| InSAR Company | Specialty | Services | Website |
| MDA | GEOINTELLIGENCE ROBOTICS & SPACE OPERATIONS SATELLITE SYSTEMS | GEOINTELLIGENCE EYES ON EARTH SINCE 1995 RADARSAT-1 was Canada’s first commercial Earth observation satellite. In 2007, RADARSAT-2 was launched, producing over 75,000 images per year. In 2019, the RADARSAT Constellation Mission was deployed, using its three-satellite configuration for all-condition coverage. 140,000,000 km² — The amount of the Earth’s surface we’ve imaged 2 mm — The level at which we can detect topographical changes 10 minutes — The time it takes us to process/analyze raw satellite data into usable information for our customers 500 km — The widest imaging swath on the market – ROBOTICS & SPACE OPERATIONS With over three million hours of engineering support to on-orbit robotic operations, MDA is uniquely equipped to lead and handle space-based robotic missions. Our experience comes from 40 years of development and operational support for Canadarm and Canadarm2, with a 100% mission goals success rate. 90 – US Space shuttle missions we supported with the original Canadarm. 20 years – The time span Canadarm2 has worked on space station robotic assembly and maintenance. 34 – Space station modules we’ve helped assemble. 1,000+ – Successful on-orbit grasping operations – SATELLITE SYSTEMS MDA is the largest independent supplier of satellite subsystems. We have decades of experience designing, manufacturing and testing antennas, electronics and payloads for communication satellite missions. Our technology is currently operational on nearly all satellite constellations used for communications in low and medium Earth orbit. 350+ – Total missions that have integrated our technology 370,000 – Square footage of our modern design, manufacturing and test facility 60+ – Years of providing innovative space systems and subsystems 100X – The improvement in speed we’ve made building constellation antennas | https://mda.space/en/ |
| European Space Agency | Science & Exploration Safety & Security Applications Enabling & Support | Science & Exploration Today, at 20:00 CET, the James Webb Space Telescope fired its onboard thrusters for nearly five minutes (297 seconds) to complete the final post launch course correction to Webb’s trajectory. This mid-course correction burn inserted Webb toward its final orbit around the second Sun-Earth Lagrange point, or L2, nearly 1.5 million kilometres away from Earth. Safety & Security Applications are now being accepted to participate in Europe’s newest cybersecurity demonstration, bringing together cybersecurity experts to help ESA and European industry keep critical space services secure and resilient. During Cysec’s annual conference in April 2022, ESA’s OPS-SAT space lab will be made available to select, invited applicants to test their winning ideas in a controlled, robust environment – precisely the type of experiment the 30cm flying CubeSat was created for. The results will help ESA and European industry advance and further perfect cybersecurity in space. Applications When Joe Biden was inaugurated as President one year ago, he fulfilled his promise to rejoin the Paris Agreement and set a course for the US to tackle the climate crisis by supporting global efforts to limit global warming. ESA recently joined the President’s Council of Advisors on Science and Technology by public video link to share European plans and expertise on measuring carbon dioxide and methane from space. With our climate on the brink of crisis, the COP26 conference, held in Scotland in November 2021, ended with a global agreement to accelerate action on climate. The Glasgow Climate Pact, combined with increased ambition and action, means that limiting global temperature rise to 1.5°C above pre-industrial levels remains just about in sight, but it will only be delivered with concerted and immediate global efforts. Enabling & Support The central core of ESA’s new generation Ariane 6 launch vehicle arrived at Europe’s Spaceport on 18 January and is now inside the launch vehicle assembly building. Ariane 6’s central core comprises a lower stage and upper stage. The lower stage is from ArianeGroup’s Les Mureaux site in France; the upper stage is from ArianeGroup’s Bremen factory in Germany. Upon arrival by boat at Pariacabo harbour, two containers were transported by road to the new Ariane 6 launch vehicle assembly building – part of the Ariane 6 launch complex at Europe’s Spaceport. Here, the rocket stages were unpacked and installed on the assembly line machinery for horizontal integration, to form the Ariane 6 central core. After this, they will be used in ‘combined’ tests which will verify all the interfaces and functions between the Ariane 6 launch vehicle and ground facilities at the spaceport. | https://www.esa.int/ |
| Tele-Relevamento Europa | Construction and Engineering Other Energy Other Commercial Services | Provider of surface deformation monitoring services with InSAR technology. The company measures surface deformation to millimeter accuracy by analyzing SAR (Synthetic Aperture Radar) satellite images with algorithm. Its SqueeSAR tool for detecting, measuring and monitoring geophysical phenomena such as subsidence, uplift, landslides, seismic faults and verifying the stability of individual structures. | http://www.treuropa.com/ |
| CGG | Multi-Client Data -Multi-Client Data -Multi-Client Geology -Multi-Client Legacy Data Geoscience -Subsurface Imaging -Satellite Mapping -Geology & Engineering -Smart Data Solutions -Multi-Physics Acquisition GeoSoftware -Seismic Reservoir Characterization -Advanced Seismic Interpretation -Machine Learning Environment -Rock Physics -Petrophysics -Velocity Modeling -Software Training Applications -Natural Resources -Environmental -Infrastructure -Energy Transition -Digital | Multi-Client Data -Gain a unique perspective with the industry’s most technically advanced seismic and innovative geological data. Multi-Client Geology -CGG offers multi-client geological products that cover virtually every geological and geoscience discipline, backed by more than 50 years of global Robertson data and expertise. In addition, our new geological studies target today’s emerging exploration challenges. Regional reports are augmented by a range of subscription products, including digitalized and enhanced databases, cutting edge predictive tools, and innovative analogue products. Multi-Client Legacy Data -CGG’s GeoSpec services apply the latest seismic technology to legacy data to identify new development opportunities in underexplored geographies, as well as handle geological and geophysical data brokerage and enhancement contracts on behalf of oil companies, consultancies, universities and government agencies. – Subsurface Imaging -Reduce exploration and development risk with the best possible images of the subsurface. Our advanced imaging workflows and software, unmatched geoscience expertise, and multi-disciplinary approach will get the most value from the data. We integrate multi-physics, well log and geological information into our imaging workflows and provide reservoir products to give you a better understanding of the subsurface. Satellite Mapping -Our knowledge and experience provides an easy means of navigating the increasingly complex world of satellite imagery and elevation data. Our status as an independent supplier for satellite operators around the globe guarantees comprehensive and impartial advice, every time. Geology & Engineering -Find solutions for your exploration, development and production challenges with a full scope of geoscience knowledge and capabilities. Our experts provide comprehensive geoscience knowledge, tools and data that deliver valuable insight into all aspects of sustainable natural resource exploration and exploitation. Smart Data Solutions -CGG announced on January 4th, 2022 that it has closed the sale of the physical storage assets and associated services of its Smart Data Solutions business to OASIS Group and Access Information Management Corporation. Multi-Physics Acquisition -Our Multi-Physics acquisition services are now part of Xcalibur Geophysics Spain S.L., see the Press Release. CGG still retain the multi-physics multi-client library and Multi-Physics Imaging team and their Geotools™ commercial software. – Seismic Reservoir Characterization -Gain a better understanding of your reservoir’s properties using advanced seismic methodologies and technology. The comprehensive application portfolio offered by CGG GeoSoftware covers the entire seismic reservoir characterization workflow. Our software is tuned for performance in even the most compute-intensive steps of the inversion workflow. Advanced Seismic Interpretation -Unlock the maximum hydrocarbon potential from your reservoir assets with advanced seismic interpretation features from CGG GeoSoftware. Relieve your seismic interpreters from tedious and repetitive activities so they can spend more time evaluating plays and validating findings. Machine Learning Environment -Machine learning (ML) and deep learning (DL) can provide you with a clearer understanding of your reservoirs and faster, more efficient data analysis. By using these techniques, you can predict curves based on existing log data, correlate core analysis to log data, and model complex porosity and permeability relationships. Rock Physics -Rock physics modeling and analysis are important components of every seismic reservoir characterization workflow. They integrate different types of subsurface data and provide the links between reservoir or engineering properties and elastic properties. A consistent rock physics model is essential when integrating different disciplines such as geology, geophysics, petrophysics, reservoir engineering and geomechanics. Petrophysics -Collaborate on well and field data with multiple interpreters, geologists, engineers and petrophysicists. Generate petrophysical models quickly in support of well planning. Design completion and fracture stimulation programs with confidence while following your own petrophysical workflow. Our software is the benchmark for petrophysical analysis, enabling teams to quickly import, edit and interpret multiple well logs. Velocity Modeling -Velocity modeling can integrate measured seismic velocities, depth-imaged seismic data, well velocity information and interpreted structural information into a calibrated velocity model. Transform seismic time into subsurface depth as a critical step in all hydrocarbon exploration, development and production project planning. Our software for velocity modeling offers easy-to-use, data-driven workflows and can be applied from prospect to regional scale. – Natural Resources -Since the creation of our company in 1931, CGG has pioneered geoscience technology for the discovery and sustainable management of the Earth’s natural resources. We provide valuable insight to clients with innovative technologies, a global data library and the highest levels of expertise across a broad range of disciplines. Environmental -CGG is committed to help our clients understand and monitor human impact on the environment, locally and globally, bringing decades of geoscience and data experience to solve new challenges. Our environmental analytics capabilities enable informed decisions as the world transitions to a more sustainable future. Infrastructure -Our advanced monitoring equipment, Earth observation expertise and industry partnerships provide detailed and continuous situational awareness so that our clients can make better-informed management decisions for your critical infrastructure assets. Evaluate structural integrity, optimize preventative maintenance, gain awareness of potential geohazards, and much more. Energy Transition -The world is changing, driven to provide coming generations a more sustainable and zero-carbon future. With decades of experience evaluating the subsurface, CGG has a valuable role to play in helping our clients and stakeholders realize this vision. Our geoscience expertise and data integration capabilities enable our clients to be more efficient, effective and responsible in growing their new energy projects. Digital -Our investments in data science, AI, machine learning and HPC drive innovation and empower geoscience for ourselves and our clients. We offer digital consulting services, a global library of digitally transformed geoscience data, and CGG Cloud resources. | https://www.cgg.com/node/1 |
| GroundProbe | OPEN – CUT MINING UNDERGROUND MINING DAMS AND TAILINGS DAMS MONITORING CIVIL AND TUNNELING | OPEN – CUT MINING Monitoring solutions have a great impact in an open-cut mining environment where slope failures are of great risk. GroundProbe have a comprehensive suite of both predictive and reactive monitoring solutions for the open-cut environment, customisable to any site and specific need. RGR-Velox The RGR-Velox (Reactive Geohazard Radar) is a high-precision reactive monitoring and alarming tool for tailings dam breaches, landslides, avalanches, and large slope failures. Military-grade hardware is combined with GroundProbe’s powerful and proven software, alarming and systems to detect, track and alarm on moving geohazards in real time. World-leading in every specification, the RGR-Velox is the highest precision, fastest scanning and longest range doppler radar in the market, providing unrivalled confidence. GMS-Dual The GMS-Dual (Geotech Monitoring Station) is a long-term, background monitoring tool designed to track and monitor both prisms and virtual points. GMS-Prism The GMS-Prism (Geotech Monitoring Station) is designed as a long-term, background monitoring tool. Highly accurate, the system tracks and monitors prisms installed on the area of interest. SSR-Agilis The SSR-Agilis is a standalone vehicle monitoring system designed to protect personnel and valuable equipment in active working areas of a mine site. SSR-Omni Designed to detect hotspots of movement in an ultra-fast, all-encompassing scan, the SSR-Omni covers the broadest of areas with the highest resolution. A rotational Real Aperture Radar (RAR), it provides unique, real aperture measurements that are less susceptible to contamination, yet delivers millions of pixels. It monitors 360° through a thin vertical stripe that quickly sweeps around the walls of the mine site. InSAR Service An effective monitoring tool for detecting and monitoring surface movement, the GroundProbe InSAR Service, in partnership with 3vGeomatics (3vG), provides monitoring capabilities complementary to GroundProbe’s ground-based radar suite. The inherent features of satellite and ground-based radars complement each other, allowing for an integrated, multi-source monitoring solution. SSR-SARx Designed to detect new risks and hazards, the SSR-SARx monitors areas from long ranges with the highest resolution. A 2D Synthetic Aperture Radar, the SSR-SARx effectively images walls, forming high resolution targets coupled with a longer integration time, aiming to pick up small movements that occur over many months. SSR-FX Designed to detect new risks and hazards, the SSR-FX covers vast mine areas for longer periods to provide geotechnical peace of mind. A 2D Real Aperture Radar, the SSR-FX monitors broad areas through a thin vertical stripe that quickly sweeps around the wall of the mine site, left to right, detecting hotspots of movement, even in areas that are not critical to current mine operations. SSR-XT Designed to critically monitor known movements that pose a potential or immediate threat to the safety or productivity of mining operations, the SSR-XT monitors slope movements within a targeted area. A 3D Real Aperture Radar, its fine pencil beam scans in a raster pattern to provide full 3D imaging, guaranteeing every targeted area of concern is monitored in real time. ============== UNDERGROUND MINING Collapses in underground mines can be disruptive, destructive and at worst, fatal. They can cease production or close down a mine or civil project altogether, with its immense financial and societal impacts affecting whole communities and cities. Inherently high-risk operations, the greatest risk of all is endangering human lives. With the assistance of convergence monitoring, operational decisions can be made that minimise the potential impact of geotechnical hazards. GML (Convergence Monitoring) The GML – together with its Convergence Monitoring Module – is GroundProbe’s industry-disrupting underground monitoring solution. Capable of detecting rock and ground support movement with submillimetre accuracy, the GML offers a range of unprecedented features and benefits for underground monitoring. =============== DAMS AND TAILINGS DAMS MONITORING With a solution for all types of movement, GroundProbe’s systems are ideal for real-time predictive and reactive monitoring of dams and tailings dams. Whether the movement is known or unknown, high risk or gradual, or in motion or about to move, a custom monitoring solution can be tailored to suit the monitoring needs of any dam or tailings dam globally. SSR-Omni Designed to detect hotspots of movement in an ultra-fast, all-encompassing scan, the SSR-Omni covers the broadest of areas with the highest resolution. A rotational Real Aperture Radar (RAR), it provides unique, real aperture measurements that are less susceptible to contamination, yet delivers millions of pixels. It monitors 360° through a thin vertical stripe that quickly sweeps around the walls of the mine site. InSAR Service An effective monitoring tool for detecting and monitoring surface movement, the GroundProbe InSAR Service, in partnership with 3vGeomatics (3vG), provides monitoring capabilities complementary to GroundProbe’s ground-based radar suite. The inherent features of satellite and ground-based radars complement each other, allowing for an integrated, multi-source monitoring solution. SSR-SARx Designed to detect new risks and hazards, the SSR-SARx monitors areas from long ranges with the highest resolution. A 2D Synthetic Aperture Radar, the SSR-SARx effectively images walls, forming high resolution targets coupled with a longer integration time, aiming to pick up small movements that occur over many months. SSR-FX Designed to detect new risks and hazards, the SSR-FX covers vast mine areas for longer periods to provide geotechnical peace of mind. A 2D Real Aperture Radar, the SSR-FX monitors broad areas through a thin vertical stripe that quickly sweeps around the wall of the mine site, left to right, detecting hotspots of movement, even in areas that are not critical to current mine operations. ============== GML (CONSTRUCT-TO-DESIGN) REAL-TIME, CONSTRUCT TO DESIGN SOLUTION The GML – together with its Construct-to-Design Module – is a high-speed computing and rapid- visualisation technology, proven to significantly improve the efficiency and quality control of tunnel construction. Used during various stages of the construction cycle, the system tracks and verifies as-built construction against the desired design in real-time. This allows users to make calculated decisions in real time to increase efficiency, save time and cost, and reduce rework with every advancement. HIGH QUALITY DATA IN THE FASTEST TIME LIVE INFORMATION, FOR ON-THE-SPOT VERIFICATION REDUCED REWORK SHOTCRETE VOLUME CONTROL AND REDUCED WASTAGE IMPROVED CYCLE TIME IMPROVED QAQC AND REPORTING GEOREFERENCED 3D DATA RAPID DATA STREAMING MULTI-SYSTEM, AUTOMATED DATA MANAGEMENT CONCURRENT USER ACCESS | https://www.groundprobe.com/ |
| Gamma Remote Sensing | The GAMMA Software The GAMMA Software is a commercial software developed and maintained by GAMMA. We are dedicated to keep the software at a very advanced level. Through our R&D projects and the many contacts to highly competent SAR/InSAR/PSI specialists, we get valuable inputs to the software development activities. We regularly implement new functionality and adaptations to support new sensors and algorithms. Software licenses are in use world-wide supporting researchers, companies and public authorities in their daily work. | GAMMA leverages its equipment, skills, and experience to provide a wide range of services. Besides well established services, such as ground-motion monitoring using satellite or terrestrial radar data, on-demand services are also provided. Our R&D experience, our own SAR/InSAR software, and our microwave instruments (e.g., GPRI, L-band SAR) permit us offering innovative solutions. | https://www.gamma-rs.ch/ |
| SkyGeo | Discover InSAR InSAR for Mining InSAR for Energy InSAR for Civil Engineering InSAR for Underground Gas Storage | Discover InSAR -InSAR stands for Interferometric Synthetic Aperture Radar. Satellites record images of the earth’s surface, and these images are combined to show wide area, slow displacement patterns on the ground. InSAR is a proven technique for mapping ground movements using radar images from satellites in low earth orbit. InSAR for Mining -Mining stability monitoring provides persistent geotechnical risk surveillance to identify areas of abnormal surface movement over time. By assessing time-dependent shape changes in Antares, geotechnical domain experts can identify patterns of instabilities. This is a direct pathway to improving asset management in mining operations. InSAR for Energy -InSAR Monitoring gives you up to 100,000 measurement points per km², each with millimeter accuracy. For each measurement point, displacement over time is related to sub-surface effects of production. Reverse engineer this surface footprint to understand your reservoir. InSAR for Civil Engineering -Let SkyGeo configure an InSAR Monitoring solution for you – with millimeter accuracy, up to 25 years back in time and 100,000’s measurement points per km², each with a graph of displacement over time. SkyGeo data is often the best predictor for mean time before failure of the assets. Risk management practitioners use this for predictive maintenance. InSAR for Underground Gas Storage -The SkyGeo Underground Gas Storage monitoring service provides persistent reservoir risk surveillance during the brining and during operation of the underground storage site by assessing time-dependent shape changes in InSAR data in our Antares Platform, geoscientists and engineers can identify patterns associated with instabilities. This is a direct pathway to improve sub-surface asset management in Gas Reservoir operations. | https://skygeo.com/ |
Alaska Satellite Facility
| Dataset | Dates | Find Data | Common Subjects | Spatial Coverage |
|---|---|---|---|---|
| Open access: Free — log in and download | ||||
| ALOS PALSAR | 2006 to 2011 | Vertex | Broad applications: glaciers, landslides, volcanoes, earthquakes, oil seeps, wetlands, sea ice, and more. The RTC product is GIS-ready. |  The Americas, Antarctica, and select global sites |
| Repeat Coverage: 46 days Products: L1.0, L1.1 single look complex (SLC), L1.5 ground-range detected image, Hi-res RTC image, Low-res RTC image. More Information: Data Formats, ALOS PALSAR, ALOS PALSAR RTC | ||||
| Sentinel-1 | 2014-10-04 to Ongoing | Vertex | Broad applications: volcanoes, earthquakes, glaciers, reservoir water volume, land subsidence, sea ice, flooding, oceans, and more. |  Global |
| Repeat Coverage: 6 days Products: L0 raw, L1 single look complex (SLC), L1 ground-range detected mid-res single-pol (GRD-MS), L1 ground-range detected high-res single-pol (GRD-HS), L1 ground-range detected mid-res dual-pol (GRD-MD), L1 ground-range detected high-res dual-pol (GRD-HD), L2 ocean (OCN) More Information: Data Formats, ASF Sentinel-1 page, ESA Sentinel-1 page | ||||
| UAVSAR (Airborne SAR) | 2008-04-28 to Ongoing | Vertex | Select locations: oil spills, earthquakes, volcanoes, oceans, land cover, and more. |  Targeted worldwide sites |
| Repeat Coverage: Non-cyclic Products: Single look complex (SLC), multi-look complex cross products, compress stokes matrix, ground-projected calibrated cross products, DEM More Information: Data Formats, ASF UAVSAR page, NASA/JPL UAVSAR page | ||||
| ERS-1 | 1991-08-08 to 1997-09-28 | Vertex | Polar regions and processes (sea ice, Arctic, Antarctica) |  Primarily polar, within station masks of the ASF and McMurdo ground stations |
| Repeat Coverage: 35 days Products: L0 raw, L1 image On Request: Single look complex (SLC), L1 (amplitude images, even numbered frames) More Information: Data Formats, ASF ERS-1 page, ESA ERS pages | ||||
| ERS-2 | 1995-04-20 to 2011-07-03 | Vertex | Polar regions and processes (sea ice, Arctic, Antarctica). |  Primarily polar, within station masks of the ASF and McMurdo ground stations |
| Repeat Coverage: 35 days Products: L0 raw, L1 image On Request: Single look complex (SLC), L1 (amplitude images, even numbered frames) More Information: Data Formats, ASF ERS-2 page, ESA ERS pages | ||||
| AIRSAR (Airborne SAR) | 1990 to 2004 | Vertex | Select locations: oceans, coasts, forests, deforestation, geology, hydrology, earthquakes, archeaology, and more. |  Selected sites worldwide |
| Repeat Coverage: Non-cyclic Products: Along-track interferometry, 3-frequency polarimetry, L-Band compressed stokes matrix, P-Band compressed stokes matrix, C-Band DEM and compressed stokes matrix More Information: Data Formats, ASF AIRSAR page, NASA/JPL AIRSAR pages | ||||
| Post-RAMP Antarctica Mosaics | 2004 and 2007 | Get RAMP data page | Antarctica ice sheets (emphasis on velocities): Drygalsky Ice Tongue (David Glacier), Thwaites Glacier, and Pine Island Glacier. | Selected Antarctica ice sheets |
| Products: SAR mosaics, velocity files, 1963 mosaic of coastal Antarctica also provided for comparison purposes More Information: ASF Get RAMP data page | ||||
| RAMP: Antarctica Tiles Interface | 1997 and 2000 | Get RAMP data page | Historic, high-resolution map of Antarctica: ice-sheet morphology, rock outcrops, research infrastructure, coastline, and more. | Antarctica |
| Products: Tiles, mosaics More Information: ASF RAMP pages | ||||
| Sea Ice MEaSUREs | 1995 to 2012 | Sea Ice MEaSUREs data page | Arctic Ocean sea ice motion with three-day radar snapshots as the ice goes through dramatic changes over 11 years. | Arctic Ocean |
| Products: Lagrangian, 3-day gridded, Eularian More Information: ASF Sea Ice MEaSUREs pages | ||||
| Seasat | 1978-06-28 to 1978-10-10 | Vertex | Portions of Northern Hemisphere oceans and land; particularly useful as historic data from the first NASA SAR mission (data processed by ASF in 2013). | Regions of Northern Hemisphere, including oceans and N. America |
| Repeat Coverage: 3-day at launch, 17-day after mid-August Products: L1 image, GeoTIFF More Information: Data Formats, ASF Seasat pages | ||||
| SMAP | 2015-04-15 to 2015-07-07 | Vertex | Soil moisture and freeze/thaw state (detailed data from 3 months in 2015). Benchmark data for flood, landslide, and drought monitoring; agricultural planning; and climate forecasting. | Global |
| Repeat Coverage: 3 days Products 2015-4-15 to 2015-07-07: L1A raw, L1B low-res image, L1C high-res image Products 2015-07-07: L1A receive only, raw More Information: Data Formats, ASF SMAP pages, NASA/JPL SMAP pages, NSIDC DAAC additional SMAP products | ||||
| Terrestrial Ecology | 2007 to 2010 | ASF Terrestrial ecology data pages | Useful for seeing SAR applications for ecological research. | 42 selected field sites, such as flux tower locations |
| Repeat Coverage: Varied or none Products: GeoTIFF More Information: ASF Terrestrial Ecology pages | ||||
| Wetlands MEaSUREs | Varied, 1993 to 2009 | ASF Wetlands MEaSUREs data page | Inundated wetlands, including their role in climate, biogeochemistry, hydrology, and biodiversity. | Amazon, Alaska, the Americas, global (coarse resolution) |
| Products: Fine-resolution, 100-meter maps of wetland extent, vegetation type, and seasonal inundation dynamics for continental-scale areas covering crucial wetland regions; global, 10-day mappings of inundation extent at ~25-km resolution; interactive time-series tool and time-series animation; GeoTIFF More Information: ASF Wetlands MEaSUREs pages | ||||
| Restricted Data Access Request must be submitted: Applicant must currently be living in the United States | ||||
| JERS-1 | 1992-05-20 to 1998-10-10 | Vertex or ASF Wetlands MEaSUREs data page for mosaics (open access) | Important forests of the world: Southeast Asia, Africa, Central America, South America (Amazon Basin), and boreal North America. |  Global |
| Repeat Coverage: 44 days Products: L0 raw, L1 (amplitude imagery, processed images), mosaics – open access through Wetlands MEaSUREs (includes Amazon Low Flood, Amazon High Flood, North America Winter Texture, North America Summer Texture, North America Summer Backscatter) On Request: Single look complex (SLC), L1 (amplitude imagery, even frames) More Information: Data Formats, ASF JERS-1 page, JAXA JERS-1 pages | ||||
| RADARSAT-1 | 1995-02-01 to 2008-05-02 | Vertex | Arctic sea ice and other broad applications: volcanoes, ocean winds, ecology, soil moisture, wetlands, flooding, and more. |  Global |
| Repeat Coverage: 24 days Products: L0 raw, L1 image More Information: ASF RADARSAT-1 page, CSA RADARSAT-1 pages |