The GrandParis Express is an unprecedented urban development project centered on a major expansion of the existing public transport network for the whole Paris metropolitan area. It consists of a fundamental rethink, redesign, and focus on the public transport network on the scale of the metropolitan area. The purpose of this project is to provide Grand Paris with multimodal transport solutions, more integrated transport services, thus supporting a model of polycentric development. Sixty- eight new stations and 200 kilometers of metro lines will be gradually put into service by 2030. From the very early stages of the project, the Société du Grand Paris (the public agency set up by the French government to deliver the vision of Grand Paris Express) gave priority to a close surveillance of the construction works in order to minimize any potential impact. The progress of the project is driven by risk management and neighborhood disturbance reduction — key aspects in the design and the construction process. Among the monitoring methods implemented, TRE ALTAMIRA, part of the CLS Group, was commissioned in 2015 by the Sociéte du Grand Paris to monitor from space to the nearest millimeter the impact of the operations along its track and the adjacent areas. The satellite-based solution implemented measures ground displacement by processing satellite radar images acquired over the same area at different points in time. During the World Tunnel Congress 2018 held in Dubai, TRE ALTAMIRA presented some of the work conducted so far in cooperation with Setec, a leading French engineering player in the civil engineering field. Setec is participating as designer and construction manager of the western section of Line 15, the first line to be built. Specific surveys conducted for sensitive buildings were also discussed together with the French company Gauss Monitoring. In the first place, a retrospective study of the ground motion was conducted over the 200 kilometers of the Grand Paris Express network. Historical ground motion in the area was mapped and an extensive inventory of the soil surface behavior from April 1992 to March 2015 was provided, offering complementary information for identification of vulnerable constructions before the start of any work. This mapping was generated by processing archived images acquired since the early 1990s to 2010 by medium-resolution satellites from the European Space Agency, and by high-resolution satellites from the Italian and German Space Agency for the more recent period, 2011-2015. The outputs of this satellite historical study are data that can be combined with historical maps and conventional geotechnical surveys Grand Paris Express construction monitoring TRE ALTAMIRA is using a satellite-based solution to measure ground displacement to the nearest millimeter.
InSAR surveillance has been deployed over the 200 kilometers of the Grand Paris Express metro line during all stages of the project — baseline before works back to 1992, monthly updates during works, and post-construction control. Image: TREALTAMIRA
to detect ground movements due to the evolution of quarry conditions or possible slope instability. In zones where clays are found, as is the case for other Grand Paris Express project lines, it would allow for detection of soil movements caused by swelling of clays. The analysis focuses on the amplitude of the motion cumulated over time. For each measured point, it is therefore possible to see at what period the displacements have been initiated, and whether these displacements are stabilized or in progress. These observations are crossed with existing knowledge in order to understand or better apprehend the cause of the motion, and to qualify their potential impact on the line 15 project at the time of tunneling. Monitoring activities will continue during the whole project to detect and measure any ground displacements in the area with the ultimate aim of keeping the prime contractors fully informed of the impact of drilling on the surface so they can adapt their work accordingly. Historical ground motion mapping was generated from processing archived images acquired since the early 1990s to 2010 by medium-resolution satellites from the European Space Agency, and by high-resolution satellites from the Italian and German Space Agency for the more recent period, 2011-2015. Image: TRE ALTAMIRA
Informat ion provided by TRE ALTAMIRA (www. tre-al tami ra.com).
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june 2018
csengineermag.com
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