Monitoring of slopes and landslide areas

The complete solution for monitoring natural hazards.

Landslide and cut slope monitoring - Leica Geosystems

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The land and the environment are being pushed beyond their natural limits by human impacts such as climate change and deforestation. Continuing development in progressively diverse locations leaves slopes increasingly vulnerable to instability, potentially leading to movements and catastrophic events such as landslides.

Deformation monitoring provides real-time information about slope movements and allows informed decisions based on facts, allowing rapid and critical decisions to ensure the highest safety and effective management of risk.

Total Monitoring is the combination of data from geodetic monitoring sensors (total stations, GNSS or levels) with geotechnical and environmental sensors (tilt sensors, inclinometers/IPI, piezometers, weather stations, etc.) and interferometric radar. It provides the complete picture about events occurring aiding greater understanding of slope instability and movements.

 

Why monitoring is critical in landslide areas:

  1. To predict landslide events and with that, provide time for safe evacuation with early warnings indicating failures by monitoring unstable slopes. Also, monitoring facilitates the study of different mitigation techniques and ground stabilisation effectiveness, allowing geological or geotechnical experts to accurately model slope deformation, which protects people and infrastructure with minimal disruption.
  2. To report hazard events in a danger area by providing information from measurements as early as possible when a landslide occurs, to inform of the movement magnitude, so any danger can be assessed immediately. Landslides can obstruct, damage or destroy transportation links and critical infrastructure, in addition to putting lives at risk. Therefore an automated early warning system is essential to provide information to mitigate the risks from such hazards. Records pre/post event are critical to aid understanding of why landslides occur.
  3. To measure subsequent movements after a landslide event and monitoring of the settling ground allows authorities to assess and manage any further risks to the nearby population or infrastructure, allowing a safe, but quick return to normal life. 
  4. To assess movements caused by human impact where intrusive activities such as quarrying, excavation or construction near slopes may cause instability or even slope failure. Monitoring allows the risks to be safely assessed and managed.
  5. To assess movements caused by environmental events such as earthquakes, temperature change, flooding, deforestation or re-shaping of slopes, that lead to instability and movement. Historic records of change over time are very important for future impact assessments for other slopes in similar environments.

This video provides helpful examples of monitoring installations in a landslide area. It's important to keep in mind that each monitoring project is unique and requires a specifically tailored system. We encourage you to consult with our monitoring specialists before installing any monitoring system to ensure that it's designed to meet your specific needs.



Eksempelstudier

Monitoring a landslide recovery operation

Emergency services needed to quickly control the stability of the slopes in order to begin rescue operations. Working in a precarious and unstable situation, they needed an alert system to warn them should the waste material move again.
Emergency services needed to quickly control the stability of the slopes in order to begin rescue operations. Working in a precarious and unstable situation, they needed an alert system to warn them should the waste material move again.

Real-time monitoring advances landslide risk management

On September 30, 2018, the 200 or so residents of British Columbia’s Old Fort (not far from Fort St. John) were shocked by the roar of a landslide
On September 30, 2018, the 200 or so residents of British Columbia’s Old Fort (not far from Fort St. John) were shocked by the roar of a landslide

Monitoring Pays Off

Thanks in part to Leica Geosystems’ Deformation Monitoring solution GeoMoS, local authorities were able to evacuate the valley’s industrial zone and to close the A2 highway and several cantonal roads at an early stage.
Thanks in part to Leica Geosystems’ Deformation Monitoring solution GeoMoS, local authorities were able to evacuate the valley’s industrial zone and to close the A2 highway and several cantonal roads at an early stage.
Programvareprodukter

Leica GeoMoS

Fleksibel programvareløsning for automatisk deformeringsovervåking.
Fleksibel programvareløsning for automatisk deformeringsovervåking.

Leica GeoMoS Edge

Overvåkingsprogramvare for autonom sensorkontroll og uavbrutt datalogging i felten.
Overvåkingsprogramvare for autonom sensorkontroll og uavbrutt datalogging i felten.

Leica GeoMoS Now!

Analyser og visualiser monitoreringsdata fra hvor som helst.
Analyser og visualiser monitoreringsdata fra hvor som helst.
Maskinvareprodukter

Leica Nova TM60

Designet for automatisert og manuell deformasjonsmonitorering
Designet for automatisert og manuell deformasjonsmonitorering

Monitorering: Leica ComBox60

En intelligent, autonom enhet for kommunikasjons- og strømstyring.
En intelligent, autonom enhet for kommunikasjons- og strømstyring.

Geotekniske sensorer

Automatisert geoteknisk sensormåling og datainnsamling
Automatisert geoteknisk sensormåling og datainnsamling

Leica Nova MS60

Ett instrument til alle landmålingsoppgaver, som hever nivået på sensorfusjoner.
Ett instrument til alle landmålingsoppgaver, som hever nivået på sensorfusjoner.

Leica GM30

All-in-one GNSS monitoring receiver.
All-in-one GNSS monitoring receiver.

Leica GMX910

GNSS receiver with integrated antenna for monitoring.
GNSS receiver with integrated antenna for monitoring.


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