Tag: GIS software

  • Moving from 2D to 3D GIS Elevates Planning for Fayetteville

    CyberCity3D_Fayetteville

    CyberCity 3D and Fayetteville, N.C., are moving the city from 2D to 3D GIS mapping, a transformation focused on interoperability, high scalability and wide reach. The result is a more engaging and detailed 3D streaming map that’s elevated the city’s planning and development capabilities.

    The City of Fayetteville’s GIS Manager, Richard Tuinstra, spearheaded the plan to design a mapping system that used three-dimensional mapping and web-based architecture while getting a high rate of return on the investment.  Tuinstra took an approach outside the traditional GIS “box,” seeking content that could run on scalable web architecture. He found CyberCity 3D, a geospatial city modeling company near Los Angeles.

    “The City of Fayetteville has always understood the great benefits of using 3D GIS for its daily operations, from public safety, parks and recreation to urban design and planning, but has found it difficult to get a good start,” said Tuinstra. “Partnering with CyberCity has made our first steps in 3D GIS a quick and easy process. The result so far has been well received by our city manager’s office and the city staff members. Some of the great advantages of this mapping system are that it only requires a simple web browser and is very user friendly. We can’t wait to expand geographically and thematically on what we have achieved right now.”

    According to the city’s information technology director, Dwayne Campbell, the plan had to include three requirements.  “First, it had to avoid costly, time-consuming training and software licensing. Second, the solution needed to be delivered as a software service in an open environment capable of running on all mobile devices. Finally, the City needed a strategy that enabled it to continue to leverage our existing investment in Esri’s ArcGIS software.”

    The city ultimately chose the combination of CyberCity 3D buildings for their accuracy and interoperability, while looking to CesiumJS.org for its open source 3D globe mapping. CyberCity 3D created more than 550 buildings for the project, from best-in-practices photogrammetry, to insure GIS integrity and flexibility. CyberCity 3D also provided imagery and street names via its streaming images services on the Cesium 3D Globe; as a government institution, the City of Fayetteville pays no streaming fees for the 3D Globe and image layers. In addition, the city requested a tree layer; the existing GIS zoning and district mapping data the city generated with Arc GIS software was also seamlessly included.

    CyberCity3D_Fayetteville-1

    “The unique combination of CyberCity 3D’s buildings, the Cesium 3D Globe, and ArcGIS software create an unsurpassed mapping system for the City of Fayetteville,” said CyberCity 3D CEO Kevin DeVito. “This dynamic move to 3D will enable the city to best plan for its future while engaging its employees, stakeholders and the community at large in an immersive manner.”

    As an early adopter, the City of Fayetteville has gone from using 2D PDF maps to owning cutting-edge 3D GIS content on a platform that reaches not only city employees and stakeholders, but every citizen. This dynamic solution vastly increases their understanding of the geospatial elements of the city. Its deployment also allows for the easy addition of other GIS layers such as business points of interest or FEMA poly-layers for environmental planning and sustainability, expanding the map’s usefulness, engagement and return on investment.

    CyberCity3D_Fayetteville-2

  • GeoDecisions Helps PennDOT Handle Millions of Traffic Records

    GeoDecisions-TMS
    The PennDOT TDS developed by GeoDecisions enables collection and processing of millions of data points.

    GeoDecisions, an information technology company specializing in geospatial solutions, has developed a new traffic data system (TDS) that processes more than 20 million new records per month for the Pennsylvania Department of Transportation (PennDOT).

    Built on the Esri platform, the TDS helps PennDOT’s Bureau of Planning and Research better manage the download of traffic data from collection sites throughout the commonwealth of Pennsylvania.

    “Built to Federal Highway Administration standards, GeoDecisions’ redesign of our TDS provides us a method to seamlessly introduce new counting devices, more efficiently verify our raw traffic data, and speed up our process for creating yearly traffic volume maps,” said Andrea Bahoric, planning division manager with PennDOT.

    The new TDS improves PennDOT supervision of 45,000 short-term or portable counters that classify vehicles, record traffic volume and weight, and determine driving speed. The system’s mobile Field Operations Module (FOM) also streamlines in-pavement counter inventory and maintenance activities.

    “FOM enables PennDOT field technicians to use smartphones or tablets to perform site reviews and document issues,” said Greg Ulp, senior project manager with GeoDecisions. “Convenience and efficiency are critical factors when enhancing technology and managing assets.”

    PennDOT’s predecessor traffic data management system contained nine applications with dated technology requiring manual intervention to collect and verify information. GeoDecisions’ TDS redesign features five modules streamlined for better performance and usability. The new automated system includes remote user access and cutting-edge GIS mapping, web service, database and coding technologies.

    “Our transportation system solutions provide a proven business model for analytics, reporting, reliability, and technology workflow management,” said Tom Saltzer, vice president of government delivery with GeoDecisions. “PennDOT’s redesigned TDS is a long-term collection, verification, and geospatial solution that reflects their ongoing enterprise GIS investment strategy.”

  • Hexagon Geospatial Opens Early Access to Cloud Apps

    Hexagon Geospatial has introduced an early access program for technologies associated with the Hexagon Smart M.App experience. The two applications available in the early access program are M.App Chest and GeoApp.UAS.

    M.App Chest provides a simple means to quickly upload, organize, and share imagery and point cloud data in the cloud. M.App Chest also provides optional compression capabilities along with streaming and delivery via web services.

    “M.App Chest provides a better experience to easily upload, store and share geospatial data,” said Mladen Stojic, President of Hexagon Geospatial. “M.App Chest can standalone or compliment other Hexagon Smart M.Apps, providing a simple, cloud-based environment for managing imagery and point clouds.”

    GeoApp.UAS was built by Hexagon Geospatial’s partner, Geosystems GmbH. GeoApp.UAS enables rapid processing of UAS data at the speed it is captured. With an intuitive workflow, GeoApp.UAS enables robust photogrammetric processing of UAS data on the cloud.

    Interested individuals can register for the opportunity to participate in the early access program on the M.App Chest or GeoApp.UAS product pages. Hexagon Smart M.Apps will be launched at HxGN LIVE Hong Kong in November 2015.

  • Intergraph Government Solutions Wins USDA Contract Award

    ERDAS_Photogrammetry

    Intergraph Government Solutions (IGS) has been awarded a contract by the U.S. Department of Agriculture (USDA) U.S. Forest Service to provide image processing software across the U.S. Forest Service enterprise. IGS is a wholly-owned subsidiary of Intergraph Corporation, a Hexagon company serving the U.S. federal market.

    IGS will provide capabilities for core image processing and photogrammetry through Hexagon Geospatial’s Power Portfolio, including ERDAS IMAGINE for remote sensing and IMAGINE Photogrammetry. Integration of these products into the organization allows the U.S. Forest Service to perform mission-critical image processing and analysis on nearly 200 million acres of land for objectives such as forest restoration and emergency response to wildfires.

    “The U.S. Forest Service is a long-standing customer of IGS and Hexagon software. This purchase provides the agency with the most advanced geospatial technology for monitoring and managing national forest resources,” said Joe Fehrenbach, CEO and president of IGS.

    The result of a competitive best-value procurement, the award includes a base contract period of one year and an additional four option years. As part of the selection process, the U.S. Forest Service required live demonstrations of the proposed workflow technologies with government-provided datasets and rigorous requirements related to multiple areas of need in their business mission.

  • Avenza Adds USGS US Topo Maps to PDF Maps App

    Thumbnail image of the 2015 Tupelo, Mississippi 7.5 minute series quadrangle (1:24,000-scale), US Topo map (orthoimage layer off)The United States Geological Survey (USGS) continues to support the delivery of its digital maps through Avenza Systems Inc.‘s PDF Maps app. It has widened the selection to more than 120,000 US Topo topographic maps on its digital mapping platform, which provides digital users access to USGS’ rich map content and extends its reach with a growing base of mobile consumers.

    The app currently aids a growing number of people who reference digital devices for work or recreation. Travelers, scientists and conservation and environmental decision makers already make use of USGS topo maps, but the expanded use of the maps via the PDF Maps app provides current USGS topo map users the ability to digitally access maps in areas with little to no internet reception and input notes and images within the map all while tracking current position.

    The USGS produces US Topo maps on a continuous basis with more than 18,000 revised quadrangles produced every year. Currently, thousands of maps from USGS’s extensive library are now available in Avenza’s PDF Maps database, including the most current variations that reflect the changing landscape of the country.

    Many historical maps can also be accessed, with thousands more dating back 130 years being added in the near future, according to Avenza. The app provides constant access to geographic information and points of interest, with additional interactive features such as measuring, place marking and location tagging. Avenza’s PDF Maps app operates without the risk of lost reception due to cell tower proximity, making it the ultimate traveling tool since it does not rely on an internet connection to use map data and obtain and display location.

    “Distinguished map publishers like the USGS fully recognize the shift to digital and how consumers are accessing and consuming information that was once static and digitally implementing it into their daily lives and making it more interactive,” said Ted Florence, president of Avenza Systems Inc. “Avenza’s PDF Maps app is an example of how a digital tool can expand the utility of a map beyond location guidance; it is also a tool to capture an experience in real-time. As the industry continues to evolve to fit into the world of a mobile consumer, we look forward to strengthening our ties with groups like the USGS.

    PDF Maps app 2.6 is available on the iTunes App Store free of charge for personal and private use. PDF Maps app is also available for use with Android devices in the Google Play Store free of charge for personal non-commercial use. A Windows version is currently in public beta targeted for a release later this year.

  • Esri Launches Photo Survey Web App for Property Surveys

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    Many local governments use large teams of volunteers to evaluate property conditions and identify structures that may be abandoned or in disrepair. Property surveys may take several months to complete and are hard to maintain over time.

    To simplify survey data collection Esri has partnered with the City of New Orleans (NOLA) to create Photo Survey, an ArcGIS for Local Government solution. Photo Survey is a web application that can be used by local governments to publish street-level photo collections and conduct focused property surveys that may identify blight, damaged structures or construction activity. Like all ArcGIS for Local Government solutions, Photo Survey is included with an ArcGIS subscription.

    “Photo Survey leverages location-enabled photos produced by commercially available cameras and simplifies data processing so that street-level photo collections can be combined with relevant survey questions and used to inventory property conditions,” says Chris Buscaglia, Esri local government solutions engineer. “The street-level photo collection can then be published with the Photo Survey application and shared with the general public so property conditions can be crowdsourced from members of the community.”

    In addition to blight inventories, Photo Survey could also be used to identify structures damaged by a natural or man-made disaster, construction activity that may lead to reappraisal efforts, and/or dilapidated buildings that pose public health and safety concerns to fire service personnel, according to Esri.

    “We’re excited to crowdsource the property survey process with the Photo Survey application,” says Greg Hymel, NOLA enterprise GIS manager. “Enabling New Orleans citizens to conduct surveys for us with this app will effectively remove neighborhood bias so that, when we go live, we can make projections about the entire city instead of pockets of special-interest areas.”

    Photo Survey can be downloaded now from the ArcGIS for Local Government solution site.

  • Trimble Launches R2 Receiver with GIS Workflow Integration

    Trimble-R2-GNSS-Receiver-with-Tablet-WTrimble debuted its new R2 GNSS receiver at INTERGEO 2015, held this week in Stuttgart, Germany.

    The R2 GNSS receiver is a receiver that works with Trimble handheld devices and iOS, Android or Window mobile handhelds, smartphones and tablets using Bluetooth or USB connectivity. When paired with a mobile device, the receiver adds professional-grade GNSS capabilities for better accuracy. The rugged Trimble R2 provides GIS and survey professionals the flexibility to choose the mobile device, workflows and accuracy they need based on applications.

    Trimble R2 GNSS Receiver for Mobile Devices

    The Trimble R2 GNSS receiver is compact and portable, weighing 2.4 pounds. With one button operation and field swappable battery, the receiver can be pole or vehicle mounted or carried on a backpack. The R2 is a multi-constellation receiver that supports GPS, GLONASS, Galileo, BeiDou and QZSS satellite signals as well as SBAS.

    With a variety of standard and optional correction capabilities, the Trimble R2 can achieve sub-meter to centimeter positioning for a broad range of accuracy requirements. The receiver is an option for the Bring Your Own Device (BYOD) strategy.

    “Today’s geospatial professionals require flexible solutions which allow for configuration to meet their specific job requirements,” said Ron Bisio, general manager of Trimble’s Surveying and Geospatial Division. “The Trimble R2’s versatility to support GIS and survey workflows as well as BYOD deployment enables geospatial professionals to collect data using the mobile device, workflow and accuracy they choose.”

    Workflows – GIS and Survey Field Software

    Designed for both GIS field data collection and survey workflows, the Trimble R2 receiver integrates with Trimble TerraFlex mapping and GIS field software and Trimble Access survey field software.

    TerraFlex software is a scalable cloud-based solution for geospatial data collection. By pairing the R2 with a smart device or Trimble handheld running TerraFlex, the solution addresses a wide variety of field requirements, including attribute-rich GIS data collection on consumer and professional devices.

    Trimble Access software supports the workflows of everyday surveying tasks such as topographic and control surveys and specialized surveying tasks such as roads, monitoring, tunnels and mines. By pairing the receiver with a Trimble handheld running Trimble Access or TerraFlex field software, the Trimble R2 is a versatile solution that supports the full range of geospatial data collection workflows for both GIS and survey applications.

    Flexible Accuracy

    It us capable of receiving a broad range of corrections from traditional RTK, VRS networks and SBAS to Trimble RTX correction services via cellular/IP connections or satellite (L-band), the Trimble R2 provides high-accuracy data worldwide.

    The R2 GNSS receiver can leverage the entire portfolio of subscription-based Trimble RTX correction services to accommodate a wide range of applications and accuracy requirements. This includes CenterPoint RTX (less than 4 centimeters), RangePoint RTX (less than 50 centimeters), and ViewPoint RTX (less than 1 meter) correction services.

  • Carlson SurvCE 5.0 Improvements on Display at INTERGEO

    Advanced control for multiple rod heights and prism offsets.
    Advanced control for multiple rod heights and prism offsets.

    Carlson Software experts will be demonstrating the newest abilities of the 5.0 version of SurvCE, its data-collection software, at INTERGEO, being held in Stuttgart, Germany, Sept. 15-17. Carlson will have two stands: indoors at  C8.017 (Hall 8) and outdoors at FG.004.

    SurvCE v. 5.0 software is scheduled to be officially released and available for download following extensive testing and after final enhancements are completed in October. Those buying a new license of SurvCE 4.0 software between now and the release of SurvCE 5.0 will receive an automatic upgrade to 5.0.

    SurvCE 5.0 focuses on speed and power.  A new memory allocator empowers users to do more, faster, opening large drawing and coordinate files with ease.

    Mission Planning user-defined list for obstruction masking.
    Mission Planning user-defined list for obstruction masking.

    Other top new improvements include the following:

    • Enhanced GNSS tilt sensor (IMU) for confirmation of level and the taking of measurements with tilted GPS/GNSS poles (works with selected GNSS such as Stonex and CHC in addition to Carlson);
    • All-new GNSS Mission Planning, which will include GLONASS mission planning;
    • Newly designed two-step stakeout procedure now intuitively and accurately guides the user to his point, delivering easy to follow navigation that shifts to proximity information as he gets close to target;
    • And map-picked, cursor-displayed stakeout and one-pick measurement options.

    CarlsonSurvCE2015Box3DFeaturing hundreds of additions and improvements, Carlson SurvCE 5.0 continues to support the widest range of popular and new release RTK GPS and conventional/robotic total stations of any other data collection software on the market.

    “SurvCE 5.0 is incorporating new emerging technologies like IMU support, while still providing its renowned friendly user environment,” says Jesus Latova, SurvCE product director. “Simplicity and safety are our main focus in developing these new features, together with continuing the extensive instrument support capacity of SurvCE.”

    Carlson SurvCE is both powerful and easy to use, providing users with the options to collect data as they prefer. SurvCE 5.0 will be available in nearly two dozen languages. These include: English, Chinese, Croatian, Czech, Dutch, Finnish, French, German, Greek, Hungarian, Italian, Korean, Polish, Portuguese, Romanian, Russian, Serbian, Spanish, Swediish, Tagalog, and Turkish.

    Hardware from Carlson SoftwareAlso visit the Carlson outside stand (F.004, outside Hall 8) at Intergeo to see and sample its hardware options, produced to work specifically with its popular software. These will include the rugged, fast, and popular Surveyor2 data collector, the BRx5 GNSS receiver, and other equipment recommended by Carlson.

    For more information about SurvCE 5.0 and additional Carlson Software offerings, call 606-564-5028 (U.S.) or +31 36 750 1781 in the Netherlands and ask for your local Carlson representative.

  • CoreLogic Expands Natural Catastrophe Risk Management Solution

    CoreLogic, a residential property information, analytics and data-enabled services provider, today released an expanded version of its natural catastrophe risk management solution, which features a new comprehensive probabilistic flood model that analyzes the potential damage and financial impact at the property-level from flood events in the continental United States.

    This probabilistic flood model is unique to the industry because its riverine and flash flood risk components provide better risk estimation for areas outside the 100-year flood zones–areas responsible for 20 percent of historic flood losses but which represent only 1 percent of the flood insurance policies in force.

    Measuring both severity and frequency of flood events, the probabilistic flood model loss calculations offer property, contents and business interruption analysis. The model also incorporates historical flood event footprints from the last 50 years and the accompanying property damage.

    Additionally, the model incorporates detailed user-provided building information to derive vulnerability assessments driven by both water depth and water velocity. These building characteristics include construction type, occupancy, floor elevation, basements and elevated building configurations. The new CoreLogic flood model provides insurers with an unprecedented tool to more accurately underwrite the risk associated with this complex peril, especially the proprietary flash flood component.

    With granular 10-meter elevation data, the catastrophe risk management solution incorporates the Digital Flood Insurance Rate Maps (DFIRMs) provided by the Federal Emergency Management Association (FEMA). It uses more than 80 different occupancy classes covering topography, land-use, stream coverage and inundation. In order to more accurately measure a property’s flood risk, more than 50 data layers ranging from elevation, hydrologic and catchment information are included, as well as data for over 6 million miles of streams and 20,000 stream flow gauges.

    “The release of the U.S. Inland Flood Model means insurers can now use this advanced probabilistic tool to help them determine a property’s potential for flood damage,” said Tom Larsen, CoreLogic product architect. “The model’s unique ability to provide granularity down to the property level will offer insurers a complete view of flood risk, including contents and business interruption, for all types of properties.”

    The catastrophe risk management solution contains parcel-level geocoding through PxPoint from CoreLogic, which can convert physical addresses or locations into precise geographic coordinates for over 142 million parcel boundaries. A new visualization feature identifies details in the data as well as exceptions via easy-to-use charts and graphics. Other new components include updates to three risk assessment models including Italy Earthquake, the North Atlantic Hurricane Risk and U.S. Offshore Energy.

    Highlights include:

    • The Italy Earthquake Model now incorporates an updated seismic source model based on the Seismic Hazard Harmonization in Europe (SHARE) to provide a current and more accurate view of seismic hazard in Italy. Increased maximum magnitudes, an updated magnitude-frequency distribution and a new ground motion model are part of the enhancements.
    • The North Atlantic Hurricane Risk Model update includes a high-resolution storm surge model and enhanced hazard risk assessment to more accurately capture the damage from storm surge as the surge attenuates inland (outside of the high velocity zones). It uses storm intensities from historical events based on the Atlantic hurricane reanalysis project by the National Oceanic and Atmospheric Administration (NOAA). Additionally, the North Atlantic Hurricane Risk Model includes a full set of default secondary structural modifiers by vintage and location for all hurricane states, which are based on the International Building Code as well as state-specific building codes to provide refined results. RQE 16 also includes a model version which was certified by the Florida Commission Hurricane for Loss Projection Methodology in June 2015.
    • The U.S. Offshore Energy Model features a distinctive wave model component and unique financial model which produces an improved estimate of potential damage to physical assets in U.S. territorial waters within the Gulf of Mexico. A network analysis is also built into the model to produce a better estimate of the lost production from oil wells.

    “All of these enhancements will help insurers understand hazard risk in a more granular and comprehensive way, and this precision in risk modeling will help the industry overall fine-tune its underwriting, claims and reinsurance efforts,” Larsen said.

  • DigitalGlobe Expands Partnership with Orbital Insight

    This image depicts how Orbital Insight is detecting building shadows in Nanjing, China, to monitor construction rates in the area.
    This image depicts how Orbital Insight is detecting building shadows in Nanjing, China, to monitor construction rates in the area.

    DigitalGlobe has expanded its partnership and offering with Orbital Insight, a market intelligence and data science company that analyzes socioeconomic trends at global, regional and hyper-local scales.

    Within DigitalGlobe’s Geospatial Big Data platform, Orbital Insight’s machine vision engineers, artificial intelligence experts and data scientists now have access to 400 terabytes of high-resolution imagery, an increase of nearly 80 times the data that was available for analysis under the previous partnership agreement.

    The partnership is enabling Orbital Insight to more quickly validate its hypotheses and understand a variety of trends in the commercial and humanitarian markets. Having access to this volume of DigitalGlobe’s data allows the ability to visualize and analyze even larger areas of interest around the globe, allowing users to better understand the economic trends impacting industries and markets, according to DigitalGlobe.

    “Orbital Insight’s customers — hedge funds, Fortune 500 companies, and global humanitarian organizations — will now be able to understand near real-time global economic trends with even greater precision and scale,” DigitalGlobe writes in a blog. “In one recent project, Orbital Insight leveraged DigitalGlobe imagery to process 4 trillion DigitalGlobe pixels in a 48-hour period, counting 700 million cars that yielded tradable insights into national shopping behavior for the company’s customers on Wall Street. This fall, Orbital Insight expects to release several new data analytics products, including worldwide monitoring of crude oil storage inventories and monitoring construction rates across the major cities in China, which are powered by DigitalGlobe’s image library and Geospatial Big Data platform.”

    “This expanded partnership with DigitalGlobe accelerates the realization of Orbital Insight’s vision for a macroscope, a scientific instrument for helping human society to see itself in a new light,” said James Crawford, CEO of Orbital Insight. “The partnership enables us to more quickly validate our hypotheses and understand a variety of trends in the commercial and humanitarian markets. Having access to this volume of data gives us the ability to visualize and analyze even larger areas of interest around the globe, allowing us to better understand the economic trends that are impacting industries and markets.”

    “The era of geospatial big data has arrived,” said  Shay Har-Noy, DigitalGlobe’s Senior Director for Geospatial Big Data. “DigitalGlobe’s platform provides the largest commercial library of current and historical satellite imagery available, integrated into a cost-effective environment where meaningful insight can be extracted from the data through algorithms built by companies like Orbital Insight.”

    To learn more about DigitalGlobe’s Geospatial Big Data platform, visit developer.digitalglobe.com.

  • Remote Geosystems Adds Support for Commercial UAV Video

    RemoteGeosystems-LineVision

    Remote GeoSystems is now offering direct support in all of its LineVision cloud, server and desktop applications for video from the DJI Inspire 1 unmanned aerial vehicle. The new LineVision capability gives DJI Inspire 1 operators and pilots the ability to create and deliver interactive professional-grade video inspection and survey work products using GIS software such as Esri ArcGIS, Bing Maps and Google Earth.

    DJI Inspire 1 users need to enable .SRT file logging while recording video during flight. Post-flight, LineVision allows users to load or upload the video and GPS track to a map. As the video plays, a cursor moves along the GPS track on the map, constantly indicating where and when the current video view was captured based on GPS data logged during the mission.

    Users can geographically navigate the video recordings by clicking any of the points along the GPS track on a map.  The video then automatically advances or reverses to that point in the video so that analysts and subject-matter experts can visually interpret what was recorded at that specific place and time.

    In addition to FMV, LineVision features import/upload and “one-click” geo-referencing of nearly any kind of rich media including photos, audio and electronic documents or files such as PDF, Microsoft Office and CAD files.

    LineVision features flexible mapping options allowing users to incorporate and “stream” background maps and data layers from your enterprise GIS and third-party map service providers. All these imported data types can be saved in a Remote GeoSystems .geoProject file for data portability and future analysis in LineVision software.

    The Remote GeoSystems technology has been developed commercially and independent of defense programs, making it easier for non-military customers outside the U.S. and around the globe to acquire the applications and expertise without having to go through the often lengthy ITAR export process.

  • FlightAware Partners with Esri on Flight Tracking and Status Data Mapping

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    Esri and FlightAware have partnered to combine the power of a flight tracking and status company with the ArcGIS mapping platform. The partnership features the ability to view and analyze large amounts of accurate, live-aviation data in one powerful spatial system.

    FlightAware aggregates live flight tracking data from more than 50 government air traffic control authorities, satellite data link partners such as Garmin and ARINCDirect, and FlightAware’s own in-house ADS-B receiver network, consisting of more than 3,400 receivers in more than 100 countries.

    “Esri has the tools and expertise to visualize data in a proven GIS environment,” FlightAware business development manager Max Tribolet said. “FlightAware data is the perfect addition. We’re the largest flight tracking company in the world, based on how many disparate data feeds we have coming into our system. So it’s pretty powerful when you pull our data into GIS.”

    “This is a really good way to provide an additional option to our existing and potential customers, who might not have an easy way to consume larger volumes of flight tracking data,” Tribolet said. “A stand-alone app like Esri’s ArcGIS is adept at handling large quantities of data and is able to visualize it. This relationship with Esri allows FlightAware to focus on what we do best: constantly adding and aggregating quality flight tracking data and providing it to the industry.”

    Airports and agencies have started exploring opportunities to use FlightAware data in GIS to improve proactive noise monitoring and airspace design as well as monitoring airspace congestion in real time. FlightAware visualizes live and historic data — such as altitude, longitude, latitude, ground speed, and estimated and actual schedule times—in 2D, 3D, and even 4D maps.

    “The ability to fuse FlightAware data within the ArcGIS platform unlocks a host of new and innovative capabilities with regard to visualization, analysis and collaboration,” Esri aviation business development lead Stephen Willer said. “That results in a higher level of operational intelligence. We’re excited to bring this to our users across the globe. Real-time information access like this is essential not only today but also to our future air traffic systems.”