one resilient system per vehicle — not four separate dashboards.
Comms loss forecast minutes ahead, so crews switch paths or reposition before dispatch loses the vehicle.
Dead zones mapped from the fleet’s own movement, so responses are planned on the coverage that actually exists.
Store-and-forward through outages — vehicle video, telemetry and messages catch up the moment the link returns.
The connectivity intelligence layer — predicts, diagnoses in plain language, and never goes dark.
Fleet-wide coverage map and operational picture for the comms manager.
Optional on-vehicle detection — sharing the same box and the same backhaul.
advance warning before comms loss — per vehicle, with root cause diagnosed in plain language.
Substations, water treatment plants, comms towers, depots — critical assets sit in bushfire-prone country with nobody on site. A fire that starts near one is found late, and the asset owner answers for the watch that wasn’t there.
Continuous AI detection at unmanned sites — smoke and flame around the asset and the approach to it.
Verified alerts with time to act — de-energise, dispatch, or activate suppression before the front arrives.
ECIA watches the site’s own links — predicting failure and preserving data through outages.
The documented watch and response for regulators and insurers — per site, timestamped.
For grid-scale inspection and network operations, see Solutions → Energy & utilities.
Detection on the asset — rugged, pole-mounted, offline-capable. No control room required on site.
Fleet of sites on one operating picture — alerts, spread context and the audit trail.
Remote links monitored and predicted — the site never goes silently dark.
most interface assets are unmanned — an AI watch is the only continuous watch they will ever have.
A structured pilot on your site — clear milestones, measurable results, no obligation. We validate early warning, clearance support and the duty-of-care record against your operational requirements, on your existing hardware or ours.