AI INFRASTRUCTURE FOR WATER OPERATIONS
AI Infrastructure for
Water Operations
No longer suffer from network failures: anticipate problems before they occur and significantly reduce your water losses.
Stop wasting your water.
A GLOBAL OBSERVATION
Freshwater: a limited resource...
THE EARTH
1 083 320 000 000 km3
ALL THE WATER ON EARTH
1 386 000 000 km3
ALL THE LIQUID FRESH WATER
10 633 450 km3
...and yet exploited by infrastructures often managed blindly
What does this imply?
Decisions based on intuition
Reactive management rather than predictive
Invisible losses and reactive maintenance
Stop wasting your water
OUR SOLUTION IN 3 STEPS
Take control of your water network management
Connect
Integrate your sensors and centralise your data.
Model
Simulate your water networks to gain visibility and anticipate issues.
Orchestrate
Manage and control your hydraulic operations using AI to make informed decisions.
AI INFRASTRUCTURE FOR WATER OPERATIONS
A resource that should no longer be managed blindly
We do not just perform statistical detection.

Our intelligence understands:
Hydraulic constraints
Pressure balances
Dynamic behaviours of the network
Energy impacts
Environmental interactions
PROOF OF ROBUSTNESS
Validation from the most demanding sector: agriculture
Why Agriculture?
Agriculture is the sector that consumes the most water, with 69% of global water withdrawals dedicated to it.
How?
Thanks to a modular, interoperable, and action-oriented OS
Modular
Un manque de vision consolidée des réseaux
Un manque de vision consolidée des réseaux
With whom?
We work with major global agricultural producer groups to help them improve their hydraulic operations management.
What result?
Water saved on your irrigation
Cost related to network maintenance
Energy savings on water pumping
Discover IrrigEasy
Stop wasting your water
AI INFRASTRUCTURE FOR WATER OPERATIONS
AI Infrastructure for
Water Operations
No longer suffer from network failures: anticipate problems before they occur and significantly reduce your water losses.
Stop wasting your water.
A GLOBAL OBSERVATION
Freshwater: a limited resource...
THE EARTH
1 083 320 000 000 km3
ALL THE WATER ON EARTH
1 386 000 000 km3
ALL THE LIQUID FRESH WATER
10 633 450 km3
...and yet exploited by infrastructures often managed blindly
What does this imply?
Decisions based on intuition
Reactive management rather than predictive
Invisible losses and reactive maintenance
Stop wasting your water
OUR SOLUTION IN 3 STEPS
Take control of your water network management
Connect
Integrate your sensors and centralise your data.
Model
Simulate your water networks to gain visibility and anticipate issues.
Orchestrate
Manage and control your hydraulic operations using AI to make informed decisions.
AI INFRASTRUCTURE FOR WATER OPERATIONS
A resource that should no longer be managed blindly
We do not just perform statistical detection.

Our intelligence understands:
Hydraulic constraints
Pressure balances
Dynamic behaviours of the network
Energy impacts
Environmental interactions
PROOF OF ROBUSTNESS
Validation from the most demanding sector: agriculture
Why Agriculture?
Agriculture is the sector that consumes the most water, with 69% of global water withdrawals dedicated to it.
How?
Thanks to a modular, interoperable, and action-oriented OS
Modular
Un manque de vision consolidée des réseaux
Un manque de vision consolidée des réseaux
With whom?
We work with major global agricultural producer groups to help them improve their hydraulic operations management.
What result?
Water saved on your irrigation
Cost related to network maintenance
Energy savings on water pumping
Discover IrrigEasy
Stop wasting your water
AI INFRASTRUCTURE FOR WATER OPERATIONS
AI Infrastructure for
Water Operations
No longer suffer from network failures: anticipate problems before they occur and significantly reduce your water losses.
Stop wasting your water.
A GLOBAL OBSERVATION
Freshwater: a limited resource...
THE EARTH
1,083,320,000,000 km³
ALL THE WATER ON EARTH
1,386,000,000 km³
ALL THE LIQUID FRESH WATER
10,633,450 km³
...and yet exploited by infrastructures often managed blindly
What does this imply?
Decisions based on intuition
Reactive management rather than predictive
Invisible losses and reactive maintenance
Stop wasting your water
OUR SOLUTION IN 3 STEPS
Take control of your water network management
Connect
Integrate your sensors and centralise your data.
Model
Simulate your water networks to gain visibility and anticipate issues.
Orchestrate
Manage and control your hydraulic operations using AI to make informed decisions.
AI INFRASTRUCTURE FOR WATER OPERATIONS
An AI grounded in physical reality
We do not just perform statistical detection.

Our intelligence understands:
Hydraulic constraints
Pressure balances
Dynamic behaviours of the network
Energy impacts
Environmental interactions
PROOF OF ROBUSTNESS
Validation from the most demanding sector: agriculture
Why Agriculture?
Agriculture is the sector that consumes the most water, with 69% of global water withdrawals dedicated to it.
How?
Thanks to a modular, interoperable, and action-oriented OS
Modular
Interoperable
Action-oriented
With whom?
We work with major global agricultural producer groups to help them improve their hydraulic operations management.
What result?
Water saved on your irrigation
Cost related to network maintenance
Energy savings on water pumping
Discover IrrigEasy
Stop wasting your water