GPS World

Author: Tracy Cozzens

  • Trimble Launches Online Platform for Geospatial Professionals

    Trimble-InSphere-O

    Trimble has introduced the InSphere platform for geospatial information management, a cloud-based software platform for central management of geospatial applications, data and services. Trimble says InSphere offers an innovative approach for central management of geospatial operations to improve workflow, maximize efficiency and transform the way geospatial professionals work and access critical operational information.

    The framework provides access to multiple applications, including three productivity apps: Trimble InSphere Data Manager, Trimble InSphere Equipment Manager and Trimble TerraFlex to simplify field data collection. In addition, Trimble Access Services provide a seamless data connection between surveyors in the field and managers in the office, the company said. InSphere allows organizations to manage everything in one place, accessible anytime and virtually anywhere.

    Geospatial customers in a range of industries — including surveying and engineering, natural resources management and mapping — now have easy access to productivity-enhancing applications. The secure, cloud-based system is easy to deploy and configure to meet the needs of any organization, Trimble said.

    “The centralized management, streamlined access and tailored toolsets of Trimble InSphere are designed to boost overall operating efficiency,” said Alain Samaha, business area director of software for Trimble’s Geospatial Division. “Because geospatial information has the potential to transform organizations, we are simplifying access so the benefits of this information can be shared more readily with those who need it.”

    InSphere Data Manager. The Trimble InSphere Data Manager application improves access to geospatial information for the whole organization. Accessible anytime and anywhere through a desktop or mobile device, Data Manager allows organizations to manage geospatial data in one place, for easy access to previous project information and time saved in project management.

    The Trimble InSphere Data Manager can be used on a desktop, laptop, or mobile device.
    The Trimble InSphere Data Manager can be used on a desktop, laptop, or mobile device.

    InSphere Equipment Manager. The Trimble InSphere Equipment Manager application allows organizations to centrally manage their field devices. At a glance, surveying and mapping companies, can track equipment location, and view the current status of warranty, firmware and software for their fleet of field equipment.

    Trimble TerraFlex. Trimble TerraFlex is a scalable cloud-based solution for everyday mobile field data collection. TerraFlex addresses a wide variety of field requirements including attribute-rich GIS data collection on a variety of common field devices. With an online data repository and streamlined toolset for creating custom digital form templates, TerraFlex keeps the data flow standardized and streamlined for effective project organization.

    Trimble Access Services. The perfect complement to Trimble Access field software and Trimble Business Center desktop software, Trimble Access services assist users with day-to-day workflows. Users can wirelessly transfer survey files between the field and office to ensure access to the most up-to-date data.

  • FOSS4G Europe Conference Set for July

    The FOSS4G (Free and Open Source for Geospatial) Europe Conference, Europe’s largest ever event on free geospatial and location-based software, will be held at Jacobs University in Bremen, Germany, from July 15 through 17, 2014. Also at this conference, the winners of the NASA World Wind Europa Challenge will present their innovative apps to the public.

    More than 500 delegates are expected. The FOSS4G-Europe conference not only attracts software developers and open-source service companies, but also industry and governmental agencies, who increasingly recognize the value and cost savings potential of open-source software. “We are proud and excited to have the honour of organizing the first pan-European FOSS4G,” said Conference Chair Prof. Dr. Peter Baumann, head of the Large-Scale Scientific Information Systems (L-SIS) Research Group at Jacobs. Adds Organizing Committee Chair and L-SIS group member Susanne Ebrecht, “This event actually will contribute to bridging gaps between open-source and commercial software worlds.” The main financial support is coming from the transatlantic Big Geo Data initiative, EarthServer, funded by the European Commission. Additionally, sponsors are being invited from industry, government, and other organizations.

    FOSS4G is a conference series held under the auspices of OSGeo, a worldwide acting, independent, nonprofit legal entity established to support the collaborative development of open source geospatial software and promote its widespread use. Its international Board of Directors is elected by OSGeo Charter Members, one of whom is Prof. Dr. Peter Baumann. Following an outstandingly successful FOSS4G-CEE, for Central and Eastern Europe, in Bucharest in the summer of 2013, it was decided to widen the scope to a pan-European event next year. With more than 500 participants, this will be the largest event of its kind in history, only surpassed by the global FOSS4G conference. As part of this activity network, continental FOSS4G events are being held in Africa, Asia, and Latin America.

    The NASA World Wind Europa Challenge is an annual programming competition organized by NASA, Patrick Hogan, and Prof. Maria Brovelli, University Como, Italy. The challenge is to develop solutions that serve the spatial data needs of the European Community and respond to the INSPIRE Directive. Solutions sought will use NASA’s World Wind, an open-source virtual globe like Google Earth. Data used should relate to INSPIRE, the Infrastructure for Spatial Information in Europe. Examples of applications include a wildfire management tool, a tool for urban management, and tools for weather display and climate research.

    The term free and open-source software denotes computer programs that, together with their blueprint (called the program’s source code), can be distributed without ownership limitations and can be modified and improved by anybody. This prevents from software vendor dependencies and typically leverages resources from developer communities whose passion it is to continuously improve freely available software. As universities frequently are engaged in open-source projects, it is not uncommon that such projects actually define the state of the art. Prominent examples include the Apache Web server and the rasdaman array database system.

  • GammaTech Offers 15.6-Inch Semi-Rugged Notebook

    GammaTech_S15H_Side_LR.jpg

    GammaTech Computer Corp., an international manufacturer and supplier of notebook and tablet computers, has added the S15H: a 15.6-inch semi-rugged Durabook notebook with high-definition resolution that takes full advantage of the Intel Haswell CPU. The S15H is designed for rugged applications and environments.

    “The S15H was designed to fill a need for a 15-inch monitor in the marketplace,” said Paul Kim, GammaTech vice president of marketing. “Many companies and organizations have legacy software programs that were designed for 15-inch monitors with no way to run them. The S15H provides a solution to this problem, while eliminating the need and expense of modifying how legacy systems display.”

    The S15H notebook’s full high-definition (1920 x 1080 resolution) 15.6-inch LED display with Intel compliant high-definition stereo audio, built-in microphone, and Intel integrated graphics controller, plus nVidia Optimus technology ensures incredible image detail and crisp reproduction, even for the most graphic-intense situations, including 3D, GammaTech said.

    Replacing Intel’s Ivy Bridge, the Haswell CPU is the first SoCs that is made specifically to take advantage of Intel’s 22nm process technology. It features a new core, new graphics, and substantial changes to the platform in terms of memory and power delivery as well as power management. That means consumers or businesses using the GammaTech S15H notebook can expect faster computing and graphics, and longer battery life in a sleek form factor, GammaTech said.

    The use of a USB 3.0 connector allows the S15H notebook to transfer data very fast, GammaTech said. With a “SuperSpeed” transfer mode, USB 3.0 is capable of transferring data at up to 5Gbit/sec., more than 10 times as fast as the 480 Mbit/sec. top speed of USB 2.0. Plus, with its increased bandwidth, USB 3.0 is able to use two unidirectional data paths: one for receiving data, the other for transmitting. It is also backwards compatible with USB 2.0 devices.

    The Durabook S15H notebook has a magnesium alloy case 20 times stronger than ABS plastic. The unit is tested to military standard 810G for drop and shock resistance. Its keyboard, buttons and indicators are spill resistant. Its flexible HDD cable design absorbs shock from drops, providing protection for important data, while anti-shock mounting technology around the LCD helps protect the display from accidental damage.

    Other rugged features include an exclusive optical disk-tray lock that prevents unintentional tray eject from drop and vibration; double-protection smart battery circuitry, which prevents damage caused by current or voltage surges and overheating; and smart battery calibration that helps fight the loss of battery capacity after repeated charge-discharge cycles.

    The Durabook S15H notebook comes with an Intel 4th Generation iCore CPU M series with Intel HM86 chipset. Two dual-channel DDR III SODIMM slots provide 2, 4, 8, or 16GB of memory. An internal optical media device accommodates a DVD super-multi drive (DVD-R/CD-RW/DVD-RW/DVD+RW_DL/DVD-RAM).

    The S15H notebook can be used virtually anywhere thanks to wireless communications such as integrated 10/100/1000 Mbps Ethernet, an Intel Mini-Express wireless LAN network connection, and Bluetooth 2.1 + EDR. A WWAN 3G module is also available. The SIM card is secured behind a security-screwed door.

    System security is provided by internal TPM 1.2 data security protection, as well as a Kensington lock connector and both administrator and boot password control.

  • National Atlas and Map to Merge into One Source

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    During this year, National Atlas of the United States and The National Map will transition into a combined single source for geospatial and cartographic information. This transformation is projected to streamline access to maps, data and information from the USGS National Geospatial Program (NGP). The move will prioritize the the agency’s civilian mapping role and consolidate core investments, the agency said.

    The USGS will continue its long history of providing topographic maps, geospatial data and other geographic information by offering a range of scales and layers of geospatial information on The National Map Viewer and through US Topo maps. As a result of the conversion to an integrated single source for geospatial and cartographic information, nationalatlas.gov will be removed from service on September 30, 2014.

    USGS_National_Map-T“We recognize how important it is for citizens to have access to the cartographic and geographic information of our nation. We are committed to providing that access through nationalmap.gov,” said Mark DeMulder, NGP director.

    “We value the National Atlas customers and stakeholders and want to make this transition as easy as possible,” explained Jay Donnelly, the National Atlas Program Manager. “We will post updates to The National Map and National Atlas Websites as this transition unfolds, including information on the future availability of the products and services currently delivered by nationalatlas.gov.”

    Further information is available at http://nationalatlas.gov/transitionfaq.html.

  • CompassTools Installs Base Station for GPS Correction in Four Corners Region

    CompassTools Inc., a distributor of mapping and GIS products for field data collection, has installed a GPS reference station in Durango, Colorado, to provide freely available differential correction data to GPS users in the Four Corners area of Colorado, New Mexico, Utah and Arizona. The correction data can significantly enhance the accuracy of location coordinates captured by GPS receivers used in mapping and surveying applications.

    “We have many clients involved in GIS mapping projects for energy development, utility asset location and local government applications in the Four Corners region,” said CompassTools CEO Steve Chiles. “CompassTools set up the Durango reference station to help them complete their mapping projects with greater efficiency and accuracy and at less expense.”

    CompassTools is a value-added reseller of hardware and software mapping solutions from Trimble, Laser Technology, Ricoh, GeoSpatial Experts, Esri, and CartoPac. Since 1994, CompassTools has sold, leased, repaired, and offered training on the latest GPS and GIS mapping products in an eight-state region that includes Colorado, Wyoming, New Mexico, Minnesota, Nebraska, the Dakotas and parts of Texas. In addition, the firm provides expert GPS/GIS consulting and creates customized bundled packages to meet the specific needs of complex data collection projects.

    The Trimble NetR9 GNSS reference station installed by CompassTools in Durango is capable of receiving location signals from GPS, GLONASS, and Galileo. CompassTools established the unit as a Continuously Operating Reference Station (CORS) accepted by the National Geodetic Survey (NGS) and part of Mesa County Colorado’s Real Time Virtual Reference Network.

    “The Trimble NetR9 broadcasts differential correction data in real time via a cellular signal,” said Chiles. “And the correction data is also posted automatically to the CompassTools website for post-processing.”

    Chiles explained that this means the GPS user has the option — usually depending on the capabilities of their portable GPS receiver — to correct their location data and improve its accuracy in real time as they collect it in the field. Or the GPS user can download the correction data from the CompassTools website when they return to the office and process the data after the fact. An advantage of real-time correction is the user knows the accuracy of the GPS data being collected while still in the field.

    “The ultimate accuracy of the collected location data depends on the quality of GPS receiver being used,” said Chiles. “We have many clients in Durango using mapping-grade handheld GPS data collection devices achieving accuracy better than 10 centimeters using the reference station data.”

  • Esri Launches Geotrigger Service for Mobile Developers

    esri-logoEsri announced today that its cloud-based Geotrigger Service is now available, making it easier for developers to add location awareness and messaging to their iPhone and Android apps. With the Geotrigger Software Development Kit (SDK), mobile apps can send custom messages when a user enters or leaves locations specified by the application developer.

    “The Esri location platform currently offers many services for developers, from geocoding and geoenrichment to routing and maps,” said Johan Herrlin, Esri senior business strategist. “Geotrigger boosts these existing services with location awareness and location-based alerts.”

    Esri’s Geotrigger Service expands on the native geofencing features available within iOS and Android, including the ability to create complex polygon geofences and notify other servers or services when triggers are fired. Geotrigger Service also adds additional logic to reduce the battery drain when using location services on mobile devices. Geotrigger SDKs provide a consistent interface supporting faster development of apps for both iOS and Android.

    Developers can add the following location-based functions to apps with Geotrigger Service:

    • Notify citizens about road closures, emergencies, or public safety warnings based on their past or current location.
    • Inform tourists about interesting places as they explore your city, theme park, and so forth.
    • Engage customers with personalized content or deals the moment they enter a store­or a set amount of time later.
    • Optimize customer service by notifying employees when a customer who just ordered something arrives at your store.

    Esri’s Geotrigger Service is the new and improved version of Geoloqi’s original technology. Esri acquired Geoloqi in 2012, and its team formed Esri’s R&D Center in Portland, Oregon. Since joining the company, the team has improved existing core location technology and added to the Esri suite of tools for developers on the newly launched developers.arcgis.com.

    Current Geoloqi customers are encouraged to migrate to Esri’s Geotrigger Service to take advantage of the easier-to-use SDKs, improved tools, overall increased performance, and lower pricing. The original service will retire 18 months after the launch of Geotrigger Service. Migration tools will be provided to existing Geoloqi customers.

    “Geotrigger Service opens up a whole world of use cases, from stores wanting to engage customers to cities wanting to release an app to send civic alerts, local event information, or tourism info,” said Amber Case, director of Esri’s R&D Center in Portland. “Create an invisible button on a map, and when your phone gets within that button ­that invisible region ­something will happen. Your phone could even turn the lights on in your home as you pull into the driveway, and turn them off when you leave. When you combine Geotrigger Service with the other capabilities of the Esri developer platform, such as geocoding, data visualization, and demographics, developers can create powerful solutions.”

    For more information on the Geotrigger service, visit developers.arcgis.com/features/geotrigger-service or visit esri.com/events/developers/main for additional information on Esri’s comprehensive program for developers.

  • Trimble Launches New Airborne LiDAR Systems

    Trimble's AX60i aerial imaging system.
    Trimble’s AX60i aerial imaging system.

    Trimble is adding to its airborne LiDAR portfolio with the Trimble AX60i and AX80. Both are highly capable, versatile systems that meet the demands of aerial survey operators for corridor and wide area mapping projects, Trimble said.

    The new airborne systems, together with flight planning and analysis software tools, have been designed to provide rapid and efficient point cloud capture as well as high-resolution images and proven workflows with high productivity. The systems can be installed on either fixed wing or rotary aircraft.

    Designed for low-altitude corridor mapping applications, the Trimble AX60i is an entry-level LiDAR system built on the same versatile platform as the high-altitude AX60 system, Trimble said. The platform allows AX60i users to upgrade to an AX60 in the future. The AX60i can be operated up to 5,000 feet above ground level (AGL) while offering a 400-kHz laser pulse repetition rate (PRR) with a single-channel, downward-looking laser.

    The Trimble AX80 is a dual-channel LiDAR system that can be operated up to 15,500 feet AGL and is designed for the most demanding survey applications from high-altitude wide area mapping to detailed low-altitude corridor mapping. The AX80 offers an 800-kHz PRR with revolutionary forward- and backward-looking capability to enhance point density on the ground and improve image resolution. This two-dimensional oblique view offers unparalleled scanning of vertical facades of structures.

    Trimble's AX80 aerial imaging system.
    Trimble’s AX80 aerial imaging system.

    An optional, fully-calibrated 80-Megapixel camera with forward motion compensation can be added to the AX60i and AX80 systems. The camera is integrated into the sensor head package and harmonized with the laser sub-system so that it does not need re-calibration each time the system is fitted to an aircraft.

    These systems are optimized for precision applications, providing a uniform distribution of laser points across the entire field-of-view to widen the usable swath width. Operators can reduce track overlap or duplication, or fly at higher altitudes to achieve a given resolution. Together with a high-precision positioning system, integral power supplies and an in-flight monitoring tool, the Trimble AX60i and AX80 can allow operators to lower the complexity of airborne LIDAR surveys while increasing the quality of the output.

    “The Trimble AX60i and AX80 systems extend our portfolio of aerial imaging solutions to meet a variety of mapping applications,” said Phil Sawarynski, business area director of Imaging Solutions for Trimble’s Geospatial Division. “They have been designed as true end-to-end solutions and are delivered with Trimble flight planning software and Trimble Inpho analysis software. Because everything is supplied by Trimble, operators can have confidence that the complete solution works together properly, and that the flight planning and post-mission analysis suites will enable them to provide a high-quality service to their customers.”

  • USGS Releases First-Ever National Map of Wind Turbines

    Wind generates electricity by turning the blades of turbines. Individual turbines can range in height from several dozen to several hundred meters tall, with blade lengths measuring several dozen meters. Image credit: USGS
    Wind generates electricity by turning the blades of turbines. Individual turbines can range in height from several dozen to several hundred meters tall, with blade lengths measuring several dozen meters. Image credit: USGS

    Wind energy is one of the fastest-growing sectors of renewable energy in the United States.  About 3% of the total electricity in the United States was generated by wind turbines in 2012 (according to the U.S. Energy Information Administration), which is equivalent to the annual electricity use for about 12 million households. The amount of electricity generated by wind has increased from about 6 billion kilowatt hours (kwh) in 2000 to 140 billion kwh in 2012.

    In response to the Department of Interior’s Powering Our Future initiative, the U.S. Geological Survey (USGS) has begun investigating how to assess the impacts of wind energy development on wildlife at a national scale.

    Assessment Experience

    The USGS has extensive experience assessing energy resources, and it’s that expertise that makes the USGS qualified to assess nationwide impacts of wind energy development. One of the major reasons behind the success of USGS energy resource assessments is the scientifically robust methodology that underpins them.

    USGS energy resource assessment methodologies are publicly available and are technically peer reviewed externally, and just as importantly, are used consistently in every assessment. That means that a USGS oil and gas assessment in Alaska provides comparable information to a USGS oil and gas assessment in Texas, or that a USGS geothermal assessment in California is comparable to a USGS geothermal assessment in Nevada.

    A Different Kind of Assessment

    USGS has recently undertaken a project to develop a methodology for assessing wind energy impacts on wildlife at a national scale. This research is different from previous USGS energy assessments. Instead of looking at technically recoverable resources of oil, gas, geothermal or coal, or even technically accessible storage areas for carbon sequestration, the USGS is developing a method for determining the impacts of a type of energy production. This work will merge the experience the USGS has creating assessment methodologies with its expertise in wildlife ecology and wind-wildlife research, as well as in land change science.

    Wind turbines are often grouped together in facilities to maximize electricity-generating capacity. This image shows a wind farm on BLM land in California. Image credit: BLM
    Wind turbines are often grouped together in facilities to maximize electricity-generating capacity. This image shows a wind farm on BLM land in California. Image credit: BLM

    Wind energy can impact both wildlife and their habitats. Wildlife impacts include potential bird and bat mortality from collisions with turbine blades, and in some cases, species avoidance of habitat near turbines. Habitat impacts include the turbine pads in addition to service roads, transmission lines, substations, meteorological towers, and other structures associated with wind energy siting, generation, and transmission.

    Turbine Locations

    The first step in understanding the impact of wind energy development is to determine where the wind turbines are located. Prior to this study, there was no publicly available national-level data set of wind turbines. There were maps that showed turbines locations in a few states, and there were national-level maps that showed wind power facilities, but not individual turbines, or information about  those turbines, such as height, blade length, or energy producing capacity.

    A screenshot of the USGS WindFarm Mapping Application, which allows users to access the more than 47,000 individual wind turbines contained within the national wind turbine database. This view shows facilities in Southern California, color-coded for their wind-generating capacity. The red and yellow turbines have a higher electricity-generating capacity than the green and blue turbines do.
    A screenshot of the USGS WindFarm Mapping Application, which allows users to access the more than 47,000 individual wind turbines contained within the national wind turbine database. This view shows facilities in Southern California, color-coded for their wind-generating capacity. The red and yellow turbines have a higher electricity-generating capacity than the green and blue turbines do.

    To remedy the lack of information, the USGS created this publicly available national dataset and interactive mapping application of wind turbines. This dataset is built with publicly available data, as well as searching for and identifying individual wind turbines using satellite imagery. The locations of all wind turbines, including the publicly available datasets, were visually verified with high-resolution remote imagery to within plus or minus 10 meters.

    Knowing the location of individual turbines, as well as information such as the make, model, height, area of the turbine blades, and capacity creates new opportunities for research, and important information for land and resource management. For example, turbine-level data will improve scientists’ ability to study wildlife collisions, the wakes causes by wind turbines, the interaction between wind turbines and ground based radar, and how wind energy facilities overlap with migratory flyways.

    Next Steps

    In addition to the value this powerful tool has to Federal and State land managers, non-governmental organizations, the energy industry, scientists, and the public, it will be a useful component in the methodology that the USGS is developing for assessing wind energy impacts. The USGS is bringing together scientists with expertise in landscape-level science, wildlife biology, and other associated disciplines to create the methodology. Once developed, the methodology will be externally peer-reviewed and tested with pilot-level data projects. Once peer reviewed, the revised methodology will be published for others to understand and use.

  • FAA Cracks Down on Beer Delivery Drone

    The Federal Aviation Administration has ruled that a beer delivery drone service of Lakemaid Beer to ice fishermen cannot go forward. Lakemaid, brewed in Stevens Point, Wisconsin, had hoped to use drones to deliver its beer from bait shops to anglers in ice shacks. But the government says the brewer’s next test — which Lakemaid managing partner Jack Supple says was tentatively set for Minnesota’s Lake Mille Lacs and the Twin Pines resort — cannot proceed.

    “We were a little surprised at the FAA interest in this since we thought we were operating under the 400-foot limit,” Supple told NPR via email. He adds that the beer-makers “figured a vast frozen lake was a lot safer place than [what] Amazon was showing on 60 Minutes.”

    FAA rules don’t currently allow drones to be used for commercial delivery. The agency has scheduled reviews of its rules on drones.

    The FAA told Lakemaid that its plan broke at least four regulations, ranging from the operator’s rating to the use of airspace. The FAA told Lakemaid that it “recognizes that people and companies other than modelers might be flying UAS with the mistaken understanding” that their actions are legal. But the rules and guidelines used in such cases apply only to people flying model airplanes, the FAA added.

  • LizardTech Launches Express Server 9 Image-Delivery Software

    LizardTech, a provider of software solutions for managing and distributing geospatial content, has launched Express Server 9 software. Express Server is am image-delivery software for compressed raster imagery, including multispectral imagery. It uses patented technology to reduce storage costs, decrease image loading times and handle thousands of image requests without sacrificing visual quality, LizardTech said.

    The latest version of Express Server comes equipped with the ExpressZip web application for exporting imagery straight from the web browser. Now, users can view all of their collections and query by location, by keyword, by projection, and more. If users need to take their imagery on the go, they can use the built-in selection tools to export their regions of interest. The entire ExpressZip application is open source and completely customizable.

    “Express Server is the fastest, most stable, and easiest way to distribute compressed, high-resolution raster imagery via standard protocols,” said Jon Skiffington, director of product management. “And now with ExpressZip, our customers will be able to access all of their collections in one place and export imagery straight from the web browser.”

    In addition, the improved upgrade functionality automates the process of migrating all image catalogs so users don’t need to manually update thousands of catalogs when installing a new version of Express Server. There’s no need to recreate existing image catalogs; instead, administrators just point Express Server to the existing catalog database and click Upgrade.

    Both the ExpressZip application and the improved upgrade process mark a continuation in LizardTech’s commitment to creating accessible and easy-to-use software. Other easy-to-use features from recent releases include the Express Server Manager, a simple web interface for configuring and managing Express Server, and the free 30-day Express Server trial.

  • Telenav Acquires skobbler to Tap into the ‘Wikipedia of Maps’

    skobbler_logoTelenav, Inc., announced today that it has acquired skobbler GmbH, the European-based navigation company with the highest rated OpenStreetMap (OSM)-based GPS navigation apps in the world. With this acquisition, Telenav brings the most successful OSM navigation experts in the world together as one team — including the founder of OSM, Steve Coast, who joined Telenav in 2013 — and becomes a major contributor to the creation of the open-sourced and most comprehensive map of the world, according to the announcement.

    The acquisition closed on January 29 for consideration of approximately $19.2 million in cash and $4.6 million of company common stock.

    “Crowdsourced OSM can power personalized navigation services like Scout — with highly detailed maps on a global scale,” said HP Jin, Telenav’s chairman and CEO. “We plan to offer Scout with OSM for much of the world. We have already made significant headway toward this goal in the U.S., including using OSM for our HTML5 version of Scout.”

    OSM is the only crowdsourced and open-sourced map of the globe and, for many developers, it has become a clear alternative to Google Maps.

    “Waze and Google — or, just Google now — provide similar mechanisms to improve their maps, based mostly on OSM’s innovations. With one big catch. It is very much their map. Not yours,” said Coast in his blog commentary today regarding the acquisition. “OpenStreetMap is different. All of the quality data contributed is openly available — just like Wikipedia. So, anyone can download, experiment and play with it freely. It’s not locked up beyond your reach.”

    Since Coast founded OSM, the community has doubled year over year to more than 1.5 million registered editors, becoming a global community of local editors in every corner of the world. Its crowdsourced model publishes edits every minute on openstreetmap.org, resulting in maps that are detailed and up to date. For example, newly laid streets and newly developed areas can be updated on a regular basis and in real time. In addition, OSM allows for greater map detail for pedestrians such as alleys, sidewalks, parks, hiking trails, zoos, and even city trees.

    Telenav has been an active contributor to OSM for more than three years, working closely with the community to enhance specific features needed for navigation, traffic and other future location-based services.

    With offices in Germany and Romania, skobbler was the first company to launch a commercial navigation app using OSM (in 2010) for both Android and iOS devices and is available in app stores in 49 regions with worldwide map coverage. In order to do this, skobbler developed sophisticated algorithms that evolved OSM data from a display map to a navigable map.

    skobbler’s apps are top ranked and highly rated in multiple countries including Germany, the Netherlands, and Sweden. skobbler’s CEO, Peter Scheufen, previously served as the CEO of Navigon, which became a leading GPS device manufacturer in Europe and was eventually purchased by Garmin. The other skobbler founders also held senior roles at Navigon before founding skobbler. Telenav expects that all skobbler employees will join Telenav as part of its OSM team, bringing significant industry-leading software expertise in location-based services, navigation and mapping.

    “By joining our efforts with skobbler, we will build on our combined successes to bring the best mapping and navigation services to our customers around the world,” said Jin. “The benefits of an open source model will provide an enormous opportunity to change the economic models of navigation and other location-based services.”

    “OSM is currently one of the most active and dynamic crowdsourcing communities and is growing at an explosive rate,” said Scheufen. “Our team lives and breathes OSM and so we are excited to join forces with Telenav to create the largest, most sophisticated, and smartest OSM navigation team in the world.”

    In connection with the acquisition and in accordance with NASDAQ Marketplace Rule 5635(c), Telenav granted four employees of skobbler and its subsidiaries, upon the closing of the acquisition, restricted stock units for an aggregate of 634,920 shares of common stock.

    These RSUs were granted outside of the existing Telenav stock plans and without stockholder approval pursuant to NASDAQ Marketplace Rule 5635(c)(4) with the following terms: each RSU vests as to 50% of the award on the anniversary of Acquisition and as to 50% of the award on the second anniversary of the Acquisition, subject to continued employment through each relevant date.

  • GeoSpatial Experts Launches GeoJot+ for Windows Mobile

    GeoSpatial Experts’ GeoJot+ field data collection system now runs on Windows Mobile devices.  According to GeoSpatial Experts, companies can seamlessly transfer GeoJot’s app component across Apple, Android, and now Windows Mobile 6.x devices such as Trimble and Juniper handheld GPS units.

    GeoJot+ enables users to capture geotagged photos on mobile devices along with descriptive attribute information for each photo. The data is then automatically uploaded to the cloud and processed back in the office.

    Using GeoJot+, organizations create reports and ArcGIS or Google Earth maps for managers and clients.  GeoJot+ data is fed into a company’s backend database for further analysis and archiving. The system provides functionality from field data collection to final reports.

    One subscription can now cover all Android, Apple, and Windows Mobile devices. Licenses can easily be transferred across operating systems using the GeoJot Administrator’s Dashboard, as they are not tied to specific devices.

    “While smartphones and tablets are opening GIS mobile data collection to a larger audience, there are still many circumstances where people need higher GPS accuracy,” said John Clark, GeoSpatial Experts’ Director of Business Development. “With an intuitive interface and minimal training requirements, GeoJot+ now makes high-end GPS equipment more accessible to people outside of the GIS department.”

    GeoJot+ meets a need for any organization requiring field asset inventory, proof of performance, compliance documentation, site assessments, situational awareness, or damage assessment. GeoJot+ captures location, condition and other data about real world conditions at a specific place and time.
    This information helps companies solve business problems, gain competitive advantage, speed cash flow, and reduce expenses.