Catch the slope before it slides.
FlyPix AI is the no-code slope stability monitoring software that turns InSAR, SAR, and drone imagery into wall-movement layers, crack maps, and rockfall-source alerts — watching pit walls, embankments, cuttings, and natural hillsides and saving up to 99.7% of manual analysis time.
Inspecting one wall by hand takes 997 seconds a scene.
FlyPix AI takes 3.
A single pit or transport corridor can hide dozens of moving benches and millimetres of creep across kilometres of slope. Walking the wall and tracing it by hand cannot keep pace. FlyPix AI flags moving ground and outlines it instantly, so monitoring keeps up with every new pass.
Geotechnical teams inspect benches, cracks, and scarps on foot, scene after scene. Coverage is partial, slow, and out of date long before a wall finally lets go.
Up to 99.7% time saved. Consistent, georeferenced movement and crack layers you can track over time and export straight into your GIS.
Watch every wall move, without the code.
Slope stability monitoring software ingests repeat imagery of slopes and analyses it to detect movement, cracks, and failure risk before a slope gives way. FlyPix AI is a no-code platform that uses artificial intelligence to track pit walls, embankments, cuttings, and natural hillsides — measuring creep, mapping cracks and scarps, and flagging rockfall source areas across InSAR, SAR, and drone imagery. You upload your captures, label a few examples, and the AI engine watches the whole slope — turning days of manual inspection into minutes of early-warning insight.
Everything you need to monitor slope stability
One platform to track wall movement, map cracks, flag rockfall sources, and watch change across every slope you cover — from a single bench to a whole pit or corridor.
Wall & slope deformation
Surface millimetre-scale creep and movement on pit walls, benches, and natural slopes from InSAR and repeat SAR over time.
Crack & scarp detection
Detect and outline tension cracks, fissures, and fresh scarps on slopes in a single pass — well before visible failure.
Rockfall source mapping
Pinpoint unstable source areas, loose blocks, and overhangs that feed rockfall onto roads, benches, and rail below.
Vegetation-loss tracking
Flag vegetation stripping and bare-ground change on hillsides that often precede shallow slides and erosion.
Change detection
Compare repeat captures to surface fresh movement, widening cracks, and slumping between dates — automatically.
No-code custom models
Train a detector for the exact slope feature you care about — a bench crack, a bulging wall, a seep — by labelling a few examples.
From raw imagery to early warning in four steps
A no-code workflow built so geotechnical engineers, mine planners, and asset teams — not just data scientists — can run production-grade slope monitoring.
Upload your imagery
Bring drone, aerial, or satellite captures in any common format — RGB, multispectral, InSAR, or LiDAR of the slope.
Label what matters
Mark a few examples of cracks, scarps, or moving benches. A handful is enough for the engine to learn.
Let the AI watch
FlyPix builds a model from your labels and tracks movement, cracks, and rockfall sources across the whole slope.
Explore & export
Review results on interactive maps, then export movement and crack layers to your GIS and reporting tools.
One platform for every sensor over the slope
Slope monitoring is more than true-colour pictures. FlyPix AI ingests the full range of imagery — measure millimetre wall movement with InSAR, model bench geometry with LiDAR, and inspect cracks up close with drone — all in one workspace.
See all supported formats →Built for every slope-risk team
Train models for the exact walls, cuttings, and slopes your site cares about and get monitoring tailored to your operation.
Open-pit mining
Pit walls & benches
Rail & transport
Cuttings & embankments
Construction
Excavation & batter slopes
Energy & pipelines
Slopes above corridors
Dams & geotechnical
Embankment & abutment slopes
Emergency response
Post-event slope checks
Government & roads
Highway cut slopes
Insurance
Slope-failure exposure
Geological surveys
Natural hillside risk
Climate & research
Slope creep & erosion
Why slope-risk teams choose FlyPix AI
The platform removes the bottlenecks that slow slope monitoring: manual inspection, specialist headcount, partial coverage, and tooling that cannot keep pace with new passes.
Monitoring in seconds
Flag moving walls and fresh cracks across a whole pit or corridor in seconds instead of days of manual inspection — and repeat it on every new pass.
A true no-code platform
Geotechnical engineers and asset teams train and run AI models on their own imagery — no programming, no data-science team.
Multi-sensor by design
Combine drone, optical, InSAR, SAR, and LiDAR so cloud, darkness, and standoff distance do not stop the monitoring.
Scales to any slope
Zoom into a single bench or sweep an entire pit or rail corridor at the cadence your early-warning programme demands.
What geospatial teams say
From industrial pilots to research labs to environmental missions — see how teams put FlyPix AI to work.
We ran a joint pilot with FlyPix AI in an industrial setting. We were impressed by the dedicated, easy-to-work-with team, their expertise, and how quickly they applied the technology to a novel use case.
FlyPix AI helped us go from idea to proof of concept in record time. The team was responsive, the platform was easy to integrate, and we tested geospatial insights on real property data within days.
FlyPix AI made it remarkably easy to turn drone imagery into actionable results — truly next-gen tech, delivering AI-driven analysis and cloud computing within minutes without complex setups.
What surprised us most was how effortless it was to start. The platform is robust, easy to navigate, and extremely reliable.
FlyPix AI helped us automate land-use classification with incredible precision and speed, saving months of manual work.
Working with FlyPix has significantly elevated the impact of our clean-up missions. We're proud to collaborate with a team that shares our commitment to environmental responsibility.
Turn your imagery into early warning.
Create an account and watch your first wall with AI in minutes — no credit card, no code. Want help scoping your workflow? Our geospatial team will set it up with you.
Slope stability monitoring software, answered
The questions geotechnical engineers, mine planners, and asset teams ask before switching to AI-powered slope monitoring.
What is slope stability monitoring software?
Do I need coding or GIS expertise to use FlyPix AI?
Can FlyPix AI measure slow wall movement and creep?
What imagery and data formats does FlyPix AI support?
Can FlyPix AI help with rockfall early warning?
How much time can FlyPix AI save versus manual analysis?
Can I try FlyPix AI on my own slopes?
See which wall is moving.
Join 10,000+ users automating image analysis with FlyPix AI. Upload your first scene and watch the AI track wall movement and cracks in seconds.