2012
DOI: 10.1016/j.rse.2011.05.028
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GMES Sentinel-1 mission

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Cited by 1,521 publications
(946 citation statements)
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“…To extend, and fully validate, our prediction models, we count on gaining access, in the near future, to data gathered by a network of GPS that are currently being deployed in Lingang New City, and to make use of the archives of newly-acquired SAR data collected by the European Sentinel-1A/-1B C-band SAR sensors of the Copernicus program [76]. In fact, at the time of this investigation, Sentinel-1 archives relevant to the area under investigation were not sufficiently populated (less than 20 scenes) to allow the generation of reliable and steady displacement time-series.…”
Section: Discussionmentioning
confidence: 99%
“…To extend, and fully validate, our prediction models, we count on gaining access, in the near future, to data gathered by a network of GPS that are currently being deployed in Lingang New City, and to make use of the archives of newly-acquired SAR data collected by the European Sentinel-1A/-1B C-band SAR sensors of the Copernicus program [76]. In fact, at the time of this investigation, Sentinel-1 archives relevant to the area under investigation were not sufficiently populated (less than 20 scenes) to allow the generation of reliable and steady displacement time-series.…”
Section: Discussionmentioning
confidence: 99%
“…Since the repeat intervals of most satellites are daily to monthly [46], it is feasible to acquire pre-and post-disaster satellite images that are helpful for quickly identifying damages. In addition, the Terra/ASTER [47], ALOS [48], ALOS-2 [49], and Sentinel-1 [50] satellites can respond to urgent requests for observations from emergency response teams. Moreover, although observation frequency could be a trade-off to spatial resolution, constellation satellites, such as RapidEye [51], COSMO-SkyMed [52], Pléiades system [53], and Sentinel system [50], breaks through the trade-off by using temporally-shifted satellites with identical specifications in the coplanar orbits [54].…”
Section: Earth Observationmentioning
confidence: 99%
“…In addition, the Terra/ASTER [47], ALOS [48], ALOS-2 [49], and Sentinel-1 [50] satellites can respond to urgent requests for observations from emergency response teams. Moreover, although observation frequency could be a trade-off to spatial resolution, constellation satellites, such as RapidEye [51], COSMO-SkyMed [52], Pléiades system [53], and Sentinel system [50], breaks through the trade-off by using temporally-shifted satellites with identical specifications in the coplanar orbits [54]. Since changes in detection between pre-and post-disaster are the most effective and efficient methods for identifying hazard damages from satellite imagery [55,56], there is a potential need for baseline satellite images that cover disaster-prone areas, which can enable better preparedness.…”
Section: Earth Observationmentioning
confidence: 99%
“…The Copernicus Sentinel-1 constellation brings a paradigm shift to the field of InSAR, with its operational characteristics: mission configuration, acquisition planning, and data distribution policy [1]. The objective of the ESA SEOM IN-SARAP project is to perform a qualitative and quantitative evaluation of the S1 constellation for interferometric analysis.…”
Section: Introductionmentioning
confidence: 99%