GPS World

Tag: satellite imagery

  • Avenza Releases Geographic Imager 5.0 for Adobe Photoshop

    Avenza Systems Inc., producers of MAPublisher cartographic software for Adobe Illustrator and the PDF Maps mobile app, has released Geographic Imager 5.0 for Adobe Photoshop. This latest release is compatible with Adobe Photoshop Creative Cloud 2015 for both Windows and Mac.

    Among the new features, the Georeference tool has been redesigned to provide more flexibility and interactivity when referencing and rectifying images. This release also introduces map package export compatible with the PDF Maps mobile app and the upload of map packages directly to the PDF Maps digital map store.

    “We’ve been working diligently on this release of Geographic Imager to allow users to work with their spatial imagery and data in Adobe Photoshop Creative Cloud 2015,” said Ted Florence, president of Avenza. “Geographic Imager is an excellent add-on to Photoshop and proves to be a competitive geospatial image editing platform for many GIS professionals in the industry. We’re looking forward to continuing to develop new tools for the Creative Cloud platform to improve productivity and to streamline workflows.”

    Additional Geographic Imager 5.0 Features

    • Fully compatible with Adobe Photoshop CC 2015
    • Redesigned Georeference tool: reference with online maps, coordinate system detection, and improved rectification process
    • New export DEM formats: ArcInfo ASCII Grid and BIL
    • New online help and help integrated into dialogs
    • New ability to export a PDF Maps package and upload it directly to the PDF Maps digital map store
    • New ability to record operations, errors, and messages to event log
    • New mosaic options including ability to apply blending mode and place mosaic layers above destination layer
    • Optimized Export to Web Tiles and now includes image interpolation methods and support for OpenStreetMap and TileMill
    • Enhanced scripting support now includes WMS import
    • New Preferences interface and options
    • Various other bug fixes and user experience enhancements

    Geographic Imager software for Adobe Photoshop leverages the superior image editing capabilities of the world’s premier raster-based image editing software and transforms it into a powerful geospatial production tool. Work with satellite imagery, aerial photography, orthophotos, and DEMs in GeoTIFF and other major GIS image formats using Adobe Photoshop features such as transparencies, filters, and image adjustments while maintaining georeferencing and support for hundreds of coordinate systems and projections.

    Geographic Imager 5.0 is immediately available and free of charge to all current Geographic Imager Maintenance Program members and at US$319 for non-maintenance upgrades. New fixed licenses start at US$699. Geographic Imager Basic licenses start at US$99. Academic, floating and volume license pricing are also available. Geographic Imager 5.0 is compatible with Adobe Photoshop CS6, CC 2014 and CC 2015. Adobe Photoshop CS5 and CC are supported but deprecated in this release.

  • European Space Agency’ Launches Land Observing Satellite


    The European Space Agency (ESA) on June 23 successfully launched its Sentinel-2A satellite, the second satellite to be launched in Europe’s Copernicus environment monitoring program. Above is a video of the Sentinel 2A lift-off.

    “We are very pleased to have such a talented new player join the team in watching Earth from space,” said Suzette Kimball, acting U.S. Geological Survey (USGS) director. “The aptly named Sentinel mission will help sharpen our focus on changes in Earth systems and contribute further insight to a great many global challenges at international to local scales, including food security, forest and wildlife conservation, and disaster response.”

    NASA has published a comparison of Sentinel-2A and Landsat bandwidths.
    NASA has published a comparison of Sentinel-2A and Landsat bandwidths.

    Sentinel-2 imagery is expected to supply valuable parallels and counterparts to Landsat imagery provided by the United States. Before Sentinel-2A launched, USGS and ESA staff worked together at length to ensure that Sentinel-2 data would be as compatible as possible with Landsat data.

    First launched by NASA in 1972, the Landsat series of satellites has produced the longest, continuous record of Earth’s land surface as seen from space. Landsat images have been used by scientists and resource managers to monitor water quality, glacier recession, coral reef health, land use change, deforestation rates, and population growth.

    Landsat is a joint effort of USGS and NASA. NASA develops remote-sensing instruments and spacecraft, launches the satellites, and validates their performance. USGS develops the associated ground systems, then takes ownership and operates the satellites (since 2000), as well as managing data reception, archiving, and distribution. Landsat data were made available to all users free of charge under a policy change by the U.S. Department of the Interior and USGS in late 2008.

    Sentinel-2A in the gantry before launch.
    Sentinel-2A in the gantry before launch.

    “We are also pleased that a free and open data policy has been adopted for users of Sentinel data,” Kimball added. “Free, open access to Landsat and Sentinel-2 data together will create remarkable economic and scientific benefits for people around the globe.”
    Designed as a two-satellite constellation — Sentinel-2A and -2B — the Sentinel-2 mission carries an innovative wide swath high-resolution multispectral imager with 13 spectral bands. However, it will not fully duplicate the Landsat data stream, which includes thermal measurements. Sentinel-1A, a satellite with radar-based instruments, was launched April 3, 2014.

    Once it is fully operational following several months of on-orbit testing, Sentinel-2A alone could provide 10-day repeat coverage of Earth’s land areas. With Sentinel-2A data added to the eight-day coverage from Landsat 7/8 combined, users can look forward to better-than-weekly coverage at moderate resolution. Repeat coverage capabilities will further increase with the planned launch of a second Sentinel-2 satellite (Sentinel-2B) next year.

    The PDF “Landsat: Continuing to Improve Everyday Life” explains the program.

  • GPS Data, Satellite Images Used to Study Icelandic Caldera

    MSimons-BardarbungaVolcano-caldera
    This Landsat 8 image, Caltech acquired on Sept. 6, 2014, is a false-color view of the Holuhraun lava field north of Vatnajökull glacier in Iceland. The Bárðarbunga caldera is visible in the lower left of the image under the ice cap.
    Photo: U.S. Geological Survey / Caltech

    Access to satellite images and GPS data has allowed scientists to document the collapse of the Bárðarbunga caldera, a volcano beneath the Vatnajökull ice cap in Reykjavik, Iceland.

    Mark Simons, a professor of geophysics at the California Institute of Technology (Caltech), traveled to Reykjavik with 15 students and two faculty members on Aug. 16, 2014, to lead a tour of the volcanic, tectonic, and glaciological highlights of Iceland. That day, earthquakes occurred  — the seismicity was related to the Bárðarbunga caldera.

    Simons is one of the leaders of a Caltech and Jet Propulsion Laboratory (JPL) project known as the Advanced Rapid Imaging and Analysis (ARIA) program, which aims to use a growing constellation of international imaging radar satellites that will improve situational awareness and response following natural disasters, according to Caltech. Under the ARIA umbrella, Caltech and JPOL, managed for NASA by Caltech, had formed a collaboration with the Italian Space Agency (ASI) to use its COSMO-SkyMed (CSK) constellation — consisting of four orbiting X-Band radar satellites — following such events.

    CSK used an interferometric synthetic aperture radar (InSAR) technique to gather images of the surface of the glacier above the caldera. By the evening of Aug. 28, Caltech says the first interferogram showed that the ice above the caldera was subsiding at a rate of 19.685 inches a day.

    Simons took the data to researchers at the University of Iceland who were tracking Bárðarbunga’s activity on Aug. 29.

    “At that point, there had been no recognition that the caldera was collapsing. Naturally, they were focused on the dyke and all the earthquakes to the north,” Simons said. “Our goal was just to let them know about the activity at the caldera because we were really worried about the possibility of triggering a subglacial melt event that would generate a catastrophic flood.”

    The flood never occurred, but Caltech says the researchers at the University of Iceland increased their observations of the caldera with radar altimetry flights and installed a continuous GPS station on the ice overlying the center of the caldera.

    The Icelandic researchers published a paper in December 2014 in Nature about the Bárðarbunga event, largely focusing on the dyke and eruption. Simons and his colleagues have developed a model to describe the collapsing caldera and the earthquakes produced by that action. The new findings appear in the Geophysical Journal International.

    Bryan Riel, a graduate student in Simons’s group and lead author on the paper, used the interferogram of the Bárðarbunga area, along with four others collected by CSK in September and October, to show that the earthquakes were not the primary cause of the surface deformation inferred from the satellite radar data.

    “What we know for sure is that the magma chamber was deflating as the magma was feeding the dyke going northward,” Riel said in the article. “We have come up with two different models to explain what was actually generating the earthquakes.”

    “Because we had access to these satellite images as well as GPS data, we have been able to produce two potential interpretations for the collapse of a caldera — a rare event that occurs maybe once every 50 to 100 years,” Simons said. “To be able to see this documented as it’s happening is truly phenomenal.”

  • CartoDB, DigitalGlobe Partner to Make Satellite Imagery Available

    CartoDB and DigitalGlobe are partnering to bring satellite data to mapmakers everywhere in order to help them visually explain the events and information shaping the world. The new offering will provide users of all levels with access to the latest satellite content from DigitalGlobe, enabling journalists, publishers, bloggers and web developers to easily incorporate high-resolution imagery into their online content in a matter of minutes.

    CartoDB is an open-source mapping and visualization tool that allows anyone to create interactive maps with their own data. The cloud-based solution includes the CartoDB Editor, an online tool that enables anyone to analyze and visualize location data, enabling publishing features and collaboration tools. Those looking to do even more with their data can use the CartoDB Platform, a mapping engine that offers a set of APIs and libraries to help users create maps, manage their data and run geospatial analyses. For examples of maps created using CartoDB, visit the Map Gallery.

    “Our collaboration with DigitalGlobe is a significant development for anyone who publishes stories about our world,” said Javier de la Torre, co-founder and CEO of CartoDB. “This partnership will democratize access to high-resolution satellite imagery and data on-demand, incorporating satellite images into interactive stories and content at an affordable price point. The combined power of DigitalGlobe’s extremely current satellite imagery and CartoDB’s easy-to-use platform will enable creative storytellers to communicate and contextualize data with the simple click of a button.”

    The platform enables access to high-resolution imagery captured as recently as 24 hours ago, and archive imagery dating back to 2011. A CartoDB Enterprise account is availale. 

    “Seeing a better world just got easier and faster for journalists, media outlets, and researchers who want to add geospatial context to their online content,” said Josh Winer, sales manager of DigitalGlobe. “With the ease of CartoDB’s mapping tools and platform, customers of any size can quickly and easily integrate high-resolution satellite imagery into their online maps and stories. We’re thrilled to partner with CartoDB and look forward to empowering their community.”

  • Airbus Releases Satellite Imagery of Nepal Earthquake

    Following Nepal’s devastating magnitude 7.8 earthquake on Saturday, Airbus Defence and Space has acquired Pléiades satellites imagery to support the International Charter and Copernicus Emergency Management Service. The data acquired will assist in assessing the damage and help rescue organizations in the delivery of humanitarian aid.

    The before and after Pléiades images over Kathmandu (full image can be downloaded here) show the devastation caused by the earthquake. The below “before” Pléiades image was acquired on Nov. 29, 2014, and the “after” Pléiades image was acquired on April 27, 2015, two days after the earthquake.

    Kathmandu, viewed by Pléiades satellites, before and after the earthquake. (Image: Airbus Defence & Space)
    Kathmandu, viewed by Pléiades satellites, before and after the earthquake. (Image: Airbus Defence and Space)

    The Airbus Pléiades 1A and Pléiades 1B satellites operate as a constellation in the same orbit, phased 180 degrees apart. The identical twin satellites deliver high-resolution optical data products and can revisit any point on the globe, according to Airbus.

    UPDATE:

    Esri has created a Nepal Earthquake Swipe Map, which allows users to compare the pre- and post-earthquake images from Airbus Defence & Space to explore damage around Nepal. This map includes several bookmarks to help users navigate around key points of interest and landmarks that were damaged or destroyed.

    Esri-Nepal-Swipe-W

  • DigitalGlobe Offers Satellite Images of Nepal Earthquake

    In response to the devastating 7.8-magnitude earthquake that struck central Nepal on April 25, DigitalGlobe has made high-resolution satellite imagery of the affected areas freely available online to all groups involved in the response and recovery effort through the company’s FirstLook initiative.

    This imagery can be accessed via http://services.digitalglobe.com.

    Username: nepal
    Password: forcrisis​

    The below before and after images show the destruction of the nine-storey Dharahara Tower, which was built in 1832 and was a UNESCO World Heritage site.

    The Dharahara Tower in Kathmandu, in a DigitalGlobe satellite image taken in October 2014. (Image credit: DigitalGlobe)
    The Dharahara Tower in Kathmandu, in a DigitalGlobe satellite image taken in October 2014. (Image credit: DigitalGlobe)
    The Dharahara Tower is shown leveled following the earthquake (Image credit: DigitalGlobe).
    The Dharahara Tower is shown leveled following the earthquake (Image credit: DigitalGlobe).

    Specifically, DigitalGlobe activated FirstLook, the subscription service that provides emergency management and humanitarian workers with fast, web-based access to pre- and post-event images of the impacted area. DigitalGlobe captured imagery of the area April 26 through heavy cloud cover with its WorldView-1, and WorldView-3 and GeoEye-1 satellites. WorldView-2 and WorldView-3 have been tasked to image the area again April 28. Pre-event imagery dating back to April 1 is also available to aid understanding and coordination for on-the-ground missions.

    In addition, DigitalGlobe has activated Tomnod, the crowdsourcing platform that allows web-connected volunteers around the globe to help disaster response teams by mapping damage from this earthquake. While satellite imagery on its own is useful, greater benefit comes from extracting meaningful information that can be used by first responder and recovery agencies.

    By visiting the Tomnod website, users can participate in the Nepal campaign by tagging damaged buildings, roads, and areas of major destruction to inform disaster response teams on the ground. Whether a person donates five minutes or five hours, anyone can analyze DigitalGlobe imagery to help make a difference.

  • Getmapping Partners with PlanetObserver on Satellite Imagery

    PlanetObserver-GetMapping-O

    Getmapping has partnered with PlanetObserver to offer customers a full range of global and regional Earth satellite imagery along with global height data. The partnership is in line with Getmapping’s wider strategy to extend its reach beyond its established markets in the UK and Africa and signals an intention to provide a global capability in geospatial products and services. 

    The key PlanetObserver offerings available from Getmapping include PlanetSAT 15, 15-m resolution global satellite imagery and two height data products, PlanetDEM 30 and PlanetDEM 90 with resolutions of 30 m and 90 m respectively. 

    The satellite imagery is the most up to date satellite dataset currently available and provides natural colour (RGB) imagery free from clouds. Available from a few square kilometers to global coverage, the data is especially suited to a wide range of sectors, including energy and utilities, tele-communications and smartphone apps, visualization and simulation, plus mapping and illustration.

    The PlanetDEM height datasets are seamless global digital elevation models at 30m and 90m resolution and are derived from a combination of SRTM (Shuttle Radar Topography Mission v4.1) data corrected with multi-source cartographic data, and are perfect for 3D simulation and visualisation applications, base mapping, energy and geological surveys.

    All PlanetObserver data is delivered in a range of standard formats, and is also available via WMS and as an additional layer in the Getmapping Online GIS software.

    “We have been providing high-quality aerial imagery and elevation data across the UK and Africa for a number of years and it has always been our intention to provide our customers with a global offering,” said Pete Bonham, Getmapping’s Business Manager. We expect satellite imagery and DEMs to be particularly popular with our Online GIS customers who can subscribe to access the data from within the application. The high quality data from PlanetObserver covers the entire surface of the Earth, and provides excellent base layers for our expanding Online GIS application, it really adds value to our offering.” 

    Laurent Masselot, CEO of PlanetObserver added, “Our new cooperation with Getmapping is a major step forward to efficiently supply our geospatial data to a large user community. We’re particularly excited to reach out to users of Getmapping online GIS software and have them take advantage of our value-added products.”

  • NASA, USGS Begin Work on Landsat 9 for Land Imaging

    NASA and the U.S. Geological Survey have started work on Landsat 9, an upgraded rebuild of the Landsat 8 spacecraft launched in 2013, to extend the Landsat program’s decades-long observations of Earth’s land cover. (Image Credit: NASA)
    NASA and the U.S. Geological Survey have started work on Landsat 9, an upgraded rebuild of the Landsat 8 spacecraft launched in 2013, to extend the Landsat program’s decades-long observations of Earth’s land cover. (Image Credit: NASA)

    News from NASA.

    NASA and the U.S. Geological Survey (USGS) have started work on Landsat 9, planned to launch in 2023, which will extend the Earth-observing program’s record of land images to half a century.

    The Landsat program has provided accurate measurements of Earth’s land cover since 1972. With data from Landsat satellites, ecologists have tracked deforestation in South America, water managers have monitored irrigation of farmland in the American West, and researchers have watched the growth of cities worldwide. With the help of the program’s open archive, firefighters have assessed the severity of wildfires and scientists have mapped the retreat of mountain glaciers.

    The president’s fiscal year 2016 budget calls for initiation of a Landsat 9 spacecraft as an upgraded rebuild of Landsat 8, as well as development of a low-cost thermal infrared (TIR) free-flying satellite for launch in 2019 to reduce the risk of a data gap in this important measurement. The TIR free flyer will ensure data continuity by flying in formation with Landsat 8. The budget also calls for the exploration of technology and systems innovations to provide more cost effective and advanced capabilities in future land-imaging missions beyond Landsat 9, such as finding ways to miniaturize instruments to be launched on smaller, less expensive satellites.

    “Moving out on Landsat 9 is a high priority for NASA and USGS as part of a sustainable land imaging program that will serve the nation into the future as the current Landsat program has done for decades,” said John Grunsfeld, associate administrator for science at NASA Headquarters, Washington. “Continuing the critical observations made by the Landsat satellites is important now and their value will only grow in the future, given the long term environmental changes we are seeing on planet Earth.”

    Because an important part of the land imaging program is to provide consistent long-term observations, this mission will largely replicate its predecessor Landsat 8. The mission will carry two instruments, one that captures views of the planet in visible, near infrared and shortwave-infrared light, and another that measures the thermal infrared radiation, or heat, of Earth’s surfaces. These instruments have sensors with moderate resolution and the ability to detect more variation in intensity than the first seven satellites in the Landsat program.

    The Landsat 9 mission is a partnership between NASA and the USGS. NASA will build, launch, perform the initial check-out and commissioning of the satellite; USGS will operate Landsat 9 and process, archive, and freely distribute the mission’s data.

    “Landsat is a remarkably successful partnership,” said Sarah Ryker, USGS deputy associate director for climate and land use change, Reston, Virginia. “Last year the White House found that GPS, weather satellites, and Landsat are the three most critical types of Earth-orbiting assets for civil applications, because they’re used by many economic sectors and fields of research. Having Landsat 9 in progress, and a long-term commitment to sustainable land imaging, is great for natural resource science and for data-driven industries such as precision agriculture and insurance.”

    NASA’s Goddard Space Flight Center in Greenbelt, Md., will lead development of the Landsat 9 flight segment. Goddard will also build the Thermal Infrared Sensor (TIRS), which will be similar to the TIRS that the center built for Landsat 8. The new improved TIRS will have a five-year design lifetime, compared to the three-year design lifetime of the sensor on Landsat 8.

    “This is good news for Goddard, and it’s great news for the Landsat community to get the next mission going,” said Del Jenstrom, the Landsat 9 project manager at NASA Goddard. “It will provide data consistent with, or better than, Landsat 8.”

    With decades of observations, scientists can tease out subtle changes in ecosystems, the effects of climate change on permafrost, changes in farming technologies, and many other activities that alter the landscape.

    “With a launch in 2023, Landsat 9 would propel the program past 50 years of collecting global land cover data,” said Jeffrey Masek, Landsat 9 Project Scientist at Goddard. “That’s the hallmark of Landsat: the longer the satellites view the Earth, the more phenomena you can observe and understand. We see changing areas of irrigated agriculture worldwide, systemic conversion of forest to pasture — activities where either human pressures or natural environmental pressures are causing the shifts in land use over decades.”

    “We have recognized for the first time that we’re not just going to do one more, then stop, but that Landsat is actually a long-term monitoring activity, like the weather satellites, that should go on in perpetuity,” Masek said.

    NASA uses the vantage point of space to increase our understanding of our home planet, improve lives, and safeguard our future. NASA develops new ways to observe and study Earth’s interconnected natural systems with long-term data records. The agency freely shares this unique knowledge and works with institutions around the world to gain new insights into how our planet is changing.

    NASA provides more information on NASA’s Earth science activities. For more information on the Landsat program, visit this NASA page and this USGS page.

  • Airbus Imagery to Help Vanuatu in Wake of Cyclone

    Port Vila, the capital of Vanuatu, viewed by Pléiades satellites, before Cyclone Pam.
    Port Vila, the capital of Vanuatu, viewed by Pléiades satellites, before Cyclone Pam.
    Port Vila, the capital of Vanuatu, viewed by Pléiades satellites after the passage of Cyclone Pam.
    Port Vila, the capital of Vanuatu, viewed by Pléiades satellites after the passage of Cyclone Pam.

    Following Cyclone Pam, Airbus Defence and Space has acquired Pléiades and SPOT 6 and 7 imagery over the island nation of Vanuatu to support the International Charter and Copernicus Emergency Management Service.

    The data acquired will assist in assessing the damage and help rescue organizations in the delivery of humanitarian aid.

    The before and after Pléiades images over Port Vila, that can be downloaded here, show the devastation caused by the cyclone. The “before” Pléiades image was acquired on April 9, 2014, and the “after” Pléiades image was acquired on March 16, three days after the Cyclone hit Port Vila.

  • DigitalGlobe Makes Available 30-cm Satellite Imagery to Customers

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    DigitalGlobe is making available its 30-cm satellite imagery products. Access to the high-resolution commercial satellite imagery captured by DigitalGlobe’s WorldView-3 satellite will improve decision making, enable more efficient operations, and enhance a variety of applications for customers in the civil government, defense and intelligence, energy, mining and global development sectors.

    In addition, many customers who previously relied on aerial imagery can now benefit from the improved economics, global availability, and faster refresh rate that DigitalGlobe can provide with its 30-cm satellite imagery, the company said. Imagery of this resolution was previously only available from aerial platforms, which are difficult, costly, or impossible to access in many parts of the world.

    DigitalGlobe’s 30-cm imagery products are also a rapid and affordable alternative in locations where aerial imagery is readily available. New imagery orders can be delivered on timescales of days or weeks, as opposed to months, in many cases, and customers can also have access to a rapidly growing volume of available 30-cm archive imagery.

    The suitability of 30-cm satellite imagery for aerial imaging applications is confirmed by the National Imagery Interpretability Rating Scale (NIIRS), which is used by the imaging community to define and measure the quality of images and performance of imaging systems. DigitalGlobe’s 30-cm imagery achieves a rating of NIIRS 5.7, meaning it can resolve objects on the ground such as above-ground utility lines in a residential neighborhood, manhole covers, building vents, fire hydrants, and individual seams on locomotives.

    “DigitalGlobe’s WorldView-3 satellite data is the highest quality satellite photo data that PhotoSat has ever processed,” said Gerry Mitchell, president of PhotoSat, a satellite elevation mapping provider for energy, mining and engineering firms. “In one test, an elevation mapping grid extracted from stereo WorldView-3 satellite photos matched a highly accurate LiDAR elevation grid to better than 15 cm in elevation. This result takes satellite elevation mapping into the engineering design and construction markets and directly competes with LiDAR and high-resolution air photo mapping for applications like flood plain monitoring.”

    The DigitalGlobe’s WorldView-3 commercial imaging satellite is capable of collecting imagery with 30-cm ground sample distance — five times the detail of the company’s nearest competitor. The satellite also features unique shortwave infrared (SWIR) capabilities that will enable new applications such as seeing through smoke and haze, identifying minerals and manmade materials, and assessing the health of crops and vegetation.

    The SWIR imagery that the satellite collects has never before been available to commercial customers with this level of spatial and spectral resolution, and it will provide unique value to users in the energy and mining industries, as well as others, DigitalGlobe said. DigitalGlobe also launched a beta program for 7.5 m SWIR imagery, working with partners, customers and users to explore new uses for this capability.

    “Companies should be exploiting the competitive advantages of the WorldView-3 data to look for potential ore-related alteration that will have been missed by the previous satellites used for alteration mapping,” said Dan Taranik, managing director of Exploration Mapping Group, a service provider to the global mineral exploration industry. “Detailed inspection of remote areas on the peripheries of alluvium or younger volcanics would be a competitive advantage that could help reveal concealed deposits.”

  • UN, DigitalGlobe Sign Agreement on Satellite Imagery, Geospatial Solutions

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    Screenshot from DigitalGlobe.

    DigitalGlobe, a global provider of high-resolution satellite imagery and geospatial solutions, has signed of a Memorandum of Understanding with the United Nations.

    Under the agreement, DigitalGlobe and the United Nations Office for Outer Space Affairs (UNOOSA) will take stock of their combined expertise in the use of earth observation technologies for economic, social, and scientific development and improved decision-making, particularly in developing countries.

    UNOOSA and DigitalGlobe will work to develop an online platform to provide easy access to imagery catalogues as well as data and analytical services specifically tailored for the needs of the United Nations. Under the agreement, DigitalGlobe will provide advisory services on remote-sensing imagery and geospatial analytics, working with UNOOSA to advance and accelerate adoption of geospatial and satellite imagery-based analytics across the entire United Nations System.

    The cooperation will also extend to DigitalGlobe’s participation in relevant UNOOSA-supported events and activities, including those of the United Nations Platform for Space-based Information for Disaster Management and Emergency Response (UN-SPIDER) and of the United Nations Geographic Information Working Group (UNGIWG).

    “Cooperation and collaboration in the area of geospatial information and analytics will improve how the United Nations, including its member states and its system of organizations, can address global economic, environmental, geopolitical, and societal issues,” said Simonetta Di Pippo, director of UNOOSA.

    “DigitalGlobe is thrilled to partner with UNOOSA, the United Nations body that promotes international cooperation in the peaceful uses of outer space,” said Jeffrey R. Tarr, DigitalGlobe president and CEO. “The arrangement provides an ideal platform to explore how high-resolution satellite imagery and geospatial analytics can be more efficiently and effectively shared across the entire United Nations System, thus propelling us toward our purpose of ‘Seeing a Better World.”

    Watch a video of the Seeing a Better World project.

  • Planet Labs Raises $95M for Tiny Earth-Observation Satellites

    A Planet Labs Dove.
    A Planet Labs Dove.

    San Francisco-based startup Planet Labs has raised $95 million from investors in its latest round of financing. The company’s goal is to provide frequent, inexpensive, high-quality Earth imagery to a variety of customers.

    “I’m pleased to announce a first closing of a planned $70 million Series C round led by Data Collective. This financing includes a debt facility of $25 million from Western Technology Investment, bringing the total financing to $95 million,” said co-founder and CEO Will Marshall.

    Planet Labs builds Earth-observation satellites that are a mere 12 x 4 x 4 inches. Each of the miniature satellites, which the company calls “Doves,” can capture imagery with a resolution of 10 to 16.5 feet (3 to 5 meters).

    Planet Labs, founded in 2010 by three former NASA scientists, has launched 73 Doves into orbit. The first prototypes blasted off in April 2013. In January 2014, Planet Labs delivered Flock 1, a constellation of Earth-imaging satellites made up of 28 Doves. Subsequent launches have increased the current constellation to 71 Doves. The goal is to be able to image the entire Earth every day.

    Doves being deployed from the International Space Station. Photo: NASA
    Doves being deployed from the International Space Station. Photo: NASA

    Once the satellites are operational in orbit, they each complete a full circuit of the planet in about 90 minutes, capturing images as they travel. When a satellite makes contact with a ground station in the company’s network, Planet Labs receives images and migrates them to the cloud, as well as transmitting additional instructions to the satellites.

    According to the company website, Planet Labs provides commercial and humanitarian value with its global imaging network. Industries supported include geospatial, agriculture, civil government, and natural resources. “Fresh data from any place on Earth is foundational to solving commercial, environmental, and humanitarian challenges,” the website said. “Our global sensing and analytics platform unlocks the ability to understand and respond to change at a local and global scale.”

    Planet Labs says it provides the industry’s most frequently updated imagery of any place in the world at 3-5 meter resolution. The data supports customers who need easily accessed, fresh imagery to inform their day-to-day operations, data analysis, and products. Each image is processed through the company’s automated data pipeline and delivered to customers via API and web tools.

    “This financing comes in the wake of our successful launch of 73 satellites, customers actively using our data, and the recent hiring of Tom Barton as our chief operating officer. Tom was formerly CEO of Rackable Systems (now SGI) and boasts over 25 years of experience managing and advising hardware and software companies,” Marshall posted on the Planet Labs website. “With strong support from new and returning investors, Tom on board the management team, and a brand new headquarters in the heart of San Francisco, we’re primed to deliver more insights about our changing planet in 2015.”

    The Dawesville Channel in Western Australia as seen by a Planet Labs satellite. Photo: Planet Labs
    The Dawesville Channel in Western Australia as seen by a Planet Labs satellite. Photo: Planet Labs
    The Kashima Industrial Zone is one of the Japan’s largest industrial parks, home to an estimated 1,500 factories. The plant at the image’s center manufactures steel sheets found in home appliances and auto parts. A low-density residential area (upper left) lies just west of the industrial zone. Photo: Planet Labs
    The Kashima Industrial Zone is one of the Japan’s largest industrial parks, home to an estimated 1,500 factories. The plant at the image’s center manufactures steel sheets found in home appliances and auto parts. A low-density residential area (upper left) lies just west of the industrial zone. Photo: Planet Labs