Infrastructure Inspection · BC & Alberta

Drone Infrastructure Inspection

Powerlines, pipelines, bridges, towers, and industrial facilities — inspected faster, safer, and in far more detail than rope access or crewed flight. Dual thermal and visual sensors on the Matrice 350 RTK deliver actionable data for decision support across British Columbia and Alberta.

55 min Flight Endurance
2 cm Positioning Accuracy
640×512 Thermal Resolution
IP55 Weatherproofed

01 / The Advantage

Better Data. Less Risk.
No Ropes.

Traditional infrastructure inspection means rope crews, crewed helicopters, or ground teams with binoculars. Drone inspection eliminates height risk, covers more ground per day, and captures both visual and thermal data simultaneously — giving your engineering and maintenance teams richer information to act on.

Zero Rope-Access Risk

Remove workers from towers, bridges, and energized lines. The drone captures every angle without putting crews at height or near live electrical infrastructure.

Faster Coverage

Inspect kilometres of powerline or pipeline corridor in a single day. Repeat flights at scheduled intervals without the lead time and cost of crewed aircraft.

Thermal + Visual in One Pass

The Zenmuse H20N captures radiometric thermal and high-resolution visible imagery simultaneously. One flight delivers two data streams for comprehensive condition assessment.

Centimetre-Level Positioning

RTK GNSS with centimetre-level accuracy ensures that defects, anomalies, and asset locations are precisely documented and repeatable across inspection cycles.

Structured Deliverables

Annotated image sets, thermal radiometric TIFFs, GPS-tagged anomaly reports, and KML asset maps — data products formatted for decision support and engineering review.

All-Weather Capable

IP55-rated airframe and sensors operate in rain, dust, and temperatures down to -20°C — keeping your inspection schedule on track regardless of BC weather conditions.

02 / How It Works

Inspection Workflow

From initial site review to final deliverable, every flight follows a structured protocol designed to maximize data quality and minimize revisits.

  1. Asset & Site Review

    We review existing asset registers, GIS data, and access constraints to plan optimal flight paths and sensor configurations before mobilizing to site.

  2. Regulatory Clearance

    Nav Canada RPAS flight planning, airspace authorization, and utility company coordination completed in advance — no surprises on the day of inspection.

  3. Dual-Sensor Data Capture

    The M350 RTK flies systematic inspection passes, capturing simultaneous radiometric thermal and high-resolution visible data with precise GPS tagging at each anomaly.

  4. Field QC & Completeness Check

    Data reviewed on-site before demobilization to confirm coverage gaps are re-flown and all critical components are captured before leaving the area.

  5. Processing & Anomaly Reporting

    Thermal and visual data processed into annotated reports with GPS coordinates, severity classifications, and recommended maintenance actions — formatted for your engineering team.

03 / Applications

What We Inspect

From high-voltage transmission lines to concrete dam faces, our sensor suite adapts to the specific inspection requirements of each asset class.

Electrical Utility

Powerline & Transmission Inspection

Thermal imaging detects hot joints, failing insulators, and damaged conductors on distribution and transmission lines. Visual imagery captures tower condition, hardware corrosion, and vegetation encroachment — all without a helicopter or energized climb.

Energy & Midstream

Pipeline Corridor Inspection

Aerial inspection of above-ground pipeline sections, compressor stations, and right-of-way corridors. Thermal imaging identifies temperature anomalies at fittings, valves, and heat-traced sections, while visual data documents ground disturbance and third-party encroachments.

Transportation

Bridge & Overpass Inspection

Deck surface, underside fascia, abutments, and pier columns captured in high resolution without lane closures or under-bridge inspection vehicles. Thermal imaging detects delamination and moisture ingress in concrete structures that is invisible to the naked eye.

Telecom & Wind

Tower & Turbine Inspection

Cell towers, radio masts, and wind turbine blades inspected at altitude without any climber exposure. Close-proximity orbital flights capture bolt hardware, welds, blade surface erosion, and leading-edge damage in full detail.

Water Infrastructure

Dam & Spillway Inspection

Concrete dam faces, earthen embankments, spillways, and outlet works inspected for cracking, seepage, vegetation growth, and surface deterioration. Thermal imaging identifies subsurface moisture and seepage pathways not visible on the surface.

Industrial

Facility & Tank Farm Inspection

Industrial facilities, storage tanks, flare stacks, and process equipment inspected for mechanical integrity, thermal anomalies, and corrosion. Aerial access eliminates scaffolding costs for routine condition checks and pre-turnaround assessments.

04 / What You Receive

Inspection Deliverables

Every inspection package is built around your team's workflow — structured data products for decision support, not raw files to interpret alone.

Annotated Anomaly Report GPS-tagged PDF report with all identified defects, thermal hotspots, and damage classifications sorted by severity and asset location.
Radiometric Thermal Images Full-resolution TIFF files with embedded temperature data for every thermal anomaly — importable into your FLIR or infrared analysis software.
High-Resolution Visual Imagery Geo-tagged JPEGs of the full inspection asset with close-up captures of all components of interest — organized by structure, span, or station.
KML / GIS Asset Map Spatial export of all anomaly locations, flight paths, and asset geometry for overlay in your GIS platform, ArcGIS, or Google Earth.
Side-by-Side Thermal/Visual Comparisons Matched thermal and visible image pairs at each anomaly point for straightforward engineer review without specialized software.
Flight Logs & Metadata Complete flight data including timestamps, sensor settings, and GPS tracks for audit, regulatory, and repeat-inspection baseline records.

05 / Equipment

Industrial-Grade
Sensor Platform

Commercial inspection demands commercial hardware. The Matrice 350 RTK with dual-sensor payload is the same platform used by utility companies and engineering consultants across North America.

DJI Matrice 350 RTK

Max Flight Time55 min
Max Wind Resistance12 m/s
Operating Temperature-20°C to 50°C
IP RatingIP55
GNSS PositioningCentimetre-level RTK
Dual-Operator ReadyYes — payload control
Payload Capacity2.7 kg

Zenmuse H20N

Thermal Resolution640×512 px
Thermal Sensitivity< 50 mK NETD
Radiometric ModeYes — full temperature data
Visible Zoom Camera200× hybrid zoom
Laser Rangefinder3–1,200 m
Starlight Night SensorYes
Operating Temp-20°C to 50°C

06 / FAQ

Common Questions About
Drone Inspection

Yes. The M350 RTK is designed for proximity inspection of energized infrastructure. We maintain safe standoff distances defined by utility standards and coordinate with the line owner prior to any flight near live conductors. No outage or de-energization is required for most aerial inspection work.

Yes. We manage all Nav Canada RPAS flight planning and airspace authorization. For sites near airports, heliports, or restricted zones, we obtain the required SFOC (Special Flight Operations Certificate) or use the Nav Canada drone authorization portal in advance of the project. All transport and utility coordination is handled by us.

Radiometric thermal imagery stores actual temperature data in every pixel of the image — not just a coloured picture of heat. This means your engineers can open the TIFFs in tools like FLIR Tools or ThermoView and query precise temperatures at any point on the asset, enabling accurate severity assessment and trending between inspections.

It depends on circuit length, terrain, and access. As a general guide, a single-crew drone team can inspect 20–40 km of distribution line per day under typical conditions. Transmission lines with more complex structures take longer per kilometre. We provide a detailed timeline estimate as part of every quote.

Yes. We regularly operate in BC's mountain corridors, remote valleys, and terrain where ground access is limited or impossible. The M350 RTK handles wind, altitude, and cold temperatures well. For very remote sites, we factor in mobilization logistics and typically coordinate with local camps or accommodations.

Yes. Deliverables are structured around your team's workflow — not raw drone files. Standard output includes a GPS-referenced anomaly report with severity ratings, radiometric thermal TIFFs, annotated visual imagery, and a KML/GIS export. If your organization uses a specific reporting template or CMMS system, ask us about custom output formats.

Ready to Inspect

Start Your Infrastructure
Inspection
Project

Tell us about your asset, location, and inspection objectives. We'll scope the project, confirm airspace requirements, and provide a detailed quote — typically within 24 hours.

Talk to ARIA 24/7 — our AI voice agent is always available to answer questions and take project details