Turning radar data into action: slope instabilities in the urban area of Niscemi (Italy)
Land instability is a key activity to ensure people’s safety, environmental protection and the safeguarding of infrastructures and strategic assets. However, traditional campaigns for the regular monitoring of wide areas require considerable financial resources, time and are often complex to implement.
Niscemi is an historical village located up above a hilly area in Sicily (southern Italy), particularly affected by landslides. The local administration of Niscemi is in charge of the forecasting, prevention and risk mitigation activities due to ground instabilities affecting the urban area. The local authority was in
need of setting up a cost-effective early warning information service able to support its duty in terms of civil protection and threat mitigation for population and infrastructures. The use of satellite data can overcome the limitations of traditional field monitoring and can provide frequent, accurate and accessible information thanks to the wide availability of spatial information.
Rheticus® Displacement is where the Municipality of Niscemi found the support it needed. Within the framework agreements signed between Planetek Italia and the Municipality of Niscemi, Rheticus® Displacement was activated for monitoring surface instabilities over the Niscemi urban area.
Rheticus® Displacement is the service for continual monitoring of ground displacements using Sentinel-1 radar data. The service provides monthly monitoring of millimetre displacements of ground surface or infrastructures in areas with active landslide or subsidence phenomena. The availability of historical-
data archives allows backwards analysis of ground displacements over time. The mapping activity is made through the monitoring of points on the ground characterised by high stability, called Persistent Scatterers (PS). With Rheticus® Displacement it is possible to measure the distance between the satellite and PS on the ground over time, recording the time elapsed between the electromagnetic wave emission and the reception of the backscattered signal. Thanks to six-day revisiting time of the Sentinel-1 constellation, the service provides repeated measurements of the sensor-target distance along the satellite’s line-of-sight. The comparison of distances measured over time allows the computation of ground or infrastructure displacements with millimetre precision.
The service provides the Municipality of Niscemi with thematic maps, dynamic geo-analytics and pre-set reports. The satellite monitoring based on Sentinel-1 data also allowed the creation of an early warning service, to alert authorities about the accumulation of instability factors over the area of interest, and thus to plan focused diagnostic activities for threat mitigation and civil protection.
“This service gives us the opportunity to monitor in real-time the dynamic of ground movements and identify the most critical points.”
Concetta Meli, Municipality of Niscemi
- Continuous provision of actionable knowledge through automatic processing of satellite open data.
- Thematic maps and dynamic geo-analytics.
- Friendly dashboard optimised to provide information through a powerful web interface.
- Worldwide coverage.
- Designed to meet user’s needs.
- Subscription-based service.
- No device required to be installed.
- Direct access to Sentinel-1 data provider.
- Availability in Machine-to-Machine mode (M2M) via standard sharing
- Accessibility as cloud service and as web service, following OGC standards.
- Data provided in geographic coordinate system.
- Supported access from portable devices.
- Pre-set exportable reports [on demand].
- Integration with geodetic ground-based monitoring systems [on demand].
- Exploitation of satellite radar data different from Sentinel-1 [on demand].
- High frequency monitoring.
- Focused informative experience. Helpful to gather comprehensive information from satellite platforms from a single point of access, allowing customers to foster the process of analysis and understanding of ongoing phenomena over wide areas.
- Best cost/performance ratio thanks to open data, processing automation, and a cloud-based architecture, regardless the extension of area of interest.
- Overwhelming of in situ monitoring issues, efforts and costs.
- Accurate, dynamic, reliable and always up-to-date actionable knowledge.
- Helpful to anticipate risky situations and harmful events.
- Access to data from anywhere, 24/7.