fix: update external product types reference

[github-actions]

Update external product types reference from daily fetch. See Python API User Guide / Product types discovery

Changed files

May be truncated.
commit f332c4fc210de30e761e763ccf1a62c78cefff12

eodag/resources/ext_product_types.json
10819a10820,12337
>   "geodes": {
>     "product_types_config": {
>       "FLATSIM_AFAR_AUXILIARYDATA_PUBLIC": {
>         "abstract": "This project aims to characterize the spatial and temporal distribution of the deformation in the region of the Afar depression. The aim is to better understand large-scale tectonics (localization of divergent borders, kinematics of the triple point), but also the dynamics of volcanic, seismic and aseismic events, and the mechanics of active faults. The issue of gravity hazard will also be addressed. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, etc.",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-afar-auxiliarydata-public,ground-to-radar,insar,landslides,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping,volcanology",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Afar interferograms"
>       },
>       "FLATSIM_AFAR_INTERFEROGRAM_PUBLIC": {
>         "abstract": "This project aims to characterize the spatial and temporal distribution of the deformation in the region of the Afar depression. The aim is to better understand large-scale tectonics (localization of divergent borders, kinematics of the triple point), but also the dynamics of volcanic, seismic and aseismic events, and the mechanics of active faults. The issue of gravity hazard will also be addressed. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-afar-interferogram-public,ground-geometry,insar,interferogram,landslides,radar-geometry,tectonics,unwrapped,volcanology,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Afar interferograms"
>       },
>       "FLATSIM_AFAR_TIMESERIE_PUBLIC": {
>         "abstract": "This project aims to characterize the spatial and temporal distribution of the deformation in the region of the Afar depression. The aim is to better understand large-scale tectonics (localization of divergent borders, kinematics of the triple point), but also the dynamics of volcanic, seismic and aseismic events, and the mechanics of active faults. The issue of gravity hazard will also be addressed. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time.",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-afar-timeserie-public,ground-geometry,insar,landslides,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie,volcanology",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Afar time series"
>       },
>       "FLATSIM_ANDES_AUXILIARYDATA_PUBLIC": {
>         "abstract": "This project aims to better understand the seismic cycle of the Andean subduction zone in Peru and Chile and the crustal faults in the Andes, to follow the functioning of the large active volcanoes in the region (and to detect possible precursors to eruptions) , and to study the seismic, climatic and anthropogenic forcing on the dynamics of landslides in the Andes. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, etc.",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-andes-auxiliarydata-public,ground-to-radar,insar,landslides,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping,volcanology",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Central Andes auxiliary data"
>       },
>       "FLATSIM_ANDES_INTERFEROGRAM_PUBLIC": {
>         "abstract": "This project aims to better understand the seismic cycle of the Andean subduction zone in Peru and Chile and the crustal faults in the Andes, to follow the functioning of the large active volcanoes in the region (and to detect possible precursors to eruptions) , and to study the seismic, climatic and anthropogenic forcing on the dynamics of landslides in the Andes. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-andes-interferogram-public,ground-geometry,insar,interferogram,landslides,radar-geometry,tectonics,unwrapped,volcanology,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Central Andes interferograms"
>       },
>       "FLATSIM_ANDES_TIMESERIE_PUBLIC": {
>         "abstract": "This project aims to better understand the seismic cycle of the Andean subduction zone in Peru and Chile and the crustal faults in the Andes, to follow the functioning of the large active volcanoes in the region (and to detect possible precursors to eruptions) , and to study the seismic, climatic and anthropogenic forcing on the dynamics of landslides in the Andes. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time.",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-andes-timeserie-public,ground-geometry,insar,landslides,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie,volcanology",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Central Andes time series"
>       },
>       "FLATSIM_BALKANS_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The Balkan region is one of the most seismic zones in Europe, with intense industrial and demographic development. This project aims to better quantify the deformations of tectonic origin in this region (kinematics and localization of active faults, study of earthquakes). He is also interested in deformations of anthropogenic or climatic origin (linked to the exploitation of natural resources or to variations in sea level). This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, ….",
>         "instrument": null,
>         "keywords": "amplitude,anthropogenic-and-climatic-hazards,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-balkans-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Balkans auxiliary data"
>       },
>       "FLATSIM_BALKANS_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The Balkan region is one of the most seismic zones in Europe, with intense industrial and demographic development. This project aims to better quantify the deformations of tectonic origin in this region (kinematics and localization of active faults, study of earthquakes). He is also interested in deformations of anthropogenic or climatic origin (linked to the exploitation of natural resources or to variations in sea level). Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "anthropogenic-and-climatic-hazards,atmospheric-phase-screen,coherence,deformation,flatsim-balkans-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Balkans interferograms"
>       },
>       "FLATSIM_BALKANS_TIMESERIE_PUBLIC": {
>         "abstract": "The Balkan region is one of the most seismic zones in Europe, with intense industrial and demographic development. This project aims to better quantify the deformations of tectonic origin in this region (kinematics and localization of active faults, study of earthquakes). He is also interested in deformations of anthropogenic or climatic origin (linked to the exploitation of natural resources or to variations in sea level). This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "anthropogenic-and-climatic-hazards,data-cube,deformation,flatsim-balkans-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Balkans time series"
>       },
>       "FLATSIM_CAUCASE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The aim of the project is to gain a better understanding of the distribution of deformation associated with convergence between Arabia and Eurasia in the Caucasus region, where various reverse and strike-slip faults with high seismic hazard co-exist. It should enable to propose a regional kinematic and seismo-tectonic model, and quantify vertical movements in particular. Complementary objectives include monitoring mud volcanoes in Azerbaijan, which erupt frequently, and anthropogenic deformation.This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-caucase-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Caucasus auxiliary data"
>       },
>       "FLATSIM_CAUCASE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The aim of the project is to gain a better understanding of the distribution of deformation associated with convergence between Arabia and Eurasia in the Caucasus region, where various reverse and strike-slip faults with high seismic hazard co-exist. It should enable to propose a regional kinematic and seismo-tectonic model, and quantify vertical movements in particular. Complementary objectives include monitoring mud volcanoes in Azerbaijan, which erupt frequently, and anthropogenic deformation. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-caucase-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Caucasus interferograms"
>       },
>       "FLATSIM_CAUCASE_TIMESERIE_PUBLIC": {
>         "abstract": "The aim of the project is to gain a better understanding of the distribution of deformation associated with convergence between Arabia and Eurasia in the Caucasus region, where various reverse and strike-slip faults with high seismic hazard co-exist. It should enable to propose a regional kinematic and seismo-tectonic model, and quantify vertical movements in particular. Complementary objectives include monitoring mud volcanoes in Azerbaijan, which erupt frequently, and anthropogenic deformation.This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-caucase-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Caucasus time series"
>       },
>       "FLATSIM_CHILI_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The project aims to quantify the deformations associated with the Andean subduction in central Chile, with the main objectives to (1) constrain the kinematics and interseismic coupling of the subduction interface and crustal faults, at the front and inside the Andes mountain range, (2) analyze co- and post-seismic deformations during different seismic crises and slow slip episodes, (3) understand the link between the seismic cycle and relief building, (4) monitor the behavior of volcanoes in the Andean arc. Another objective is to characterize erosion episodes during extreme climatic events in the Atacama Desert. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-chili-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Central Chile auxiliary data"
>       },
>       "FLATSIM_CHILI_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The project aims to quantify the deformations associated with the Andean subduction in central Chile, with the main objectives to (1) constrain the kinematics and interseismic coupling of the subduction interface and crustal faults, at the front and inside the Andes mountain range,(2) analyze co- and post-seismic deformations during different seismic crises and slow slip episodes,(3) understand the link between the seismic cycle and relief building,(4) monitor the behavior of volcanoes in the Andean arc. Another objective is to characterize erosion episodes during extreme climatic events in the Atacama Desert.Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-chili-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Central Chile interferograms"
>       },
>       "FLATSIM_CHILI_TIMESERIE_PUBLIC": {
>         "abstract": "The project aims to quantify the deformations associated with the Andean subduction in central Chile, with the main objectives to (1) constrain the kinematics and interseismic coupling of the subduction interface and crustal faults, at the front and inside the Andes mountain range, (2) analyze co- and post-seismic deformations during different seismic crises and slow slip episodes, (3) understand the link between the seismic cycle and relief building, (4) monitor the behavior of volcanoes in the Andean arc. Another objective is to characterize erosion episodes during extreme climatic events in the Atacama Desert.This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-chili-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Central Chile time series"
>       },
>       "FLATSIM_CORSE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "FLATSIM products have also been calculated for the whole of mainland France in the SNO ISDeform.After post-processing at ISTerre (UGA) and validation by ISDeform (during 2024), these products will also be made available via a dedicated collection in the FormaTerre catalog.The project focuses on tectonic, hydrological, landslides, subsidence applications. It can also be used to monitor the compaction of sedimentary basins, deformations associated with the exploitation of the subsoil (storage, mining, hydrothermalism) and certain infrastructures (embankments, etc.)This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-corse-auxiliarydata-public,ground-to-radar,hydrology,insar,landslides,lookup-tables,radar-to-ground,spectral-diversity,subsidences,tectonic,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Corse auxiliary data"
>       },
>       "FLATSIM_CORSE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "FLATSIM products have also been calculated for the whole of mainland France in the SNO ISDeform.After post-processing at ISTerre (UGA) and validation by ISDeform (during 2024), these products will also be made available via a dedicated collection in the FormaTerre catalog.The project focuses on tectonic, hydrological, landslides, subsidence applications. It can also be used to monitor the compaction of sedimentary basins, deformations associated with the exploitation of the subsoil (storage, mining, hydrothermalism) and certain infrastructures (embankments, etc.) Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-corse-interferogram-public,ground-geometry,hydrology,insar,interferogram,landslides,radar-geometry,subsidences,tectonic,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Corse interferograms"
>       },
>       "FLATSIM_CORSE_TIMESERIE_PUBLIC": {
>         "abstract": "FLATSIM products have also been calculated for the whole of mainland France in the SNO ISDeform.After post-processing at ISTerre (UGA) and validation by ISDeform (during 2024), these products will also be made available via a dedicated collection in the FormaTerre catalog. The project focuses on tectonic, hydrological, landslides, subsidence applications. It can also be used to monitor the compaction of sedimentary basins, deformations associated with the exploitation of the subsoil (storage, mining, hydrothermalism) and certain infrastructures (embankments, etc.) This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-corse-timeserie-public,ground-geometry,hydrology,insar,landslides,mean-los-velocity,quality-maps,radar-geometry,stack-list,subsidences,tectonic,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Corse time series"
>       },
>       "FLATSIM_FRANCE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "FLATSIM products have also been calculated for the whole of mainland France in the SNO ISDeform.After post-processing at ISTerre (UGA) and validation by ISDeform (during 2024), these products will also be made available via a dedicated collection in the FormaTerre catalog.The project focuses on tectonic, hydrological, landslides, rock glaciers and subsidence applications. It can also be used to monitor the compaction of sedimentary basins, deformations associated with the exploitation of the subsoil (storage, mining, hydrothermalism) and certain infrastructures (embankments, etc.).This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-france-auxiliarydata-public,ground-to-radar,hydrology,insar,landslides,lookup-tables,radar-to-ground,rock-glaciers,spectral-diversity,subsidence,tectonic,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM France auxiliary data"
>       },
>       "FLATSIM_FRANCE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "FLATSIM products have also been calculated for the whole of mainland France in the SNO ISDeform. After post-processing at ISTerre (UGA) and validation by ISDeform (during 2024), these products will also be made available via a dedicated collection in the FormaTerre catalog. The project focuses on tectonic, hydrological, landslides, rock glaciers and subsidence applications. It can also be used to monitor the compaction of sedimentary basins, deformations associated with the exploitation of the subsoil (storage, mining, hydrothermalism) and certain infrastructures (embankments, etc.).Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-france-interferogram-public,ground-geometry,hydrology,insar,interferogram,landslides,radar-geometry,rock-glaciers,subsidence,tectonic,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM France interferograms"
>       },
>       "FLATSIM_FRANCE_TIMESERIE_PUBLIC": {
>         "abstract": "FLATSIM products have also been calculated for the whole of mainland France in the SNO ISDeform.After post-processing at ISTerre (UGA) and validation by ISDeform (during 2024), these products will also be made available via a dedicated collection in the FormaTerre catalog.The project focuses on tectonic, hydrological, landslides, rock glaciers and subsidence applications. It can also be used to monitor the compaction of sedimentary basins, deformations associated with the exploitation of the subsoil (storage, mining, hydrothermalism) and certain infrastructures (embankments, etc.).This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-france-timeserie-public,ground-geometry,hydrology,insar,landslides,mean-los-velocity,quality-maps,radar-geometry,rock-glaciers,stack-list,subsidence,tectonic,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM France time series"
>       },
>       "FLATSIM_INDE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "Activation of the CIEST2 process to schedule the acquisition of Pleiades stereo images following a request from scientists for a gravitational collapse in the city of Joshimath, India. It has been proposed to supplement the acquisition of stereo images and optical processing with InSAR processing (FLATSIM service) in order to obtain information on the evolution of ground deformation. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-inde-auxiliarydata-public,ground-to-radar,insar,landslide-instability,lookup-tables,radar-to-ground,spectral-diversity,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Joshimath India auxiliary data"
>       },
>       "FLATSIM_INDE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "Activation of the CIEST2 process to schedule the acquisition of Pleiades stereo images following a request from scientists for a gravitational collapse in the city of Joshimath, India. It has been proposed to supplement the acquisition of stereo images and optical processing with InSAR processing (FLATSIM service) in order to obtain information on the evolution of ground deformation. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-inde-interferogram-public,ground-geometry,insar,interferogram,landslide-instability,radar-geometry,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Joshimath India interferograms"
>       },
>       "FLATSIM_INDE_TIMESERIE_PUBLIC": {
>         "abstract": "Activation of the CIEST2 process to schedule the acquisition of Pleiades stereo images following a request from scientists for a gravitational collapse in the city of Joshimath, India. It has been proposed to supplement the acquisition of stereo images and optical processing with InSAR processing (FLATSIM service) in order to obtain information on the evolution of ground deformation. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-inde-timeserie-public,ground-geometry,insar,landslide-instability,mean-los-velocity,quality-maps,radar-geometry,stack-list,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Joshimath India time series"
>       },
>       "FLATSIM_LEVANT_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The main objective of the project is to analyze the coupling distribution (i.e. segmentation into locked zones or aseismic slip zones) along the active fault system of the Levant, in relation to historical earthquake sequences and the physical properties of the faults, with a view to improving the estimation of seismic hazard. The project also includes the study of hydrological processes and their forcings (anthropogenic in particular, related to water resource management), or gravitational processes (landslides and factors controlling their onset and velocity).This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-levant-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Levant auxiliary data"
>       },
>       "FLATSIM_LEVANT_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The main objective of the project is to analyze the coupling distribution (i.e. segmentation into locked zones or aseismic slip zones) along the active fault system of the Levant, in relation to historical earthquake sequences and the physical properties of the faults, with a view to improving the estimation of seismic hazard. The project also includes the study of hydrological processes and their forcings (anthropogenic in particular, related to water resource management), or gravitational processes (landslides and factors controlling their onset and velocity). Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-levant-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Levant interferograms"
>       },
>       "FLATSIM_LEVANT_TIMESERIE_PUBLIC": {
>         "abstract": "The main objective of the project is to analyze the coupling distribution (i.e. segmentation into locked zones or aseismic slip zones) along the active fault system of the Levant, in relation to historical earthquake sequences and the physical properties of the faults, with a view to improving the estimation of seismic hazard. The project also includes the study of hydrological processes and their forcings (anthropogenic in particular, related to water resource management), or gravitational processes (landslides and factors controlling their onset and velocity). This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-levant-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Levant time series"
>       },
>       "FLATSIM_MAGHREB_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The main aim of this project is to quantify tectonic deformation across the Maghreb, in the African/Eurasian convergence zone. In particular, it aims to estimate the spatial distribution and temporal evolution of interseismic deformation or deformation associated with recent earthquakes on active faults, from the coast to the Saharan platform. Secondary themes (landslides, coastal subsidence, dune movement in the Sahara, anthropogenic deformation associated with major structures, natural resource extraction, agriculture, etc.) will also be addressed.This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-maghreb-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Maghreb auxiliary data"
>       },
>       "FLATSIM_MAGHREB_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The main aim of this project is to quantify tectonic deformation across the Maghreb, in the African/Eurasian convergence zone. In particular, it aims to estimate the spatial distribution and temporal evolution of interseismic deformation or deformation associated with recent earthquakes on active faults, from the coast to the Saharan platform. Secondary themes (landslides, coastal subsidence, dune movement in the Sahara, anthropogenic deformation associated with major structures, natural resource extraction, agriculture, etc.) will also be addressed.Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-maghreb-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Maghreb interferograms"
>       },
>       "FLATSIM_MAGHREB_TIMESERIE_PUBLIC": {
>         "abstract": "The main aim of this project is to quantify tectonic deformation across the Maghreb, in the African/Eurasian convergence zone. In particular, it aims to estimate the spatial distribution and temporal evolution of interseismic deformation or deformation associated with recent earthquakes on active faults, from the coast to the Saharan platform. Secondary themes (landslides, coastal subsidence, dune movement in the Sahara, anthropogenic deformation associated with major structures, natural resource extraction, agriculture, etc.) will also be addressed.This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-maghreb-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Maghreb time series"
>       },
>       "FLATSIM_MAKRAN_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The project aims to analyze strain partitioning along the Makran active margin, a convergence zone between Arabia and Eurasia. This region is characterized by major thrust fault systems and laterally variable seismic behavior (large earthquakes in the east, more moderate seismicity in the west). The mode of strain accumulation on active tectonic structures will be analyzed together with the lithospheric structure and geology, in order to better constrain the seismic hazard and geodynamic history of the region.This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-makran-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Makran auxiliary data"
>       },
>       "FLATSIM_MAKRAN_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The project aims to analyze strain partitioning along the Makran active margin, a convergence zone between Arabia and Eurasia. This region is characterized by major thrust fault systems and laterally variable seismic behavior (large earthquakes in the east, more moderate seismicity in the west). The mode of strain accumulation on active tectonic structures will be analyzed together with the lithospheric structure and geology, in order to better constrain the seismic hazard and geodynamic history of the region.Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-makran-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Makran interferograms"
>       },
>       "FLATSIM_MAKRAN_TIMESERIE_PUBLIC": {
>         "abstract": "The project aims to analyze strain partitioning along the Makran active margin, a convergence zone between Arabia and Eurasia. This region is characterized by major thrust fault systems and laterally variable seismic behavior (large earthquakes in the east, more moderate seismicity in the west). The mode of strain accumulation on active tectonic structures will be analyzed together with the lithospheric structure and geology, in order to better constrain the seismic hazard and geodynamic history of the region.This data cube product contains phase delay images at each time step of the time series. It is cumulative through time.",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-makran-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Makran time series"
>       },
>       "FLATSIM_MEXIQUE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The first objective of this project is to constrain interseismic coupling along the Mexican subduction interface and its temporal variations; the aim is to better quantify the distribution between seismic and asismic slip (slow slip events) to better estimate the seismic potential of this subduction zone. A second objective is to study crustal deformations of the upper plate along the trans-Mexican volcanic belt: deformations of tectonic origin, related to crustal faults, and volcanic origin, or deformations of anthropic origin (subsidence of sedimentary basins in relation to overexploitation of aquifers). This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-mexique-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Southern Mexico auxiliary data"
>       },
>       "FLATSIM_MEXIQUE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The first objective of this project is to constrain interseismic coupling along the Mexican subduction interface and its temporal variations; the aim is to better quantify the distribution between seismic and asismic slip (slow slip events) to better estimate the seismic potential of this subduction zone. A second objective is to study crustal deformations of the upper plate along the trans-Mexican volcanic belt: deformations of tectonic origin, related to crustal faults, and volcanic origin, or deformations of anthropic origin (subsidence of sedimentary basins in relation to overexploitation of aquifers). Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-mexique-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Southern Mexico interferograms"
>       },
>       "FLATSIM_MEXIQUE_TIMESERIE_PUBLIC": {
>         "abstract": "The first objective of this project is to constrain interseismic coupling along the Mexican subduction interface and its temporal variations; the aim is to better quantify the distribution between seismic and asismic slip (slow slip events) to better estimate the seismic potential of this subduction zone. A second objective is to study crustal deformations of the upper plate along the trans-Mexican volcanic belt: deformations of tectonic origin, related to crustal faults, and volcanic origin, or deformations of anthropic origin (subsidence of sedimentary basins in relation to overexploitation of aquifers). This data cube product contains phase delay images at each time step of the time series. It is cumulative through time.",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-mexique-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Southern Mexico time series"
>       },
>       "FLATSIM_MOZAMBIQUE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "This project focuses on the southern part of the East African Rift in the Mozambique region. This incipient plate boundary zone, with a low rate of extension, has experienced several Mw> 5 earthquakes since the 20th century. The aim of the project is to extract the tectonic signal from the InSAR time series in order to better characterize the active structures (normal faults) and their kinematics, which are still poorly constrained. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-mozambique-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Mozambique auxiliary data"
>       },
>       "FLATSIM_MOZAMBIQUE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "This project focuses on the southern part of the East African Rift in the Mozambique region. This incipient plate boundary zone, with a low rate of extension, has experienced several Mw> 5 earthquakes since the 20th century. The aim of the project is to extract the tectonic signal from the InSAR time series in order to better characterize the active structures (normal faults) and their kinematics, which are still poorly constrained. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-mozambique-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Mozambique interferograms"
>       },
>       "FLATSIM_MOZAMBIQUE_TIMESERIE_PUBLIC": {
>         "abstract": "This project focuses on the southern part of the East African Rift in the Mozambique region. This incipient plate boundary zone, with a low rate of extension, has experienced several Mw> 5 earthquakes since the 20th century. The aim of the project is to extract the tectonic signal from the InSAR time series in order to better characterize the active structures (normal faults) and their kinematics, which are still poorly constrained. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-mozambique-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Mozambique time series"
>       },
>       "FLATSIM_OKAVANGO_AUXILIARYDATA_PUBLIC": {
>         "abstract": "This project aims to better understand the deformations of tectonic origin in the area of ​​the Okavango Delta (associated with the functioning of the Okavango rift and the East African rift), or of hydrological origin (linked in particular to the flood cycle. ), and the possible interactions between tectonics and hydrology in this region. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-okavango-auxiliarydata-public,ground-to-radar,hydrology,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Okavango auxiliary data"
>       },
>       "FLATSIM_OKAVANGO_INTERFEROGRAM_PUBLIC": {
>         "abstract": "This project aims to better understand the deformations of tectonic origin in the area of ​​the Okavango Delta (associated with the functioning of the Okavango rift and the East African rift), or of hydrological origin (linked in particular to the flood cycle. ), and the possible interactions between tectonics and hydrology in this region. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-okavango-interferogram-public,ground-geometry,hydrology,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Okavango interferograms"
>       },
>       "FLATSIM_OKAVANGO_TIMESERIE_PUBLIC": {
>         "abstract": "This project aims to better understand the deformations of tectonic origin in the area of ​​the Okavango Delta (associated with the functioning of the Okavango rift and the East African rift), or of hydrological origin (linked in particular to the flood cycle. ), and the possible interactions between tectonics and hydrology in this region. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time.",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-okavango-timeserie-public,ground-geometry,hydrology,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Okavango time series"
>       },
>       "FLATSIM_OZARK_AUXILIARYDATA_PUBLIC": {
>         "abstract": "This project focuses on the study of the deformations associated with the Ozark aquifer (south of the Mississippi basin) subjected to strong variations in groundwater level, and in neighboring regions where significant seismicity is observed, at strong seasonal component (New Madrid), or linked to wastewater injections (Oklahoma). The objective is to better understand the geodesic signature of the hydrological cycle. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, ….",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-ozark-auxiliarydata-public,ground-to-radar,hydrology,insar,lookup-tables,radar-to-ground,spectral-diversity,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Ozark auxiliary data"
>       },
>       "FLATSIM_OZARK_INTERFEROGRAM_PUBLIC": {
>         "abstract": "This project focuses on the study of the deformations associated with the Ozark aquifer (south of the Mississippi basin) subjected to strong variations in groundwater level, and in neighboring regions where significant seismicity is observed, at strong seasonal component (New Madrid), or linked to wastewater injections (Oklahoma). The objective is to better understand the geodesic signature of the hydrological cycle. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-ozark-interferogram-public,ground-geometry,hydrology,insar,interferogram,radar-geometry,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Ozark interferograms"
>       },
>       "FLATSIM_OZARK_TIMESERIE_PUBLIC": {
>         "abstract": "This project focuses on the study of the deformations associated with the Ozark aquifer (south of the Mississippi basin) subjected to strong variations in groundwater level, and in neighboring regions where significant seismicity is observed, at strong seasonal component (New Madrid), or linked to wastewater injections (Oklahoma). The objective is to better understand the geodesic signature of the hydrological cycle. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-ozark-timeserie-public,ground-geometry,hydrology,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Ozark time series"
>       },
>       "FLATSIM_SHOWCASE_AUXILIARYDATA_PUBLIC": {
>         "abstract": "Although products are generally available on a temporary limited-access basis, a showcase collection has already been set up with a view to enhancing and promoting the quality of the service. This collection gives access to a sample of products from the various projects and associated collections, processed in the framework of calls for ideas. It enables users to explore the potential of the data processed by the FLATSIM service.This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-showcase-auxiliarydata-public,ground-to-radar,insar,junit-vector,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Showcase auxiliary data"
>       },
>       "FLATSIM_SHOWCASE_INTERFEROGRAM_PUBLIC": {
>         "abstract": "Although products are generally available on a temporary limited-access basis, a showcase collection has already been set up with a view to enhancing and promoting the quality of the service. This collection gives access to a sample of products from the various projects and associated collections, processed in the framework of calls for ideas. It enables users to explore the potential of the data processed by the FLATSIM service. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-showcase-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Showcase interferograms"
>       },
>       "FLATSIM_SHOWCASE_TIMESERIE_PUBLIC": {
>         "abstract": "Although products are generally available on a temporary limited-access basis, a showcase collection has already been set up with a view to enhancing and promoting the quality of the service. This collection gives access to a sample of products from the various projects and associated collections, processed in the framework of calls for ideas. It enables users to explore the potential of the data processed by the FLATSIM service. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time. ",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-showcase-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Showcase time series"
>       },
>       "FLATSIM_TARIM_AUXILIARYDATA_PUBLIC": {
>         "abstract": "This project focuses on the analysis of tectonic deformations along the Western Kunlun Range, on the northwestern edge of the Tibetan Plateau. This region is marked by the interaction between large strike-slip and thrust faults, with in particular the existence of one of the largest thrust sheet in the world, whose interseismic loading and the capacity to produce “mega-earthquakes” will be investigated. This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-tarim-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Tarim auxiliary data"
>       },
>       "FLATSIM_TARIM_INTERFEROGRAM_PUBLIC": {
>         "abstract": "This project focuses on the analysis of tectonic deformations along the Western Kunlun Range, on the northwestern edge of the Tibetan Plateau. This region is marked by the interaction between large strike-slip and thrust faults, with in particular the existence of one of the largest thrust sheet in the world, whose interseismic loading and the capacity to produce “mega-earthquakes” will be investigated. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-tarim-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Tarim interferograms"
>       },
>       "FLATSIM_TARIM_TIMESERIE_PUBLIC": {
>         "abstract": "This project focuses on the analysis of tectonic deformations along the Western Kunlun Range, on the northwestern edge of the Tibetan Plateau. This region is marked by the interaction between large strike-slip and thrust faults, with in particular the existence of one of the largest thrust sheet in the world, whose interseismic loading and the capacity to produce “mega-earthquakes” will be investigated. This data cube product contains phase delay images at each time step of the time series. It is cumulative through time.",
>         "instrument": null,
>         "keywords": "data-cube,deformation,flatsim-tarim-timeserie-public,ground-geometry,insar,mean-los-velocity,quality-maps,radar-geometry,stack-list,tectonics,time-serie",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Tarim time series"
>       },
>       "FLATSIM_TIANSHAN_AUXILIARYDATA_PUBLIC": {
>         "abstract": "The aim of the project is to analyze deformation across the intracontinental Tianshan mountain range, linked to the India/Asia collision. In particular, the aim is (1) to quantify the partitioning of deformation between thrust faults and strike-slip faults,(2) to gain a better understanding of the behavior of folds and thrusts during the seismic cycle, in the foothills and at the heart of the range,and (3) to document regional-scale slope phenomena (landslides, permafrost freeze-thaw deformation, solifluction, etc.), in relation to seismicity and climate change.This set of products provides the user with auxiliary information like informations on the processing parameters, some logs of the processing, …. ",
>         "instrument": null,
>         "keywords": "amplitude,auxiliary-data,average,burst-selection,coherence,deformation,elevation,flatsim-tianshan-auxiliarydata-public,ground-to-radar,insar,lookup-tables,radar-to-ground,spectral-diversity,tectonics,unit-vector,unwrapping",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Tian Shan auxiliary data"
>       },
>       "FLATSIM_TIANSHAN_INTERFEROGRAM_PUBLIC": {
>         "abstract": "The aim of the project is to analyze deformation across the intracontinental Tianshan mountain range, linked to the India/Asia collision. In particular, the aim is (1) to quantify the partitioning of deformation between thrust faults and strike-slip faults, (2) to gain a better understanding of the behavior of folds and thrusts during the seismic cycle, in the foothills and at the heart of the range, and (3) to document regional-scale slope phenomena (landslides, permafrost freeze-thaw deformation, solifluction, etc.), in relation to seismicity and climate change. Each interferogram is embedded in an interferogram package. These packages contain Atmospheric Phase screen, wrapped and unwrapped unfiltered differential interferograms, and wrapped filtered differential interferograms, and spatial coherence.",
>         "instrument": null,
>         "keywords": "atmospheric-phase-screen,coherence,deformation,flatsim-tianshan-interferogram-public,ground-geometry,insar,interferogram,radar-geometry,tectonics,unwrapped,wrapped",
>         "license": "Apache-2.0",
>         "missionStartDate": null,
>         "platform": null,
>         "platformSerialIdentifier": null,
>         "processingLevel": null,
>         "title": "FLATSIM Tian Shan interferograms"
>       },
>       "FLATSIM_TIANSHAN_TIMESERIE_PUBLIC": {
>         "abstract": "The aim of the project is to analyze deformation across the intracontinental Tianshan mountain range, linked to the India/Asia collision. In particular, the aim is (1) to quantify the partitioning of deformation between thrust faults and strike-slip faults, (2) to gain a better understanding of the behavior of folds and thrusts during the seismic cycle, in the foothills and at the heart of the range, and (3) to document regional-scale slope phenomena (landslides, permafrost freeze-thaw deformation, solifluction, etc.), in relation to seismicity and climate change. This data cube product contains