See what your water is carrying.
FlyPix AI is the no-code water quality monitoring software that turns satellite, drone, and multispectral pixels into algal-bloom maps, turbidity gradients, and pollution plumes you can act on — covering whole lakes and coastlines and saving up to 99.7% of manual analysis time.
Assessing one scene by hand takes 997 seconds.
FlyPix AI takes 3.
A single scene can hold thousands of square kilometres of lake, reservoir, and coastline where chlorophyll, turbidity, and pollution shift day to day. Interpreting water quality band by band does not scale, and a bloom can spread before a report is finished. FlyPix AI analyses and maps every quality signal instantly, so monitoring keeps pace with every new pass.
Analysts compute indices and trace bloom and plume edges by hand, scene after scene. Results are inconsistent, slow, and out of date before they reach an environmental or water-utility team.
Up to 99.7% time saved. Consistent, georeferenced water quality maps you can trend over time and export straight into your environmental models and GIS.
AI bloom, turbidity, and pollution detection, without the code.
Water quality monitoring software is a tool that ingests and analyses imagery to detect algal blooms, estimate chlorophyll and turbidity, and map pollution across water bodies. FlyPix AI is a no-code platform that uses artificial intelligence to find blooms, map sediment and turbidity gradients, flag surface pollution and discharge plumes, and track eutrophication across satellite, drone, and multispectral imagery. You upload your captures, label a handful of examples, and the AI engine builds a custom model and runs analysis across the whole area of interest — turning hours of manual interpretation into minutes of decision-ready insight.
Everything you need to monitor water quality
One platform to detect, map, measure, and monitor water quality across every scene you capture — from a single reservoir to an entire coastline.
Algal bloom detection
Find and outline harmful algal blooms and cyanobacteria from chlorophyll and pigment signals before they spread across a lake or coast.
Chlorophyll estimation
Map chlorophyll-a concentration as a proxy for productivity and trophic state across the whole water body in a single pass.
Turbidity & sediment mapping
Map suspended sediment and turbidity gradients to track runoff, dredging, and storm impacts on clarity.
Pollution & plume detection
Detect surface pollution, discharge plumes, and outfall signatures and outline them as clean georeferenced vectors.
Eutrophication change detection
Compare repeat passes to surface seasonal blooms, worsening eutrophication, and long-term water quality trends over time.
No-code custom models
Train a detector for the exact water quality signal you care about — a specific bloom, a turbid plume, a thermal discharge — by labelling a few examples, no programming.
From raw imagery to water quality map in four steps
A no-code workflow built so environmental scientists, water utilities, and regulators — not just data scientists — can run production-grade water quality monitoring.
Upload your imagery
Bring satellite, aerial, or drone captures in any common format — RGB, multispectral, hyperspectral, or thermal.
Label what matters
Mark a few examples of the bloom, plume, or turbidity signal you want to find. A handful is enough for the engine to learn.
Let the AI analyse
FlyPix builds a model from your labels and detects, maps, and measures water quality across the whole scene.
Explore & export
Review blooms, turbidity, and plumes on interactive maps and dashboards, then export vector layers to your environmental tools and GIS.
One platform for every sensor over the water
Water quality monitoring is more than true-colour pictures. FlyPix AI ingests the full range of remote-sensing data — read chlorophyll and turbidity with multispectral and hyperspectral bands, detect thermal discharge with infrared, and map plumes across whole coastlines — all in one workspace.
See all supported formats →Built for every water quality team
Train models for the exact water quality signals your mission cares about and get analysis tailored to your domain.
Environmental agencies
Bloom & pollution alerts
Water utilities
Source water & intakes
Lake & reservoir management
Eutrophication & blooms
Coastal monitoring
Plumes & nearshore quality
Agriculture & runoff
Nutrient & sediment loading
Regulatory compliance
Discharge & permits
Aquaculture
Bloom & site water health
Mining & industry
Tailings & effluent
Tourism & recreation
Bathing water safety
Research & GIS
Water quality indices
Why water quality teams choose FlyPix AI
The platform removes the bottlenecks that slow water quality monitoring: manual index computation, specialist headcount, rigid formats, and tooling that cannot keep pace with a fast-spreading bloom.
Analysis in seconds
Detect blooms and map turbidity and plumes across a full scene in seconds instead of hours of manual interpretation — and repeat it on every new pass.
Catch blooms early
Surface algal blooms and pollution events from chlorophyll and pigment signals before they spread, so teams can respond while it still matters.
A true no-code platform
Environmental scientists and water utilities train and run AI models on their own imagery — no programming, no data-science team, no vendor queue.
Scales to any water body
Monitor a single reservoir or sweep an entire coastline at the cadence your mission 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 water quality maps.
Create an account and run your first AI water quality analysis on a satellite scene in minutes — no credit card, no code. Want help scoping your workflow? Our geospatial team will set it up with you.
Water quality monitoring software, answered
The questions environmental scientists, water utilities, and regulators ask before switching to AI-powered water quality monitoring.
What is water quality monitoring software?
Do I need coding or GIS expertise to use FlyPix AI?
Can FlyPix AI detect algal blooms?
How does FlyPix AI measure water quality from imagery?
What imagery and data does FlyPix AI support for water quality?
How much time can FlyPix AI save versus manual analysis?
Can I try FlyPix AI on my own imagery?
See what your water is hiding.
Join 10,000+ users automating geospatial analysis with FlyPix AI. Upload your first scene and watch the AI map every bloom, plume, and turbidity gradient in seconds.