Tag: mapping

  • Cartographies of Disease traces long history of maps and medicine

    CartographyDisease-Esri-WThe new edition of Cartographies of Disease: Maps, Mapping, and Medicine from Esri traces the long history of how maps have been used to help unlock the mysteries behind the cause and spread of diseases such as cholera, yellow fever and Ebola. Ebola is the focus of two new chapters.

    Cartographies of Disease was first published in 2005 and showed how maps could be used as an important tool for studying both chronic conditions and disease epidemics. It became a must-read for policy makers and others working in public health and medicine.

    In this expanded edition, author Tom Koch adds new material to deepen readers’ understanding of medical mapping from the 17th to 21st centuries. The book covers the mapping of diseases and medical conditions such as cholera, yellow fever, typhoid fever, sandfly fever, hernia, lymphoma, arteriosclerotic heart disease, cancer, influenza, AIDS, West Nile virus and Ebola.

    Cartographies of Disease is a book about our confrontations with bacterial and viral agents across history,” Koch wrote in the book’s introduction. “It is also about how maps help us profile those conditions in our attempts to restrict them. Ebola in 2014 reminded us that it’s urgent to understand the conditions that promote disease and the ways we confront them on the ground.”

    The book provides a nontechnical narrative and a visual history of mapping’s role in studying what causes disease, understanding where and how diseases spread, and how they can be combated. The illustrations include more than 100 maps and charts, from a pair of 1694 maps of plague locations and containment zones in Bari, Italy, to digital maps of the 2014 Ebola outbreak, created using geographic information system (GIS) technology.

    Ebola charted

    Ebola is the focus of the two new chapters. In Chapter 13, the international perception of Ebola’s threat is charted and, with it, the fear engendered by the possibility that a local outbreak might become an international pandemic. Perceptions of the disease and reactions to it are mapped using contemporary technologies such as GIS.

    Chapter 14 is devoted to the practical issues of mapping an infectious virus like Ebola in developing countries. It describes how the potential for Ebola to spread was initially overlooked and how, in the future, new epidemics might be better contained. Mapping, Koch argues, can help identify disease threats, direct medical assistance when necessary, and educate people—locally and internationally — about new diseases.

    Koch is a medical ethicist and gerontologist based in Canada. As an adjunct professor at the University of British Columbia, Vancouver, he developed a series of teaching labs for medical geography.

    Cartographies of Disease: Maps, Mapping, and Medicine, new expanded edition, is now available in print (ISBN: 9781589484672, 412 pages, US$79.99) or as an e-book (ISBN: 9781589484764, 412 pages, US$59.99). The print edition of the book can be obtained from online retailers worldwide, at esri.com/esripress, or by calling 1-800-447-9778.

    The e-book edition is available for purchase from online retailers. Outside the United States, visit esri.com/esripressorders for complete ordering options.

  • TCarta Marine and Proteus Geo merge to provide marine mapping solutions

    TCarta Marine LLC of Denver, Colorado, has merged with Proteus Geo of Oxford, England, to create a global mapping company that provides bathymetric and marine data sets from the shallow coastal zone out to the continental shelf.

    The new company is called TCarta Marine and will maintain offices in Denver and Oxford.

    “By merging, we believe the merged company provides a wider and more sophisticated range of products than any other supplier worldwide,” said TCarta Marine CEO David Critchley. “TCarta Marine is now a one-stop shop for bathymetric and marine data.”

    TCarta-ProteusGeo-bathymetry-O
    Image: Proteus Geo

    TCarta Marine will continue offering all existing product lines from the two companies, as well as new products and services under development. Primary markets served will be engineering, oil and gas, government and defense with expansion planned into the insurance, 3D modeling and aquaculture industries.

    “Our goal is to make it easier for the marine community to obtain and use quality mapping data,” said TCarta Marine President Kyle Goodrich. “To support every phase of offshore projects, we now offer lower resolution bathymetry for regional planning as well as high-resolution, highly accurate seafloor modeling for precise coastal engineering activities. Additionally, we offer a range of global and regional marine basemaps.”

    In recent years, TCarta Marine and Proteus Geo collaborated on many projects and had numerous clients in common due to the complementary nature of their product lines.

    David Critchley established Proteus Geo in the United Kingdom in 2011 to leverage a new technology that derives high-accuracy seafloor survey and seabed classification information from multispectral satellite imagery. Operating at a fraction of the cost of traditional ship and airborne bathymetric technologies, the Proteus methodology has been deployed extensively in energy exploration, infrastructure engineering and environmental applications in shallow-water coastal zones.

    “The two-meter satellite-derived bathymetric data can be derived to depths of 35 meters depending on water clarity and every depth has an uncertainty value assigned,” said Critchley.

    TCarta Marine was started in 2008 by Kyle Goodrich to fill an enormous gap in quality bathymetric data from the littoral zone out to the base of the continental shelf, distance often spanning hundreds of kilometers. The firm developed proprietary techniques for aggregating seafloor depth data from numerous medium- to coarse-resolution sources, including navigation charts, ship tracklines, and boat surveys. TCarta Marine has built an off-the-shelf line of 90- and 30-meter GIS-ready products covering the Earth’s most important marine areas.

    “Our bathymetric products are available via annual subscription for streaming directly into our clients’ GIS and mapping applications,” said Goodrich. “Oil, gas and renewable energy companies have become major users of TCarta Marine products.”

    As president of the new TCarta Marine, Goodrich will focus on developing additional products and innovative methods for delivering them. The global company seeks to expand its foothold in traditional marine markets and cultivate new applications for seafloor data. Critchley, as CEO of TCarta Marine, will be responsible for business development in new geographic regions of the world.

    In the near term, TCarta Marine and Proteus Geo customers can look forward to purchasing the existing 90-, 30- and 2-meter resolution product lines online through a new web portal, now under development. Information can be found and orders placed now through the new unified TCarta Marine website at www.TCartaMarine.com.

    Proteus FZC, an affiliated company of Proteus Geo based in the United Arab Emirates, will remain a stand-alone company offering terrestrial geospatial and marine consulting services in the Middle East.

  • TCarta Marine and Proteus Geo merge to provide marine mapping solutions

    TCarta Marine LLC of Denver, Colorado, has merged with Proteus Geo of Oxford, England, to create a global mapping company that provides bathymetric and marine data sets from the shallow coastal zone out to the continental shelf.

    The new company is called TCarta Marine and will maintain offices in Denver and Oxford.

    “By merging, we believe the merged company provides a wider and more sophisticated range of products than any other supplier worldwide,” said TCarta Marine CEO David Critchley. “TCarta Marine is now a one-stop shop for bathymetric and marine data.”

    TCarta-ProteusGeo-bathymetry-O
    Image: Proteus Geo

    TCarta Marine will continue offering all existing product lines from the two companies, as well as new products and services under development. Primary markets served will be engineering, oil and gas, government and defense with expansion planned into the insurance, 3D modeling and aquaculture industries.

    “Our goal is to make it easier for the marine community to obtain and use quality mapping data,” said TCarta Marine President Kyle Goodrich. “To support every phase of offshore projects, we now offer lower resolution bathymetry for regional planning as well as high-resolution, highly accurate seafloor modeling for precise coastal engineering activities. Additionally, we offer a range of global and regional marine basemaps.”

    In recent years, TCarta Marine and Proteus Geo collaborated on many projects and had numerous clients in common due to the complementary nature of their product lines.

    David Critchley established Proteus Geo in the United Kingdom in 2011 to leverage a new technology that derives high-accuracy seafloor survey and seabed classification information from multispectral satellite imagery. Operating at a fraction of the cost of traditional ship and airborne bathymetric technologies, the Proteus methodology has been deployed extensively in energy exploration, infrastructure engineering and environmental applications in shallow-water coastal zones.

    “The two-meter satellite-derived bathymetric data can be derived to depths of 35 meters depending on water clarity and every depth has an uncertainty value assigned,” said Critchley.

    TCarta Marine was started in 2008 by Kyle Goodrich to fill an enormous gap in quality bathymetric data from the littoral zone out to the base of the continental shelf, distance often spanning hundreds of kilometers. The firm developed proprietary techniques for aggregating seafloor depth data from numerous medium- to coarse-resolution sources, including navigation charts, ship tracklines, and boat surveys. TCarta Marine has built an off-the-shelf line of 90- and 30-meter GIS-ready products covering the Earth’s most important marine areas.

    “Our bathymetric products are available via annual subscription for streaming directly into our clients’ GIS and mapping applications,” said Goodrich. “Oil, gas and renewable energy companies have become major users of TCarta Marine products.”

    As president of the new TCarta Marine, Goodrich will focus on developing additional products and innovative methods for delivering them. The global company seeks to expand its foothold in traditional marine markets and cultivate new applications for seafloor data. Critchley, as CEO of TCarta Marine, will be responsible for business development in new geographic regions of the world.

    In the near term, TCarta Marine and Proteus Geo customers can look forward to purchasing the existing 90-, 30- and 2-meter resolution product lines online through a new web portal, now under development. Information can be found and orders placed now through the new unified TCarta Marine website at www.TCartaMarine.com.

    Proteus FZC, an affiliated company of Proteus Geo based in the United Arab Emirates, will remain a stand-alone company offering terrestrial geospatial and marine consulting services in the Middle East.

  • Robotic riverbed survey reveals unseen depths

    The Ribble River flowing through Preston in Lancashire, United Kingdom, has hidden depths.

    “The challenge with rivers is that much of the beauty and interest is hidden from view beneath the surface,” said Jack Spees, CEO of the Ribble Rivers Trust. “To reveal this beauty, we undertook a bathymetric survey of a section with particularly interesting features that is adjacent to a heavily used public footpath.”

    The trust is using survey results to reveal these hidden depths on interpretation boards, including digitally augmented reality and video media enabling visitors to explore the underwater world.

    For the survey, a robotically controlled 1.2-meter twin-hull shallow draft vessel powered by a twin-jet system surveyed a hectare of the riverbed. It carried depth-recording sonar and a tracking prism that enabled a Spectra Precision Focus 35 total station to lock onto and robotically follow and record the vesssel’s location.

    Echo soundings were transmitted to a tablet PC ashore via long-range Bluetooth and time stamped, while the boat’s position was continuously recorded by the total station and sent back to a tablet PC, also using long-range Bluetooth and time stamped.

    The tablet PC ran 4Site, a program that formatted and processed the data from the sonar and the total station into a DWG drawing. Each point was positioned in real time, so the vessel operator could ensure complete coverage. A mesh of a 200-meter section of the river with depths to 3.5 meters was combined with aerial lidar data to produce the survey.

  • SPAR 3D expo focuses on Smart Cities, emerging markets, UAVs

    spar3d_expo_rgb_horiz-wFor nearly two decades, SPAR 3D has been the premier vendor-neutral event for the application of 3D technology in industry. But the surge in innovation and commercial uses for 3D technologies has brought opportunity for expansion.

    In 2017, SPAR 3D will highlight cutting-edge innovation in 3D technologies from input to output, covering 3D sensing, 3D processing and 3D visualization tools. The expo and conference will take place April 3-5 in Houston, Texas.

    In the exhibit hall, new products and hands-on demonstrations will be showcased.

    Keynote Address

    Paul Doherty of the Digit Group will speak on “The Emerging Power of Smart Cities and the Role of 3D, UAVs and the Conquering of Space.”

    Because of the uncanny timing and convergence of global market conditions, technology innovation, social wants and government needs, a smart cities market has exploded on a global scale that dwarfs any previous notion of the value given to the built environment.

    Sometimes described as part of Big Data or the Internet of Things programs, Smart City initiatives being implemented in many urban environments around the world today require accurate and authenticated data in which to work properly, but require 3D data generation and display innovations.

    Doherty will explore trends, solutions and implementations from greenfield and existing Smart Cities real estate developments from China, Australia, Saudi Arabia and the United States. He will explore the market-making abilities of Smart Cities that are developing solutions using 3D and UAVs, as well as the emerging privatization of outer space.

    Sessions

    Sessions will cover:

    • Big Data and Working in the Cloud
    • Wearables
    • AR/VR
    • 3D Printed Buildings
    • 3D Technology in AEC
    • Autonomous Vehicles

    Market-specific sessions will focused on the end-to-end application of 3D tools.

    Also, an “Intro to 3D Technology” track for professionals new to 3D will be offered.

    Learn more about SPAR 3D at the event website.

  • SPAR 3D Expo focuses on Smart Cities, emerging markets, UAVs

    SPAR 3D Expo focuses on Smart Cities, emerging markets, UAVs

    spar3d_expo_rgb_horiz-wFor nearly two decades, SPAR 3D has been the premier vendor-neutral event for the application of 3D technology in industry. But the surge in innovation and commercial uses for 3D technologies has brought opportunity for expansion.

    In 2017, SPAR 3D will highlight cutting-edge innovation in 3D technologies from input to output, covering 3D sensing, 3D processing and 3D visualization tools. The expo and conference will take place April 3-5 in Houston, Texas.

    In the exhibit hall, new products and hands-on demonstrations will be showcased.

    Keynote Address

    Paul Doherty of the Digit Group will speak on “The Emerging Power of Smart Cities and the Role of 3D, UAVs and the Conquering of Space.”

    Because of the uncanny timing and convergence of global market conditions, technology innovation, social wants and government needs, a smart cities market has exploded on a global scale that dwarfs any previous notion of the value given to the built environment.

    Sometimes described as part of Big Data or the Internet of Things programs, Smart City initiatives being implemented in many urban environments around the world today require accurate and authenticated data in which to work properly, but require 3D data generation and display innovations.

    Doherty will explore trends, solutions and implementations from greenfield and existing Smart Cities real estate developments from China, Australia, Saudi Arabia and the United States. He will explore the market-making abilities of Smart Cities that are developing solutions using 3D and UAVs, as well as the emerging privatization of outer space.

    Sessions

    Sessions will cover:

    • Big Data and Working in the Cloud
    • Wearables
    • AR/VR
    • 3D Printed Buildings
    • 3D Technology in AEC
    • Autonomous Vehicles

    Market-specific sessions will focused on the end-to-end application of 3D tools.

    Also, an “Intro to 3D Technology” track for professionals new to 3D will be offered.

    Learn more about SPAR 3D at the event website.

  • Eos introduces photogrammetry software for drone photography

    Eos Systems Inc. has introduced new photogrammetry software optimized specifically for photographs taken with drones or unmanned aerial systems (UAS).

    The new PhotoModeler UAS 2016 creates 3D models, measurements, and maps from photographs taken with ordinary cameras built-in or mounted on drones. It has numerous features for operation with drone photos, including post processing kinematics (PPK), volume objects, full geographic coordinate systems support, multispectral image support and control point assist.

    Eos Systems will be showcasing PhotoModeler UAS Oct. 31 to Nov. 2 at the Commercial UAV Expo in Las Vegas, and will offer the new software at 35 percent off the normal price Nov. 1-30.

    eos-photogrammetry-wThe new version of PhotoModeler is suited for drone photogrammetry applications, including surveying, ground contouring, surface model creation, stockpile volume measurement, mining and mine reclamation, environmental analysis, slope analysis, forensic analysis, construction and agricultural crop analysis.

    New applications for drone photogrammetry are developed monthly. Eos PhotoModeler was introduced 23 years ago and has become one of the leading photogrammetric software platforms with a wide range of users in fields such as architecture, engineering, surveying, research, manufacturing and forensics.

    PhotoModeler UAS 2016 software includes numerous features that provide higher performance in drone photogrammetry. Camera calibration is optimized for high accuracy with UASs and GPS. Post processed kinematics (PPK) makes it possible to correct a survey with GPS data after the fact for survey grade accuracy.

    Volume objects provide easy and accurate volume data for stock piles and mining operations. Full geographic coordinate system support enables users to work in their local geographic coordinate system for better compatibility. Support is provided for multispectral images including Normalized Difference Vegetation Index (NDVI) surface models and orthomosaics for precision agriculture. An intuitive interface is provided for efficiently marking ground control points.

  • DJI joins Propeller Aero on turnkey solutions

    DJI joins Propeller Aero on turnkey solutions

    See also Propeller Aero’s ground-control points aim for UAV accuracy.


    Drone-maker DJI has partnered with UAV software company Propeller Aero to launch an integrated solution to reduce costs, improve safety and drive operational efficiency in the construction and mining industries.

    The partnership integrates DJI’s commercial-grade aerial platform, the Matrice 100, with Propeller’s cloud-based software specifically designed for surveying and inspection.

    The solution provides enterprises and commercial UAV operators a simplified, quick and efficient way to automate operations and access data. It will enable businesses to accurately perform site measurements and volumetrics and share data seamlessly with just a few clicks, the companies said.

    Rory San Miguel (left) and Francis Vierboom, co-founders and CEOs of Propeller Aero, display the new Aeropoints product. (Photo: Propeller Aero)
    Rory San Miguel (left) and Francis Vierboom, co-founders and CEOs of Propeller Aero, display the new Aeropoints product. (Photo: Propeller Aero)

    Sydney Start-Up. Propeller Aero was founded in 2013 in Sydney, Australia, when Rory San Miguel and Francis Vierboom first got hooked on drone technology. They wanted to bring drones to industries like mining and construction, where they thought the technology was really going to “grow up.”

    They set about joining Australia’s regulated drone industry by applying for their drone pilot licenses. While waiting for the paperwork, they created an online app to share data from their trial flights.

    Figuring out the best ways to process, visualize and use UAV data ended up being more exciting to San Miguel and Vierboom than actually flying the drone.

    Propeller Aero provides cloud-based software that streamlines data processing and simplifies the way data is used and shared. The software package provides web-based geospatial data processing, analytics and instant volumetric calculations for a range of professional applications. It has been adopted by commercial drone operators and enterprise clients in 60 countries.

    Deploying UAVs for surveying and inspection can reduce costs, minimize workplace hazards and improve operations, especially for businesses that operate in quarries, construction sites and asset infrastructure.
    “Being from Australia, Propeller Aero has had the considerable advantage of developing alongside the industries that have been using commercial UAVs since 2002,” said Michael Perry, DJI’s director of strategic partnerships.

    DJI’s Matrice 100. The Matrice 100 platform has DJI’s technology built in, including GPS, the flight controller, the propulsion system, DJI Lightbridge, a dedicated remote controller and a rechargeable battery. The system automatically manages complex tasks required for flight.

  • Propeller Aero’s ground-control points aim for UAV accuracy

    Propeller Aero’s ground-control points aim for UAV accuracy

    Aeropoints are desgined for for companies across the industrial sector — including mining, construction, quarries and landfills.
    Aeropoints are desgined for for companies across the industrial sector — including mining, construction, quarries and landfills.

    Propeller Aero has introduced AeroPoints — smart ground-control points designed to make it easy to capture survey­accurate mapping using drones.

    The patent-­pending technology provides a simple solution to a major roadblock to widespread commercial drone adoption: accuracy.

    Typical ground control requires establishing precise geolocation position using surveying equipment, and then securing a visible ground marker exactly on the pre­-marked GPS point.

    AeroPoints are portable ground-control markers, visible from the air and capable of quickly capturing their own positions down to 2-centimeter absolute accuracy.

    AeroPoints work with any camera or drone, and integrate seamlessly with Propeller’s cloud­-based data platform and processing engine (see above story). They’re solar­-powered, durable and weather­ resistant, and they don’t require any on­site connection.

    To use AeroPoints, customers simply lay them down, fly their drone, and then pick them up again. They automatically connect to a wireless or mobile hotspot when back in range to upload captured positional data — and precision georeferencing is done.

    See also DJI joins Propeller Aero on turnkey solutions.

  • LandWorks upgrades Web AutoMapper service with USLandGrid

    LandWorks Inc., a developer of innovative land management solutions, has improved its Web AutoMapper online service that translates land legal descriptions into GIS-ready map polygons.

    The updated Web AutoMapper features a new interface that is easier to use, including a job detail webpage that lets users review and edit polygons before purchase. Clients can now have their property polygons mapped against USLandGrid’s national land base, with the option of buying land grid townships containing the mapped property.

    “These changes make the Web AutoMapper even easier and more cost effective to use,” said LandWorks President Jerry Bramwell. “Anyone with a need to create land maps can do so in just a few minutes at minimal cost.”

    For about 20 percent of the cost of manual mapping, Web AutoMapper has simplified land records mapping in the oil and gas, renewable energy, mining, banking, utility, pipeline, state/local government, telecommunications, transportation, water and real estate sectors. The cost to map a legal parcel description with Web AutoMapper is $2 per polygon with the USLandGrid offered at $7 per PLSS Township.

    “The USLandGrid data provides the tie between a legal description and the geography of that parcel of land,” said USLandGrid Vice President of Sales Anthony Ford. “Producing polygons this way allows you to get your land positions on a map for critical analysis using the GIS.”

    “LandWorks selected USLandGrid for inclusion in Web AutoMapper because it is the best basemap available for any industry or profession to use in mapping property legal descriptions,” said Bramwell. “An important benefit of the USLandGrid is that its data layers are continuously updated as more accurate survey data becomes available.”

    landworks_webautomapper-o

    LandWorks first introduced Web AutoMapper in 2013 as an inexpensive, fast and easy method of processing many types of standard property descriptions and converting them into digital map polygons. Legal descriptions that would take days or weeks to map manually can be processed in minutes with this online software-as-a-service application.

    A customer simply logs onto Web AutoMapper and creates an account. The user then submits an Excel spreadsheet containing one or hundreds of legal descriptions in Jeffersonian Township/Range or Texas Survey/Abstract formats. Within seconds, Web AutoMapper provides an onscreen report detailing which polygons can be generated, which cannot, and shows an overview of the mapped polygons aligned to the USLandGrid.

    If the customer decides to proceed, a credit card is provided. For customers who don’t already own the Grid, they have the option of buying it by the township along with their mapped polygons.

    Web AutoMapper generates a zip file of the purchased polygons and USLandGrid townships either in Esri shapefile or file geodatabase format in NAD 83 or 27 for direct download into Esri ArcGIS software as well as other popular mapping systems, such as IHS Petra, IHS Kingdom and LMKR GeoGraphix.

    As a cloud-based application, Web AutoMapper brings the full power of the standalone LandWorks AutoMapper software to every level of digital map user via the Internet. Introduced in 2002, the onsite AutoMapper package is purchased by an organization and sits behind their firewall as a production-grade GIS mapping tool. The software is used extensively by organizations that own or lease many land rights and must keep their property records up to date, such as local governments, energy companies and natural resource management entities.

  • TerraGo Edge and GeoPDF demonstrated at Intergeo

    TerraGo demonstrated at Intergeo the latest capabilities of its line of GeoPDF products as well as survey-grade, mobile GPS and GIS data collection with its TerraGo Edge and TerraGo Magic platforms geospatial collaboration and mobility software.

    GeoPDF products enable free, lightweight GIS applications, helping organizations get more value from their current investments in GIS and imagery platforms.

    TerraGo Edge and TerraGo Magic are GPS data collection devices combining high-accuracy, survey-grade GPS with advanced mapping and mobile collaboration on Android and iOS devices. With TerraGo Magic, customers and partners can build their own mobile apps, fully customized with their branding and features, without coding.

    TerraGo Edge v3.9.6 includes sample code for all REST API end points, automated note name options, enhanced cloud-based publishing of maps and forms and high-volume imagery and map to mobile processing. It includes:

    • New tools to support ArcGIS and enterprise integration: ArcGIS and enterprise integration using the TerraGo Edge REST API with the addition of sample code for every Edge REST endpoint via Postman API utility.
    • Automated note names with custom form fields: Configure the one-click QuickNote in any notebook to name notes by a specific form field, enabling  speed in the field and user-friendly data management and searching.
    • Attach maps and forms to multiple notebooks simultaneously.
    • Import multiple GeoPDFs and GeoTIFFs at the same time: Select or drag & drop many GeoPDFs/GeoTIFFs at the same time for user-friendly, high-volume parallel processing of  aerial imagery or offline basemaps.
    • New media filenames to help associate media to projects, includingnotebook name, note name, and a time and date stamp, to identify, search and sort  media files.

    GeoPDF. The latest Version 7 of TerraGo GeoPDF includes tools for publishing GeoPDF, including TerraGo Publisher for ArcGIS, TerraGo Publisher for ArcGIS Server, TerraGo Composer, TerraGo GeoPDF Platform Toolkit, TerraGo Publisher for Raster and TerraGo Toolbar.

    Features in this release include:

    • PubPy: Extends and enhances integration into ArcGIS ArcPy to enable on-demand web services and GIS portals.
    • OpenGeoPDF: Adds Open Geospatial Consortium (OGC) GeoPackage to GeoPDF documents to enable GIS-Lite applications using TerraGo Toolbar Version 7.0.
    • Mobile: Extends and enhances its support of TerraGo Edge and private-label apps created from TerraGo Magic with capabilities to create notebooks, maps, and applications for mobile workflows.
    • Advanced Layer Control: Implements of a number of features to improve flexibility and ease of use in production contexts.
    • Remote Desktop: Enables end users to access TerraGo Publisher and TerraGo Composer on their desktop from remote location.
    • Compatibility: Supports the latest versions of ArcGIS including the recently released ArcGIS 10.4.1.
    • Licensing: Implements a new license management system to  reduce the complexity and burden of license management, especially in enterprise software management.
  • SenseFly introduces eBee Plus professional mapping drone

    SenseFly introduces eBee Plus professional mapping drone

    SenseFly introduced the eBee Plus, its newest fixed-wing system for survey-grade photogrammetric mapping, at Intergeo 2016.

    senseFly eBee Plus S.O.D.A. results
    senseFly eBee Plus S.O.D.A. results

    For photogrammetric-quality mapping, upgradeable RTK/PPK functionality and flight time of almost an hour, the UAV is designed for professionals working in fields such as surveying, construction and GIS who require efficient data collection with survey-grade accuracy.

    The eBee Plus offers

    • built-in RTK/PPK functionality, activated immediately or later on demand, for survey-grade accuracy that the operator controls;
    • the new senseFly S.O.D.A. RGB camera developed specifically for drone photogrammetry work, featuring a 1-inch sensor and global shutter,  capable of capturing images with a spatial resolution of 2.9 centimeters.
    • eMotion 3 flight and data management software, featuring a full 3D flight environment, mission block flight planning, cloud connectivity and free updates.

    High Precision on Demand (HPoD) describes the drone’s built-in upgrade path to real-time and post-processing correction (RTK/PPK) functionality. Once activated by the user, this paid enhancement boosts the system’s achievable horizontal/vertical absolute accuracy to 3 centimeters/5 centimeters without the need for ground control points—dramatically reducing expensive, time-consuming field work.