Tag: GIS software

  • Boundless introduces open GIS enterprise platform

    desktop-boundlessBoundless has introduced an open GIS “ecosystem” to unlock the business intelligence of location-based data.

    In response to market demand for more open and scalable GIS solutions, the company extended its proven GIS platform with Boundless Connect, a subscription service to the most comprehensive repository of GIS data, and Boundless Desktop, a full-featured, professional desktop GIS, bringing a powerful ecosystem of geospatial knowledge, tools and resources to the enterprise.

    “With the launch of Boundless Connect and Boundless Desktop, we have taken a major step forward in delivering the most complete, commercially supported open GIS platform,” said Andy Dearing, CEO of Boundless. “As the need for an alternative to costly, closed GIS systems grows, Boundless is proud to partner with the open source community to provide new tools and open solutions that foster growth of the largest repository of the world’s geospatial knowledge and resources.”

    Boundless offers an open GIS ecosystem through a combination of technology, products and experts that gives enterprises deeper intelligence and insights using location-based data. The Boundless platform is built upon open source technology and open APIs that generate actionable location intelligence across third-party apps, content services and plugins for enterprise applications.

    Eighty percent of today’s data includes a location component. Unlike proprietary, licensed solutions that are prohibitively expensive for the growing volume of geospatial data, Boundless wants to make the world of geospatial data available to any user. Boundless is open by design, immediately scalable and license-free, making it easy for developers, GIS and business analysts to access location-based data in a cloud-based GIS platform.

    Key features and benefits of the Boundless open GIS platform include:

    • The most comprehensive product line of commercially supported open GIS products including Desktop, Suite and Exchange.
    • Boundless Connect delivers an ecosystem of geospatial tools, content and services to the open source community.
    • Boundless combines 14 years of open source expertise with GIS resources including consulting, training and support.

    Boundless is operational in government and commercial environments, with customers including National Oceanic and Atmospheric Administration (NOAA), Port of Seattle, Louisiana Department of Health and Hospitals and TriMet, among others.

     

  • OGC seeks public comment on Indexed 3D Scene Layers

    The Open Geospatial Consortium (OGC) is considering start of a new work item for a Community Standard: Indexed 3D Scene Layers (I3S), and is seeking public comment on the work item proposal.

    The I3S delivery format is used to stream 3D geospatial content to mobile, web and desktop clients.

    I3S, initially designed by Esri, was publicly released in April 2015 as an open specification for streaming large, heterogeneous 3D geospatial data sets, including discrete 3D objects, large continuous meshes, 3D vector points, point clouds, and other content. I3S is designed from the ground up to be cloud, web and mobile friendly.

    The I3S conceptual model is implemented using JSON. There is also an I3S Scene Service REST API specification for accessing I3S resources as endpoints. I3S is designed to stream very large 3D datasets and is designed for performance and scalability.

    A document has been prepared that provides a justification to the OGC Technical Committee (TC) for consideration of I3S as a Community standard. This justification, along with the submitted candidate Community standard, will form the basis for TC review and vote to approve the start of the Community standard process.

    Comments should be submitted to [email protected] by December 16.

  • SketchUp Viewer for Microsoft HoloLens enables users to inhabit designs

    Trimble has launched its SketchUp Viewer for Microsoft HoloLens. The new mixed-reality solution allows users to virtually inhabit and experience their designs to improve quality, communication and efficiency in the design, construction and operation of buildings. SketchUp Viewer is the first extensible commercial HoloLens application available in the Windows Store.

    SketchUp a widely used 3D modeling software for architects, engineers, design and construction professionals as well as members of the global maker community.

    trimble-sketchup-viewer-for-hololens-2-w2The announcement was made at Trimble Dimensions. During the Trimble Dimensions keynote, Trimble, Microsoft and architect Greg Lynn demonstrated how the SketchUp Viewer solution could improve design and construction processes. Using HoloLens, architects were able to experience SketchUp models in mixed reality, as holograms placed in the real world — enabling them to quickly analyze various “what if” design scenarios in the context of the physical environment. The demonstration also illustrated how using Trimble solutions with HoloLens holographic technology enables remote teams to effectively review and collaborate in order to resolve constructability issues in real time.

    Greg Lynn leveraged Trimble’s mixed-reality solution and Microsoft HoloLens to re-imagine the Packard Plant—a historic, abandoned automobile factory in Detroit. The architectural project was commissioned as part of the U.S. Pavilion at the 2016 Venice Biennale exhibition in Italy.

    “Trimble mixed-reality technology and Microsoft HoloLens bring the design to life and bridge the gap between the digital and physical. Using this technology I can make decisions at the moment of inception, shorten the design cycle and improve communication with my clients,” said Greg Lynn.

    trimble-sketchup-viewer-greg-lynn-buildings-oThe emergence of mixed-reality technology is enabling new workflow processes for the Architecture, Engineering, Construction and Operations (AECO) market. Trimble’s mixed-reality solution gives users the ability to understand and communicate complex spatial conditions in one comprehensive and immersive experience. The combination of SketchUp with mixed reality ushers in a new paradigm: Experiential Design Review—the ability to inhabit and experience design and construction projects in the most natural way possible.

    “Empowering people to design and communicate better in 3D is part of our DNA. Across the SketchUp platform, we are dedicated to the idea that technology should get out of the way of our users,” said Chris Keating, general manager of Trimble’s SketchUp. “With SketchUp Viewer, we are taking another big step toward delivering the ultimate experience for designers and their clients—the experience of inhabiting their own work.”

    Microsoft HoloLens is a self-contained, holographic computer that provides a mixed-reality experience for a range of commercial and consumer applications. HoloLens extends interaction with 3D models beyond the confines of a 2D computer screen, creating new ways for the many stakeholders of complex, multi-phase construction projects to visualize, collaborate, share ideas and manage change.

    “We are thrilled to work with Trimble to deliver new innovation to SketchUp, one of the most widely used applications in the architecture, engineering, construction and operations industry,” said Lorraine Bardeen, general manager of Microsoft HoloLens and Windows Experiences. “SketchUp Viewer for Microsoft HoloLens can dramatically improve collaboration, decision making, efficiency, quality, and safety by giving users the unique ability to bring digital content into the real world, real-time as part of their current workflow.”

    With SketchUp Viewer, users can view models that have been published to their HoloLens device via the newly launched AR|VR Extension for SketchUp Desktop; they can browse and download models from Trimble’s 3D Warehouse or they can pull project files down from Trimble Connect, a cloud-based collaboration platform. Users then have the option to place a model within their physical environment.

    In Tabletop mode, models can be scaled as needed to best fit the available space or specific design review requirements. While the experience is intended to mimic viewing a physical scale model, it maintains the flexibility and the dynamic nature of a digital model. Users can re-scale, move and rotate the model as desired. Models can be anchored and re-anchored in the physical environment, so designers and engineers can walk around the project and examine it from any vantage point.

    Users can transition seamlessly to an immersive experience. Mixed reality enables unique opportunities to overlay physical models in real world environments; and as a completely untethered device, HoloLens allows users to move freely as they inhabit their digital surrounds.

    In both Tabletop and Immersive mode, SketchUp Viewer allows users to do more than just look at the model. The application provides access to the most critical pieces of information for making vital project decisions and gaining consensus among project stakeholders. The Entity Info feature gives users access to important Building Information Modeling (BIM) data embedded within project components; and with the Tape Measure functionality, users can pull up dimensional information from the model. Users can also control the visibility of various aspects of the model by toggling layers on and off.

    Real-time, remote and co-located collaboration are key elements to the experiential design review process in SketchUp Viewer. With multiple HoloLens devices, a group of users can load the same model, engaging a “see what I see” collaboration mode. Remote collaborators can communicate via real-time audio and use mixed-reality visualization “sight-guides” to better understand who in the group is looking at what.

     

  • Trimble to acquire Building Data company for BIM, construction

    Trimble has entered into a definitive agreement to acquire privately held Building Data based in Rocklin, California. Building Data’s managed content and software solutions enable mechanical, electrical and plumbing (MEP) contractors and engineers to produce intelligent, constructible models by including manufacturing-specific content from a proprietary database of more than 6 million 3D data components.

    The combination of Building Data’s experience in Building Information Modeling (BIM) content paired with Trimble’s leadership in providing software and hardware solutions for building construction will empower contractors and engineers to gain efficiencies throughout the building lifecycle. The transaction is expected to close in the fourth quarter of 2016.

    The announcement was made at Trimble Dimensions.

    MEP contractors face an enormous challenge to develop and maintain the data needed to design, estimate, build and manage projects. Trimble’s pricing and content services, combined with Building Data’s 3D solutions, will fill the need for timely, accurate and structured information to drive the key processes of design and construction. Building Data’s managed content and its SysQue software extend the capabilities of existing 3D CAD platforms to enable MEP contractors and engineers to increase productivity by developing constructible models that enable accurate pre-fabrication and field layout.

    “With the addition of Building Data, Trimble continues to reinforce its commitment to providing data and analytics solutions to the construction industry. Building Data’s strength lies in its ability to provide structured and highly accurate 3D content that will be connected to Trimble’s existing product and pricing services,” said Pat Bohle, general manager of Trimble’s MEP Division. “This wealth of content will enable MEP contractors and engineers to use their models to improve estimating, detailing, fabrication, purchasing, manufacturing and installation processes.”

    “Building Data’s solutions are dedicated to improving the productivity of the building contractor and engineer,” said Jim Reis, chief operating officer of Building Data. “We are already integrated with several of Trimble’s industry-leading software solutions including their fabrication software, field layout solutions and pricing services. We are excited to provide an even greater integrated office workflow for the building contractor and engineer by joining with Trimble.”

    The Building Data business will be reported as part of the Engineering and Construction Segment. Financial terms were not disclosed.

  • Incident software honored with Intergeo award

    Hotspot Map: Hotspots indicate some form of clustering in a spatial distribution. In this Incident Analyzer screenshot, the map layers are toggled on, showing how the hotspot layer provides insight into distribution and frequency of incidents.
    Hotspot Map: Hotspots indicate some form of clustering in a spatial distribution. In this Incident Analyzer screenshot, the map layers are toggled on, showing how the hotspot layer provides insight into distribution and frequency of incidents.

    The Incident Analyzer Smart M.App, by Hexagon, won the Wichmann Innovations Award 2016 for Best Software on Oct. 13 at Intergeo in Hamburg, Germany.

    The Smart M.App helps a variety of industries visualize trends and identify correlations in mapping incident data.

    Incident Analyzer provides an intuitive, user-friendly environment for consuming incident data in a dynamic information experience, according to Hexagon.

    With Incident Analyzer and a few mouse clicks, almost anyone can create, manage, disseminate, share, and host a wide array of dynamic intelligence reports that depict meaningful spatial patterns within incident data sets in an interactive fashion, Hexagon said.

    The app is useful for professionals in law enforcement, utilities, transportation, government, health and commercial enterprises.

  • 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.

  • LizardTech’s latest GeoExpress includes Geiger-Mode support

    lizardtech_gx953_sthelens_rgb-o

    LizardTech, the creator of MrSID and provider of software solutions for managing and distributing geospatial content, has released GeoExpress 9.5.3. The company’s flagship image asset handling product to compress, manage, distribute, integrate and deploy geospatial images and lidar point clouds as high-quality MrSID files now has expanded format support and improved capabilities.

    What’s new:

    • BPF Support – GeoExpress now supports Binary Point Files often used in Geiger-Mode lidar data.
    • NAD83(2011) Support – Reprojection tools now support EPSG CRS and Coordinate Transformations in support of NOAA’s NA2011 Project.
    • Better Color Balancing – Now apply correction to each band in the image.
    • Custom Watermarks – No longer be restricted by a size limitation for custom watermark files.
    • Simpler Licensing – Import a license file for single workstation licensing or add License Server Utility to add floating licenses with ease.

    A fully functional free 30-day trial of GeoExpress 9.5.3 is available.

     

  • US DOT releases National Transit Map database

    natl-transit-map-o

    The U.S. Department of Transportation’s Bureau of Transportation Statistics (BTS) has released National Transit Map data, a geospatial database containing the information from 270 transit agencies that provides open, machine-readable data about their stops, routes and schedules.

    The national, openly available map of fixed-guideway and fixed-route transit service in America will allow the U.S. Department of Transportation (DOT) to demonstrate the importance and role of transit in American society and to identify and address gaps in access to public transportation.

    It will also support research, planning and analysis on the benefits of transit, such as the economic impacts of transit on a community’s economic development, or on reducing poverty in low-income neighborhoods.

    Figure 1. National Transit Map — 198 Participating Agencies.
    Figure 1. National Transit Map — 198 Participating Agencies.

    The national Transit Map can be used to support DOT’s Ladders of Opportunity initiative to promote the use of existing transportation networks to connect residents to jobs, education, health, government and other essential services.

    The initial National Transit Map consists of General Transit Feed Specification (GTFS) data feeds registered with BTS in response to a March 2016 request for the data from U.S. Transportation Secretary Anthony Foxx. Data from 270 transit agencies provided information on more than 398,000 stops and stations and almost 10,000 routes.

    This first version of the National Transit Map contains data for 84 percent of the top 25 urban transit agencies with fixed route service, 74 percent of the top 50 agencies, and approximately one-third of all urban transit agencies with fixed route service.

    DOT is working to bring additional transit agencies on board for the second version of the map, scheduled to be released in late 2016. See Figure 1 for the locations of the transit agencies that are participating.

    Figure 2. New York City Stops, Routes and Schedules on National Transit Map.
    Figure 2. New York City Stops, Routes and Schedules on National Transit Map.

    BTS has worked jointly with the Federal Transit Administration (FTA) and the DOT Office of the Chief Information Officer to develop and release the inaugural map.

    The National Transit Map includes the National Transit Layer — national data feeds that provide open, machine readable spatial and tabular data about the nation’s transit systems stops, routes and schedules. It also has a National Participation Map that shows which agencies have volunteered to take part in the National Transit Map. In addition, Interactive Mapping Apps that provide tools such as calculators for distances from transit stops, trip frequency and time of day coverage will be released shortly.

    Figure 2 shows a sample of the New York City routes and stops data contained in the National Transit Layer. It highlights schedule and stop information for a specific bus trip that is available from the data.

    The National Transit Map will be a National Geospatial Data Asset (NGDA) within the National Transportation Atlas Database (link is external) (NTAD), a set of nationwide geographic databases of transportation facilities, networks and associated infrastructure. It will be a substantial update to the previous transit-focused map, which was released in 2004 and only included the location of fixed-guideway transit such as rail systems. The new map includes fixed route systems such as bus.

  • gvSIG 2.3 called ‘qualitative leap’ for functionality

    gvSIG 2.3, the new gvSIG version, is now available to download.

    According to the gvSIG association, this version has been a qualitative leap — on a functional level as well as an architecture one — because of all the improvements and features.

    Downloads are available from the project website, and there are two distribitions: installable and portable.

    Features of this version include distributions for Mac and Windows 64-bit; PRJ file support for projections; access to Google Maps, Bing Maps or Street View; and lidar data support.

    If users have questions or experience any errors, they can be sent to the user mailing list. Feedback is important to continue improving gvSIG, the association said.

  • Orbit GT launches QGIS plug-in for mobile mapping

    Orbit GeoSpatial Technologies has launched its Mobile Mapping plug-in for QGIS.

    “Every QGIS user now has access to the vast volumes of mobile mapping data,” said Peter Bonne, CEO of Orbit GT. By connecting to Publisher, the QGIS user has access to spherical imagery and point-cloud data of unlimited volume and size onto their desktop.

    With the Orbit GT plugin for QGIS, the use of native Mobile Mapping content becomes easy, the company said. Any challenge of volume and performance is tackled by the Orbit Publisher. Users can measure, copy any measurement into QGIS, and overlay QGIS features on the Mobile Mapping imagery.

  • Free Landsat Viewer brings Earth into focus

    A free web tool has been launched for browsing satellite imagery from Landsat 8 — the Landsat Viewer. The tool was created by the start-up company Eos Data Analytics.

    EOS Data Analytics is an automatic cloud-based GIS analysis service. It uses a combination of satellite imagery, geospatial data, customer workflow information and consumer behavior principles to create deep, comprehensive GIS analysis.

    The Landsat Viewer is based on a huge open data archive, Landsat on AWS. It can generate common indices on-the-fly, and users are able to download the selected bands.

    Here are a few sample images using the new viewer:

    The North Sea water surface looks like a deep universe with a myriad of stars (pan sharpen RGB):

    NorthSea-galaxy-LandsatViewer

    “Pacmans” in Saudi Arabia.

    Pacman-Saudi-LandsatViewer

    Every time a user chooses the scene, zooms in/out or changes the bands, the image in the browser is generated on the fly from the raw data stored in the cloud. In the same way, it is delivered to the browsers on tablets and smartphones.

    Learn more on the company’s blog.

  • Mapping the Arctic promotes international agreement

    The Arctic SDI Board, — which includes mapping executives from Canada, Kingdom of Denmark, Finland, Iceland, Norway, Russia, Sweden and the U.S. — met June 14-16 in Anchorage, Alaska, to further develop a robust Arctic Spatial Data Infrastructure.

    The Arctic SDI is a cooperation based on a Memorandum of Understanding signed by the eight National Mapping Agencies and is intended to ensure Arctic geospatial data is easier for users to access, validate and combine.

    Erosion and climate change along Alaska's Arctic Coast. (Photo: USGS)
    Erosion and climate change along Alaska’s Arctic Coast. (Photo: USGS)

    A spatial data infrastructure (SDI) provides tools for data distributors to ensure geospatial data is easier for users to access, validate and combine with other data. Important data sets are produced and distributed by many stakeholders — in the public and private sector — and most of it can be geographically referenced.

    “It’s important that scientists, resource managers, decision-makers and citizens can discover, access and use trusted data to conduct research, make informed decisions, and respond to emergencies in a changing Arctic,” said Kevin Gallagher, the USGS associate director for core science systems and current Arctic SDI Board chair. “The Arctic SDI initiative brings together geospatial experts and scientists in a voluntary cooperation between these country’s national mapping agencies in direct support of the priorities of the Arctic Council and other important stakeholders.”

    The Arctic SDI cooperation has built a foundation on which important strategic work is being conducted by lead countries through several working groups in alignment with the five-year Arctic SDI Strategic Plan 2015-2020 adopted last year.

    Polar bear mother and two cubs on the Beaufort Sea ice. (Photo: USGS)
    Polar bear mother and two cubs on the Beaufort Sea ice. (Photo: USGS)

    The Arctic SDI Geoportal, launched in 2014, includes a continuously updated, harmonized pan-Arctic basemap using data delivered by the individual countries and national mapping agencies. Together they are working to increase the number of national authoritative datasets available through the Geoportal. The basemap, geoportal and access to data are continually being improved.

    Additionally, an Open Geospatial Consortium (OGC) Arctic Spatial Data Pilot, sponsored by Natural Resources Canada and the USGS is underway to test interoperability of standards, increase the inventory of available Arctic data, and advance the understanding of best practices for distribution and sharing of data by showcasing the value of a standards based, data rich environment.

    In 2009, the Arctic Council Senior Arctic Officials gave unanimous formal support to the Arctic SDI initiative and while the Arctic Council represents its primary stakeholder group, the Arctic SDI is aligned with the global, regional and national geodata context, including:

    • The United Nations Committee of Experts on Global Geospatial Information Management (UN-GGIM),
    • The Global Earth Observation System of Systems (GEOSS),
    • The European Commission’s Infrastructure for Spatial Information in the European Community (INSPIRE)
    • The U.S Federal Geographic Data Committee National Spatial Data Infrastructure (NSDI),
      and Canada’s Spatial Data Infrastructure (CGDI).

    Additionally, the work adheres to Open Data principles, including facilitation of open and interoperable data based on OGC and ISO standards, specifications, architecture and software.

    Arctic SDI Working Groups are continuing communication and outreach with stakeholders, especially the Arctic Council Working Groups, to advance understanding of data sharing and management techniques, and best practices to improve data access and availability. This work also includes development of communication materials, user guides and a manual.

    Additionally, elevation experts from the national mapping agencies have been cooperating with the National Science Foundation and Polar Geospatial Center to provide data and expert reviews in support of a high quality Pan-Arctic Digital Elevation Model being developed in support of a U.S. Chairmanship Arctic Council Initiative.