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Global Deformation Monitor GDM

Our Global Deformation Monitoring (GDM) provides you with the ability to see and understand how the world is changing around you. We use state-of-the-art radar and global positioning tools to detect even the smallest movements of the earth and your built infrastructure.

Global Deformation Monitor GDM

Our Global Deformation Monitoring (GDM) provides you with the ability to see and understand how the world is changing around you. We use state-of-the-art radar and global positioning tools to detect even the smallest movements of the earth and your built infrastructure.

Scalable

Generate deformation maps for any area of interest, no matter the size.

Fast Results

Our cloud-based pipeline makes it possible to run multi-temporal processing on a large number of sites at the same time.

High Measurement Accuracy

Deep learning-based algorithms used for GNSS reference offer more accurate measurements that are constantly checked by our inSAR experts.

Scalable

Generate deformation maps for any area of interest, no matter the size.

Fast Results 

Our cloud-based pipeline makes it possible to run multi-temporal processing on a large number of sites at the same time.

High Measurement Accuracy

Deep learning-based algorithms used for GNSS reference offer more accurate measurements that are constantly checked by our inSAR experts.

Scalable

Generate deformation maps for any area of interest, no matter the size.

Fast Results 

Our cloud-based pipeline makes it possible to run multi-temporal processing on a large number of sites at the same time.

High Measurement Accuracy

Deep learning-based algorithms used for GNSS reference offer more accurate measurements that are constantly checked by our inSAR experts.

Applications

Mining

Monitoring open pit slopes, tailing dams, waste dams, mining areas, infrastructures of mining areas, access roads and production facilities.

Linear infrastructure

Baseline investigation to find active phenomena that may endanger and damage linear infrastructure like roads, highways, and rail lines by watching active movements along linear infrastructure and in their surroundings.

Critical infrastructure

Hydrological dams, airports, airstrips and ports

Oil and gas

Injection and production well areas, underground reservoir monitoring, large area deformations, underground gas storage.

Natural hazards

Identifying potentially risky and/or critical areas and mapping the risk of landslides and volcanic activity based on the type of land cover and the way the land is shaped.

Applications

Mining

Monitoring open pit slopes, tailing dams, waste dams, mining areas, infrastructures of mining areas, access roads and production facilities.

Linear infrastructure

Baseline investigation to find active phenomena that may endanger and damage linear infrastructure like roads, highways, and rail lines by watching active movements along linear infrastructure and in their surroundings.

Critical infrastructure

Hydrological dams, airports, airstrips and ports

Oil and gas

Injection and production well areas, underground reservoir monitoring, large area deformations, underground gas storage.

Natural hazards

Identifying potentially risky and/or critical areas and mapping the risk of landslides and volcanic activity based on the type of land cover and the way the land is shaped.

Features

A no-code environment with a flexible user interface and API

Near-real-time risk monitoring

Use our API to seamlessly connect with your existing risk assessment workflow

Near-real-time risk monitoring

AI alerting systems help users make informed mitigation decisions.

AI Alerting

Near-real-time risk monitoring

A no-code environment with a flexible user interface and API allows users to leverage radar technology for ground deformation risks around critical infrastructure.

Seamless Integration

Use our API to seamlessly connect with your existing risk assessment workflow and run processes at scale.

AI Alerting

AI alerting systems help users make informed mitigation decisions.

Data Fusion

Baseline investigation to find active phenomena that may endanger and damage linear infrastructure like roads, highways, and rail lines by watching active movements along linear infrastructure and in their surroundings.

Diverse algorithms

Use PSinSAR, MSBAS, and SBAS, built and managed by inSAR experts based on terrain and geological profile.

Near-real-time risk monitoring

A no-code environment with a flexible user interface and API allows users to leverage radar technology for ground deformation risks around critical infrastructure.

Seamless Integration

Use our API to seamlessly connect with your existing risk assessment workflow and run processes at scale.

AI Alerting

AI alerting systems help users make informed mitigation decisions.

Data Fusion

Baseline investigation to find active phenomena that may endanger and damage linear infrastructure like roads, highways, and rail lines by watching active movements along linear infrastructure and in their surroundings.

Diverse algorithms

Use PSinSAR, MSBAS, and SBAS, built and managed by inSAR experts based on terrain and geological profile.

© 2022 by KorrAI

Ready to get started?

We’re eager to help you begin enhancing your operations. Reach out to our team to discuss how we can help.

1505 Barrington Street Halifax, NS, B3J 3K5

admin@korrai.com

Tel: +1 (782) 882-1611