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Deploying sensor networks that measure what models miss

Deploying sensor networks that measure what models miss

Deploying sensor networks that measure what models miss

Delivering live, trusted water data to utilities, insurers, and infrastructure operators

Delivering live, trusted water data to utilities, insurers, and infrastructure operators

Delivering live, trusted water data to utilities, insurers, and infrastructure operators

Turning water and sediment signals into actionable decisions

Turning water and sediment signals into actionable decisions

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real time water
risk is invisible

We built global systems to predict weather. We mapped the atmosphere, the oceans, even space.

But freshwater — the system responsible for 70% of natural disasters — remains one of the least measured, least digitized assets in critical infrastructure.

$43 Billion

Damage from the 2021 EU floods, where debris raised water levels 2m+ above forecasts.

01

Water data is fragmented, delayed, and siloed.

02

Legacy stations are sparse, slow, and impossible to scale.

Legacy stations are sparse, slow, and impossible to scale.

03

Climate volatility is rising. So is the cost of operating blind.

Climate volatility is rising. So is the cost of operating blind.

22 DEPLOYMENTS
ACROSS 11 COUNTRIES

Current deployments

Current deployments

Flood, drought, and sediment risk modelling

Flood, drought, and sediment risk modelling

Critical infrastructure protection

Critical infrastructure protection

Water benefit accounting

Water benefit accounting

Regulatory compliance and sustainability reporting

Regulatory compliance and sustainability reporting

Ecosystem health monitoring

Ecosystem health monitoring

Circular economy and resource recovery

Circular economy and resource recovery

THE
DATA LAYER

Riverkin is a distributed sensor network and data aggregation platform for real-time freshwater monitoring

Riverkin is a distributed sensor network and data aggregation platform for real-time freshwater monitoring

TO MAKE WATERSHED
RISK OPERATIONAL

We turn water and sediment signals into into structured, validated data designed to scale across entire watersheds.

Infrastructure

Our sensors deployed in rivers. Real-time measurement of sediment, flow, and land-water dynamics.

Infrastructure

Our sensors deployed in rivers. Real-time measurement of sediment, flow, and land-water dynamics.

Infrastructure

Our sensors deployed in rivers. Real-time measurement of sediment, flow, and land-water dynamics.

Logic

Automated data cleaning, validation, structuring.

Logic

Automated data cleaning, validation, structuring.

Logic

Automated data cleaning, validation, structuring.

DEcisions

Outputs ready for flood models, risk platforms, and compliance systems.

DEcisions

Outputs ready for flood models, risk platforms, and compliance systems.

DEcisions

Outputs ready for flood models, risk platforms, and compliance systems.

Built for critical infrastructure.

Helping to make water risk operational.

Critical infrastructure protection

Our data used as an early warning system to protect critical assets from sediment damage.

Shut down turbines before abrasion. Prevent reservoir sedimentation. Automate compliance monitoring.

Flood
modeling

Live, continuous, aggregated and standardised sediment data for Europe.

Built for natural catastrophe modellers who need sediment inputs at watershed scale to improve flood models for reinsurance. We deploy our own sensors and aggregate existing siloed data sources into one trusted, comparable dataset.

Environmental Compliance

Prove your operations don't impact

the local water system.

Real-time monitoring for sediment flushing within environmental limits, biodiversity metrics, and regulatory reporting. Backed by verifiable data.

River monitoring device installed among rocks in a flowing stream beneath a bridge.
Sensor placed along a riverbank measuring freshwater conditions in a natural landscape.