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  • Blue Marble Releases 13.1 Update to Global Mapper Software Developer Toolkit

    Blue Marble Geographics announced the release of Global Mapper Software Developer Toolkit version 13.1. This update features many new drawing and analysis tools along with enhanced geospatial PDF and LAS 1.4 support.

     

    According to the announcement, Global Mapper SDK 13.1 syncs up the software developer toolkit with Global Mapper desktop software releases. This will enable a more consistent release cycle ensuring the software developers are able to work with the latest and greatest feature/functions introduced to the desktop version of the software. The 13.1 release introduces many new drawing tools such as drawing map layout items, including elevation legend, distance scale, map feature legend, and north arrow. The update also introduces powerful new analysis tools like the function for creating density/heat grids from loaded point features, the function for creating roughness length grids from a land cover layer and the method for easily calculating a watershed with stream paths and drainage basins from loaded terrain layers. The ability to add custom online data sources is introduced along with improved Geospatial PDF support, new LandXML, LASzip and LAS 1.4, I.H.S. Well Data point files, GeoJSON, and Digital Bathe Bathymetric Database Variable Resolution (DBDB-V) files and much more.

    “Blue Marble has been directly supporting hundreds of geospatial software developers implement cutting edge technology for years,” stated Blue Marble President Patrick Cunningham. “The Global Mapper SDK is a great tool to add to a suite of libraries and we are excited to work directly with our developer community with this new display and translation api. Syncing up the SDK kits with the desktop releases will help us provide the latest features and functionality to our existing users as well as new customers for future releases.”

    Blue Marble’s geospatial data manipulation, visualization, and conversion solutions are used worldwide by thousands of GIS analysts at software, oil and gas, mining, civil engineering, surveying, and technology companies, as well as governmental and university organizations.

  • Blom Announces BlomURBEX Integration with Enrio.fi

    Blom announced that BlomURBEX imagery was integrated into Finland’s most popular web mapping service, Fonecta’s Enrio.fi. Integration was done using BlomURBEX’s API (Application Programming Interface) tools.

    According to the announcement, the oblique imagery served from BlomURBEX provides users with a rich, interactive and highly informative view of the area of interest. For example, before setting off to a destination, users can inspect Eniro.fi’s routing services. The oblique imagery provides a broader visual understanding of the area, and helps users to easily locate themselves within their surroundings.

    “We are developing all of our services to help people and companies in everyday tasks, and customer feedback is very important for us. For some years Blom has provided us with oblique images and these have always generated a lot of interest with an established user base,” states Toni Wistbacka, the Product Manager of Eniro.fi –service.

    Blom reported that in addition to oblique and ortho imagery, several types of map layers, and routing service functionality, Fonecta’s improved Eniro.fi service also provides tools for searching contact information of companies and individuals in Finland.

  • GeoSpatial Experts Announces Hamilton County Implements GeoJot iPad Data Collection App

    GeoExperts announced that Hamilton County, Ill., is using GeoSpatial Experts’ GeoJot field data collection app on an iPad to correlate street addresses with parcel coordinates. Initiated for tax assessment and E911 purposes, this photo project is creating the rural county’s first digital map database that matches property addresses to their correct geographic locations.

    “Most houses have been assigned streets addresses, but they’ve never been correlated to our county parcel database,” said Mark Becker, Hamilton County Supervisor of Assessments. “People still have to give their address verbally when they call 911 for assistance.”

    Hamilton County is rapidly updating its address and property database to meet E911 standards using the iPad and GeoSpatial Experts’ GeoJot application, according to Becker. GeoJot is an easy-to-use app that converts an iPad or iPhone into a field data collection device. Available from the Apple App Store, GeoJot is a companion application created for exclusive use with the PC-based GPS-Photo Link photo-mapping software. GPS-Photo Link is able to map photographs and accompanying attribute information captured with a GPS camera, smartphone with GPS, or any digital camera used in conjunction with any GPS unit. Digital map output includes Esri shapefiles and geodatabases as well as Google Earth files.

    In Hamilton County, college interns walk from house to house taking photos of each one with the iPad 2. They then key in the house number, street name and street direction to keep the Assessor’s tax database up to date. These attributes – along with the GPS coordinates – are permanently linked to the correct property photo by GeoJot. Back at the Assessor’s Office, the GeoJot files are uploaded to the GPS-Photo Link photo-mapping software running on a PC.

    “Mapping addresses will save money for Hamilton County by making its assessment activities more efficient,” said GeoSpatial Experts’ President Rick Bobbitt. “More importantly, an accurate address map is a necessity for timely E911 response to emergency calls.”

    In 2011, GeoSpatial Experts introduced GeoJot to leverage and maximize the built-in geotagging capabilities of the camera-equipped iPad and iPhone. These mobile devices use internal GPS chips to stamp each photo with location coordinates where the photo was taken. GeoJot maximizes the geotagging accuracy of the internal GPS chips by up to four times – putting it well within the accuracy specifications of many business-related photo-mapping applications.

  • Telogis Acquires Maptuit Assets

    Telogis, Inc. announces the acquisition of the assets of Maptuit, a leading provider of connected navigation for commercial fleets. This acquisition — the company’s fifth in three years — expands Telogis’ services as the market increases adoption of location-based Software-as-a-Service (SaaS) solutions. Maptuit’s commercial navigation technologies further enhance the Telogis enterprise platform of SaaS solutions, which includes fleet management, navigation, multi-vehicle route optimization and planning, work order management and mobile integration.

     

    “This acquisition adds a new dimension to our platform,” said Newth Morris, president, Telogis Route and Telogis Mobile. “With these advances, Telogis further differentiates itself in the market by providing the most comprehensive suite of location intelligence solutions on a single platform.”   

    According to the announcement, the enhancements to the Telogis platform resulting from this acquisition include an advanced location-based service (LBS) engine that receives feedback from the field on road conditions and physical restrictions that may not be captured by commercial and open source map data. These capabilities are critical not only to the commercial navigation markets where Maptuit has been successful, but also to industries such as mining, and oil and gas, which operate in remote regions where map data coverage is limited.

    Maptuit’s technologies also allow companies to specify “known-good” routes and yard-approaches. These capabilities help companies improve the safety of route operations and are increasingly important in international markets where bonded routes exist.

    Telogis reports it will integrate Maptuit’s technologies directly into its enterprise platform, thereby expanding the Telogis customer base by more than 100,000 subscribers.

    “The commercial navigation technologies that Maptuit has revolutionized will enhance all of the applications on our platform — route planning, navigation, execution analytics — and position our company to best handle the growing location intelligence needs of companies worldwide,” said Morris. “This acquisition complements the Telogis platform with a unique set of high-value capabilities that allow companies to dramatically transform their operations, improve safety and lower operating costs.”

  • Esri Announces Technology Used to View How Climate Change Impacts African Populations

    Esri announced that the Strauss Center’s Climate Change and African Political Stability (CCAPS) program has implemented Esri technology to view how climate change impacts vulnerable populations in Africa. CCAPS created the dynamic mapping tool in partnership with AidData for use by researchers, policy makers, journalists, and citizens. Users can visualize any combination of CCAPS data on climate change, conflict, and aid on a map to discover how different forces overlap or intersect.

     

    “This mapping tool allows policy makers to analyze data from multiple sources at once, providing integrated analysis of the drivers and responses related to security risks stemming from climate change,” said Francis J. Gavin, director of the Strauss Center.

    According to the announcement, the tool is already being used in the country of Malawi for a solution that tracks and reports on the country’s external funding. Aid information is mapped along with data on climate change vulnerability and incidents of conflict. This sheds light on whether aid is effectively targeting regions where climate change or conflict poses the most significant risk to the sustainable development and political stability of the country.

    “Climate change poses an enormous threat to the livelihoods of millions of Africans,” said Jean-Louis Sarbib, CEO of Development Gateway. “The level of risk, however, is not evenly spread and certainly doesn’t respect national boundaries. To ask critical questions about how development assistance can reduce vulnerability, you need hyperlocal data on climate and also on aid-funded interventions. This is what the new CCAPS mapping tool shows in a digestible, interactive way.”

    Esri reported that by integrating CCAPS research on climate change, along with existing datasets such as topographic maps, imagery, and thematic information on conflicts, the CCAPS mapping tool aims to provide the most comprehensive view possible of climate change and security in Africa.

    “The great work of these organizations is a real game changer for the development community,” said Jack Dangermond, president of Esri. “Being able to create a tool that allows people to communicate with others all over the world using maps is powerful. I am impressed with the work being done and excited to see what they will think of next.”

  • Hemisphere GPS Introduces miniEclipse Compact OEM Modules with GNSS Support

    Today, Hemisphere GPS announces the Eclipse P300 and Eclipse P301 OEM modules — its next-generation high‑performance compact modules for RTK GNSS applications. Based on new Hemisphere GPS multi-function application firmware and Eclipse GNSS multi‑constellation technology, P300 and P301 provide the ability for tracking commercially available GNSS signals for precise positioning.

    P300 is a drop-in board replacement for Hemisphere GPS’ successful Crescent L1 board as well as the first‑generation miniEclipse P200 GPS-only OEM board. P301 is the company’s 20‑pin OEM module configured as a drop-in replacement for a different industry standard interface. Eclipse P300 and P301 improve GNSS positioning performance, particularly with RTK applications, through Hemisphere GPS’ patent-pending SureTrack technology. Benefits include extended and more robust RTK solutions as the rover RTK receiver will process all available signals even if they are not common with the base receiver. RTK solutions are therefore better maintained in challenging environments, with baselines of up to 50 km, and reacquisition times are improved resulting in more robust overall performance, the company said.

    P300 and P301 are designed for OEM system integrators who demand the highest level of multi-frequency positioning, accuracy, fast initialization time, and GNSS RTK solutions. Hemisphere GPS’ miniEclipse series includes a single frequency L1 GPS + L1 GLONASS model named P202. Both series are designed for developing integrated high-precision and control applications for geomatics, survey, machine control, and unmanned vehicle solutions.

    “P300, P301, and P202 all improve upon our already successful miniEclipse OEM modules adding GNSS support to our most compact modules for excellent accuracy and affordability,” said Phil Gabriel, vice president and general manager, Precision Products, for Hemisphere GPS. “System integrators have a wider range of Hemisphere GPS solutions from which to choose to develop world‑class high‑precision products.”

    Measuring 71 mm long and 41 mm wide, miniEclipse allows for easy integration, especially for integrators who are accustomed to Hemisphere GPS’ Crescent and miniEclipse OEM module performance and footprint.

    All miniEclipse modules are available through the Hemisphere GPS Precision Products global dealer network.

  • GPS Partnership Council Invites Attendees to Discuss Asset’s Future

     

    GPS as a national asset will be highlighted at the 11th GPS Partnership Council, set for May 1 and 2 at the Space and Missile Systems Center at the Los Angeles Air Force Base, in El Segundo, California. The theme of the council is “Our National Asset At Work.” Registration is now open; attendance is limited to 250.

    According to the council, “The GPS Partnership Council serves as a means to communicate with GPS stakeholders on present-day activities, future plans, and measures that are in place to ensure GPS remains the world leader for providing space-based positioning, navigation, and timing services to the warfighter and civilian users. Our commitment to mission assurance ensures users around the globe will continue to benefit from improved GPS performance, while we continue acquiring, operating and sustaining GPS as the ‘gold standard’ for positioning, navigation and timing for the warfighter, the nation, and the world.”

    Key council members include:

    • Brig Gen Martin Whelan, director of Requirements, HQ AFSPC/A5
    • Col Bernie Gruber, director of the Global Positioning Systems Directorate
    • Anthony Russo, director for National Coordination Office for Space-Based PNT.

    The meeting is sponsored by the Los Angeles Chapter of the Armed Forces Communication and Electronics Association and GPS Directorate.

    Day 1, Tuesday, covers two topics, “The Enterprise” — a GPS system capability review, and a discussion of “Modernized GPS User Equipment (MGUE),” with an Army future perspective and an MGUE industry panel.

    Day 2, Wednesday, covers “GPS at Work for the Nation” in the morning, including GPS’ role for the Department of Homeland Security, the Federal Aviation Administration, NASA, and other agencies. The afternoon of Day 2 looks at “The Warfighter,” with speakers from 2SOPS followed by a panel discussion.

    Both days feature opportunities for networking. The final day, Thursday, features the GPS Scramble Golf Tournament.

    Attendees can also browse the displays and exhibits during the conference.

  • Navigating the Moon

    The European Space Agency has issued an intriguing Intended Invitation To Tender, “Weak GNSS Signal Navigation on the Moon.” The study will investigate use of weak-signal GPS/GNSS — and of course ESA is interested primarily in the use of Galileo — for real-time position, navigation and timing information to various future lunar assets such as automated landers, rovers, Earth-Moon transportation vehicle, in-situ navigation, and so on.

    Does ESA have a lunar exploration agenda? This I did not know, but with only my own ignorance to thank, I quickly found out that ESA has had a lunar orbiter, SMART-1 (Small Missions for Advanced Research in Technology), since 2004, equipped with an Advanced Moon Imaging Experiment (AMIE) micro-camera and a mission, at least in part, to zero-in on suitable study sites for potential future lunar exploration missions.

    Since the conclusion of that project, ESA now plans to land a spacecraft in 2018 near the Moon’s south pole, a region full of dangerous boulders and high ridges. The aim is to probe the moonscape and test new technology — and now we know this includes GNSS — to prepare for future human landings. “The region may be a prime location for future human explorers because it offers almost continuous sunlight for power and potential access to vital resources such as water-ice.”

    “Although the visibility geometry is not always favorable,” the current ESA Invitation to Tender states, “it would result in 100-500m position accuracy as estimated in a NASA JPL/Ohio University paper. For lunar navigation applications, GPS/Galileo signals could be used if receivers complemented with advanced processing signal and filtering techniques, are capable of acquisition and tracking in the order of 15dBHz signal to noise ratios. Today latest developments show that these values are feasible. The PNT performance figures could also be improved with a GNSS-based system on a lunar relay satellite orbiting the moon as analyzed in [RD3]. The hardware required is equivalent to GPS space-based receivers and a high gain antenna.”

    The invitation to tender, to the tune of 200,000–500,000 euros, closes on April 23.

    GNSS use in space exploration, novel as it seems, has been outlined and partially explored in previously published articles in GPS World.

    In September 2008, Jim Miller and A.J. Oria brought us all up to date on the U.S. National Aeronautics and Space Administration’s (NASA’s) plans to use GPS in the great dark out-there.

    “NASA has engaged with the Department of Defense (DoD) to define the performance parameters to support navigation services in a Space Service Volume (SSV) designated from 3,000 kilometers to GEO altitude to approximately 36,000 kilometers,” they wrote in “NASA’s Vision for Space.”

    “This type of navigation requires specialized software to process the side-lobes of GPS signals coming over the earth’s limb, as well as the increased attenuation and tracking of a very few satellites at a time. Once tracking is initiated. however, one can begin to imagine a future where GPS-in-space may also include syncing GPS positioning and timing with spacecraft and beacons broadcasting other “GPS-like” signals near celestial bodies such as the moon and Mars.

    “Transition from terrestrial-based radar tracking of space vehicles to space-based radiometric data from GPS is well underway at NASA. Simulations demonstrate GPS Navigator receiver applications could be performed almost to the moon. An ongoing effort is developing the TDRSS Augmentation Service for Satellites (TASS) to disseminate differential corrections from the Global Differential GPS (GDGPS) network to users in LEO. The Communication, Navigation, Networking, reConfigurable Testbed (CoNNeCT) on the ISS will use software-defined radios to process GPS/GNSS signals and waveforms.’

    Also, in “GPS Goes Martian: Nav/Com for a Red Planet,” a 2004 article by Susan Skone, Kyle O’Keefe, and Gerard Lachapelle, the authors describe plans for a network of satellites to be placed in orbit around our eerie solar-system sibling for the purpose of GPS-like navigation.

    Finally, way back in 2002, a group of authors proposed “Formation Flight in Space.” Russell Carpenter, Michael Moreau, Jonathan How, Lesse Leitner, Frank Bauer and David Folta described how distributed spacecraft systems are developing new GPS capabilities, on the drawing boards, at least.

    “Scientists have just begun to understand the full potential of space vehicle formation flying. In the last few years, this technology has gone from a space oddity — and a high risk one at that — to a concept fully embraced by earth and space scientists around the world. Prior to the selection of the New Millennium Program Earth Orbiter-1 (EO-1) mission in 1996 (the first autonomous formation flying earth science mission), the National Aeronautics and Space Administration (NASA) had only one or two formation flying concepts under consideration. Now 35 mission sets fill that list.”

    If any young and adventurous engineers out there have been lamenting the dearth of new frontiers for them to explore GNSSively, cry no more.

     

  • DVW President Thöne: Geoinformation Plays Important Role in Key Sociopolitical Issues

    Karlsruhe, Germany — Geoinformation holds enormous potential: “Geoinformation plays an important role in all key sociopolitical issues,” said Karl-Friedrich Thöne at the Intergeo Round Table in Karlsruhe. All participants were in agreement with the President of the German Society for Geodesy, Geoinformation and Land Management (DVW), the organization responsible for hosting Intergeo October 9-11, 2012, in Hanover.

    However, the experts — including representatives from the worlds of politics and industry — backed different approaches for the leading international industry forum with conference and trade fair. Georg Thiel from the Federal Ministry of the Interior (BMI) called for a “national geoinformation strategy,” while Ernest McCutcheon, managing director of Karlsruhe-based DDS Digital Data Services GmbH, said that too great an emphasis” was placed on data protection, favouring instead an approach highlighting the benefits of employing geoinformation.

    During the discussion held under the banner “Smart Geoinformation — Intelligent Geoinformation for the Future,” Thomas Haupt, responsible for sustainability in his position as the director of PTV Planung Transport Verkehr AG in Karlsruhe, gave an example demonstrating that easier access to data improves the “robustness of systems.” He said that anonymous mobile data could be used instead of models for planning traffic flows, which would also help find a way out of the “data jungle” and into a “healthy mixed forest.” However, DVW President Thöne warned against focusing exclusively on the benefits of geoinformation. The debate on Google Street View, he said, showed that potential risks also had to be included in any discussion. He proposed that “Intergeo should also serve as a platform for adopting an offensive strategy for data protection and data security.”

    The first national Inspire Conference will held at the 18th Intergeo in Hanover this year. Inspire is an EU directive for creating a common geodata infrastructure. Under this directive, high-quality geodata from the public bodies of member states should be made available under uniform conditions to support the formulation, implementation and evaluation of European and national areas of policy. “It is our job to put data protection in Europe on a new footing,” Georg Thiel said. The Inspire Conference and Intergeo, he added, are ideal platforms for launching discussions with a view to developing a national geoinformation strategy.

    But how does Inspire affect smartphone owners? “Inspire will generate added value,” said Thiel, referring to the simple example of intelligent lawn-mowing robots. “These lawnmowers can use Inspire, for example, to incorporate weather data into their planning and wait for a storm to pass before automatically starting to mow the lawn.” Public administration bodies will make decisions based almost 100 percent on geoinformation, Thiel said.

    Hartmut Rosengarten, from Hexagon Geosystems and spokesman for the Intergeo Exhibitor Advisory Board, acknowledged the event as both an international communication platform for the industry and a bridge between professionals and end consumers. “At Intergeo, we have to offer solutions so they can be understood and utilised by everyone,” he said.

  • Bluetooth Group Adopts GNSS Standard

    The Bluetooth Special Interest Group, which publishes specifications for Bluetooth, has adopted the GNSS Profile version 1.0 for devices using Bluetooth 2.0 and up. The GNSS profile provides a means for a GPS enabled device to share its position data with another device via a Bluetooth wireless technology based connection.

    The unified standard, which has been in progress for several years, will likely make it easier for location-aware Bluetooth devices to share information. Currently, devices can use proprietary formats or other formats not covered by the Special Interest Group. Developers can download the profile here (PDF).

    Revision history on the standard began in 2006, with a two-year gap in 2009 and 2010.

  • Survey GPS Maps Routes on iPhone

    allows users to record, export, and import routes and landmarks together with information such as photos, videos, audios, or text directly to an iPhone. The product is intended both for professional survey teams and outdoor adventurers. Key features include:

    • Enjoy recording your trip routes and pinning impressive landmarks, with multimedia files and descriptions.
    • Advanced functions; export/import, geotag/geocode, along with Multiple Recording Filters.
    • Versatilely edit the saved track/point; crop, move, copy, merge, or change properties.
    • Share and develop your trips with friends easily via iTunes or email.
    • Available in two versions: The Basic (TMX) and The In-App (TMX, GPX, MID/MIF, or Shapefiles.)
  • UrsaNav Follows Up with Second Wide-Area Timing Tests

    This week, UrsaNav once again transmitted from the former USCG Loran Support Unit (LSU) facility in Wildwood, New Jersey. To ensure that those interested understand that the USCG has no intent to acquire, operate, or provide a wireless time technology or services, UrsaNav has renamed the LSU — it’s new facility name is the Diamond Beach Facility, or “dBF.”

    In a statement released today, UrsaNav said:

    “Our main purpose for on-air testing at this time is to demonstrate wide-area precise time distribution using terrestrial, ground-wave RF solutions. However, a robust timing solution uses on-signal data channel(s) for nanosecond-level corrections, so we are also testing a variety of modulation techniques that provide significant throughput gains over the current 100-180 BPS methods.

    “Our current equipment suites consist of the Nautel NL Series prototype transmitters, Symmetricom Timing and Frequency Equipment (TFE), and UrsaNav UN-150 eLoran Timing Receivers.

    “We are not simply transmitting eLoran. We are also evaluating some improvements to eLoran that do not change the underlying signal structure. Finally, we are testing various alternative LF solutions that include new waveforms and modulation techniques.

    “We have established preliminary monitor sites at five locations: Boston, Massachusetts; Chambersburg, Pennsylvania; Leesburg and Chesapeake, Virginia; and Charleston, South Carolina. We are scouting for additional monitor sites at distances of up to 1,500 miles from our current transmitting location.

    “During this week’s testing, we tightened the synchronization of our transmissions to within 10 ns of UTC. We tested continuously for periods in excess of 24 hours. Without the use of any propagation corrections or differential monitoring, we successfully demonstrated UTC traceability to within +/- 30 ns at 160 miles and to within +/- 70 ns at 500 miles. Several acquisition trials showed that our receivers can very quickly acquire the LF signal and steer to within 50 ns of UTC. At all distances, our receivers met the ITU and ETSI Maximum Time Interval Error (MTIE) masks for Primary Reference Clocks.

    “Additional on-air tests are planned for next week, so stay tuned for the third part of our continuing series on wide-area timing.”