Real estate surveying
Autonomous ground and aerial robots that capture floor plans, 3D scans and condition reports of buildings. Useful for due diligence, leasing, refurbishments and digital twins of existing assets.
Embodied AI and robotics that bring intelligence into the physical world.
A map of real use cases and the systems needed to run robotic fleets reliably, safely and under clear governance.
Autonomous ground and aerial robots that capture floor plans, 3D scans and condition reports of buildings. Useful for due diligence, leasing, refurbishments and digital twins of existing assets.
Robotic surveyors that walk and fly the site on schedule, compare progress against the BIM model, flag deviations early and produce as-built documentation without stopping crews on the ground.
Thermal and multispectral robots that inspect facades, roofs, HVAC and substations to spot heat loss, faulty insulation and underperforming equipment. The data feeds retrofit plans and ESG reporting.
Drones and crawlers that inspect pipelines, power lines, wind turbines, solar farms and bridges. They reduce rope access and shutdowns, and turn each pass into a comparable dataset over time.
LiDAR and photogrammetry robots that build precise maps of land, quarries, plantations and outdoor industrial sites for planning, volumetric tracking and environmental monitoring.
Programmed drone missions for hard to reach assets: tall structures, large rooftops, remote facilities. Flight plans are reusable so each inspection is repeatable and comparable.
Patrol robots that walk production lines on a schedule, read gauges, listen to vibrations, capture thermal imagery and feed predictive maintenance models, freeing operators from routine rounds.
Autonomous mobile robots for picking, putaway, replenishment, cycle counting and last metre transport between zones. They integrate with the WMS and scale with seasonal peaks.
An agentic layer above mixed fleets that assigns tasks across robots, drones and AMRs, balances load, resolves conflicts and reroutes work as priorities and conditions change in real time.
A single operations cockpit to plan, launch, supervise and review missions across sites. Operators see live telemetry, video and exceptions, and can take manual control when they need to.
Tooling to configure individual robots, define behaviour profiles, manage firmware fleets and simulate missions on a digital twin before they run on the real machines.
Tools to define routes, no go zones, recurring inspections and SLA-driven schedules. Plans adapt to weather, traffic and site events without rewriting the whole calendar.
A unified data plane for robotic operations: battery, position, sensor health, mission outcomes and exceptions. The same stream feeds dashboards, alerts and downstream AI systems.
Policies for human in the loop approvals, geofencing, no fly zones and incident handling. Every mission leaves a tamper evident trail ready for safety reviews and regulators.