Author: Tracy Cozzens

  • USGS Offers New Series of California Offshore Maps

    Map of sediment thickness in state waters offshore of San Francisco. About 21,000 years ago, sea level in this area was about 125 m lower and the shelf offshore San Francisco was an emergent land surface. At that time, the Sacramento River drained through the Golden Gate and eroded a valley ("the San Francisco paleovalley”) that was filled with sediment during subsequent sea-level rise. The thickest young sediment in the region occurs in the “San Andreas graben,” a basin that formed by crustal down dropping along the offshore section of the San Andreas fault. There is very little sediment on the shelf offshore of southern Ocean Beach (a pattern that extends south to Pescadero), a factor important for understanding and forecasting coastal erosion in this area.
    Map of sediment thickness in state waters offshore of San Francisco. About 21,000 years ago, sea level in this area was about 125 m lower and the shelf offshore San Francisco was an emergent land surface. At that time, the Sacramento River drained through the Golden Gate and eroded a valley (“the San Francisco paleovalley”) that was filled with sediment during subsequent sea-level rise. The thickest young sediment in the region occurs in the “San Andreas graben,” a basin that formed by crustal down dropping along the offshore section of the San Andreas fault. There is very little sediment on the shelf offshore of southern Ocean Beach (a pattern that extends south to Pescadero), a factor important for understanding and forecasting coastal erosion in this area.

    Three new sets of maps detail the offshore bathymetry, habitats, geology and submarine environment of the seafloor off the coast of San FranciscoDrakes Bay and Tomales Point.

    Critical for resource managers, the maps are part of the California Seafloor and Coastal Mapping Program, a series of maps published by the U.S. Geological Survey with support from the California Ocean Protection Council, NOAA and 15 other state and federal partners. The maps are designed to be used by a large stakeholder community and the public to manage and understand California’s vast and valuable marine resources.

    “OPC is proud to be a partner in this interagency effort,” said California’s Secretary for Natural Resources and OPC Chair John Laird. “These maps are critical to the state’s innovative approach to coastal resource management. USGS’s products form the foundation for assessing the performance of our Marine Protected Area network and preparing for climate change impacts such as sea-level rise.”

    “NOAA is pleased to be partnering in this integrated ocean and coastal mapping project. By working with partners from across federal, state, academic, and private sectors, we are able to combine data resources and maximize our efficiency in applying a ‘map once, use many times’ approach that benefits all,” said Rear Admiral Gerd F. Glang, director NOAA’s office of coast survey.

    The program was initiated seven years ago with the goal of comprehensively surveying and mapping all of California’s state waters. The vision was tremendously ambitious — comparable mapping on this scale has not been attempted anywhere else in the world, the USGS said. Each of the three publications includes 10 map sheets, a pamphlet and a digital data catalog.

    The maps and mapping data have a large range of applications. They provide:

    • a foundation for assessing marine protected areas and habitats;
    • baselines for monitoring coastal change and sea-level-rise impacts;
    • critical input data for modeling and mitigation of coastal flooding;
    • a framework for understanding coastal erosion and developing regional sediment management plans;
    • contributions to earthquake and tsunami hazard assessments;
    • more accurate maps for safer navigation;
    • and essential information for planning, siting, or removing offshore infrastructure.

    The new “Offshore of San Francisco” maps document the complex submarine environments along the inlet to San Francisco Bay formed by strong tidal currents, including spectacular sand waves, a deep scour pool beneath the Golden Gate, and the dynamic offshore San Francisco mouth bar and “Potato Patch” shoal.

    Sediment distribution maps reveal only a thin sediment cover offshore of the Ocean Beach (San Francisco) erosional hotspot (a pattern extending south to San Gregorio), indicating that today’s present coastal erosion will be a continuing problem, likely to be exacerbated by continuing sea-level rise.

    Geologic maps incorporating subsurface data document the location and geometry of the San Andreas, San Gregorio and Point Reyes fault systems, and show how their interactions led to uplift of Point Reyes and development of a deep sediment-filled basin.

    The Drakes Bay and Vicinity, and Offshore of Tomales Point maps reveal the diverse and complex range of seafloor habitats typical of the California coast, ranging from the rugged granitic bedrock along the high-energy west coast of Point Reyes, to smooth sand and mud in the more protected Drakes Bay environment that includes the Point Reyes State Marine Reserve.

    “There is a ‘WOW!’ factor to the new high-resolution datasets and maps,” said Sam Johnson, the USGS project lead. “They’re allowing scientists to pose new questions and are having a significant role in stimulating research.  We’re also seeing a positive impact on public education and awareness.”

    To date, 12 map sets and catalogs have been published. Ten additional map sets are now being formatted for publication, which will complete coverage in the Santa Barbara Channel (Oxnard to Gaviota) and from Marina northward to beyond the Russian River.

    The maps are created through the collection, integration, interpretation, and visualization of swath sonar data, acoustic backscatter, seafloor video, seafloor photography, high-resolution seismic-reflection profiles, and bottom-sediment sampling data.

    The California Seafloor and Coastal Mapping Program is a collaborative effort supported by the USGS, the California Ocean Protection CouncilNOAACalifornia State University at Monterey BayMoss Landing Marine Laboratories, and other academic, government, and industry partners.

    Map of offshore sediment thickness in State Waters between Drakes Bay and Salt Point, north of the Russian River. The thickest sediment in the region occurs offshore of the Russian River, and in a large bar along the south flank of Point Reyes Head. There is a relative lack of offshore sediment between Bodega Head and Point Reyes, where the shelf is characterized by abundant rocky habitat and much of the coastal sediment is trapped in large onshore dune fields.
    Map of offshore sediment thickness in State Waters between Drakes Bay and Salt Point, north of the Russian River. The thickest sediment in the region occurs offshore of the Russian River, and in a large bar along the south flank of Point Reyes Head. There is a relative lack of offshore sediment between Bodega Head and Point Reyes, where the shelf is characterized by abundant rocky habitat and much of the coastal sediment is trapped in large onshore dune fields.
    Perspective view looking to the southeast over entrance to San Francisco Bay. Golden Gate Bridge is to left (east) of this view. The large sand-wave field lies within Golden Gate channel, and formed from sediment transported out of the Bay by strong tidal currents. Profile A–A’ shows that the larger bedforms can reach heights of over 7 m and are asymmetrical with steeper sides towards the open coast. A smaller field of sand waves to south near Baker Beach shows the opposite symmetry (steep sides toward the Bay) indicating that the strongest tidal currents in that local area are directed eastward.
    Perspective view looking to the southeast over entrance to San Francisco Bay. Golden Gate Bridge is to left (east) of this view. The large sand-wave field lies within Golden Gate channel, and formed from sediment transported out of the Bay by strong tidal currents. Profile A–A’ shows that the larger bedforms can reach heights of over 7 m and are asymmetrical with steeper sides towards the open coast. A smaller field of sand waves to south near Baker Beach shows the opposite symmetry (steep sides toward the Bay) indicating that the strongest tidal currents in that local area are directed eastward.
    “Seafloor character” map of the San Francisco Region. This is a type of habitat map that classifies the seafloor based on surface hardness and roughness. Such maps are used in various types of ecosystem assessments and seafloor zoning, such as delineation or monitoring of marine protected areas.
    “Seafloor character” map of the San Francisco Region. This is a type of habitat map that classifies the seafloor based on surface hardness and roughness. Such maps are used in various types of ecosystem assessments and seafloor zoning, such as delineation or monitoring of marine protected areas.
    Bathymetry bounding Tomales Point. Rugged and massive granite outcrops extend offshore from Tomales Point to water depths of as much as 60 meters. Offshore sedimentary rock outcrops (lower left part of image) form distinctive “ribs” on the seafloor and have a notably different appearance. There is minimal sediment on this part of the California shelf because the watersheds draining the west flank of Tomales Point are very small and because Tomales Point and Tomales Bay block sediment transport from the north. Rocky-shelf outcrops and rubble are excellent habitats for rockfish and lingcod, recreationally and commercially important species. Tomales Bay, approximately 20-km long and 1- to 2-km wide, formed along a submerged portion of the San Andreas Fault (very shallow water depths preclude collection of high-resolution bathymetric data at the mouth of Tomales Bay).
    Bathymetry bounding Tomales Point. Rugged and massive granite outcrops extend offshore from Tomales Point to water depths of as much as 60 meters. Offshore sedimentary rock outcrops (lower left part of image) form distinctive “ribs” on the seafloor and have a notably different appearance. There is minimal sediment on this part of the California shelf because the watersheds draining the west flank of Tomales Point are very small and because Tomales Point and Tomales Bay block sediment transport from the north. Rocky-shelf outcrops and rubble are excellent habitats for rockfish and lingcod, recreationally and commercially important species. Tomales Bay, approximately 20-km long and 1- to 2-km wide, formed along a submerged portion of the San Andreas Fault (very shallow water depths preclude collection of high-resolution bathymetric data at the mouth of Tomales Bay).

    Maps: USGS

  • FAA Tells D.C. Visitors ‘Leave Drone at Home’

    FAA_No-DroneAs hundreds of thousands of tourists flock to the Washington, D.C., area for their summer vacations and residents join them on city streets and at public gatherings, the Federal Aviation Administration has a clear message for everyone: Leave Your Drone at Home.

    The FAA has announced a public outreach campaign for the region around Washington, D.C., to reinforce the message that the city itself, and communities within a 15-mile radius of Ronald Reagan Washington National Airport, are a “No Drone Zone.” The effort includes furnishing outreach materials to federal, state and local partners around the National Capital Region. The agency wants to ensure residents and tourists all understand that flying an unmanned aircraft in this area for any purpose is against the law.

    The push follows two incidents when drones entered the no-fly zone around the White House. The most recent was on May 14.

    Rules put in place after the 9/11 attacks establish “national defense airspace” over the D.C. area and limit aircraft operations — including unmanned aircraft — to those with an FAA and Transportation Security Administration authorization. Violators may face stiff fines and criminal penalties.

    The bottom line: Enjoy your visit to the nation’s capital. Bring your family, your cameras and plenty of sunscreen. Just don’t bring your drone.

    For more information, visit the FAA’s No Drone Zone webpage.

  • USGS Holds Stakeholder Workshops for 3D Topo Data

    This map depicts the proposed body of work for 3DEP in Fiscal Year 2015. The BAA awards will add more than 95,000 square miles of 3DEP quality LiDAR data to the national database.
    This map depicts the proposed body of work for 3DEP in Fiscal Year 2015. The BAA awards will add more than 95,000 square miles of 3DEP quality LiDAR data to the national database.

    The U.S. Geological Survey National Geospatial Program is developing the 3D Elevation Program (3DEP) to respond to growing needs for high-quality topographic data and for a wide range of other three-dimensional representations of the nation’s natural and constructed features.

    To expand awareness of 3DEP status and plans, as well as provide an open forum for 3DEP stakeholders to communicate and coordinate potential Broad Agency Announcement (BAA) proposals, the USGS is offering numerous state and regional coordination workshops.

    The meetings will be held throughout the U.S. from now until June 30. The workshops will include in-person and virtual participation options.

    The primary goal of 3DEP is to systematically collect 3D elevation data in the form of light detection and ranging (LiDAR) data over the conterminous United States, Hawaii, and the U.S. territories, with data acquired over an eight-year period. Interferometric synthetic aperture radar (ifsar) data will be acquired for Alaska, where cloud cover and remote locations preclude the use of LiDAR in much of the state.

    The 3DEP initiative is based on the results of the National Enhanced Elevation Assessment that documented more than 600 business uses across 34 federal agencies, all 50 states, selected local government and tribal offices, and private and nonprofit organizations. A fully funded and implemented 3DEP would provide more than $690 million annually in new benefits to government entities, the private sector and citizens.

    3DEP is a “Call for Action” because no one entity can accomplish it independently. 3DEP presents an opportunity for collaboration between all levels of government to leverage the services and expertise of private-sector mapping firms that acquire the data, and to create jobs.

    “When partners work together, they can achieve efficiencies and lower costs so that 3DEP can become a reality,” the USGS said in a press release. “When 3D elevation data are available to everyone, new innovations will occur in forest resource management, alternative energy, agriculture, and other industries for years to come,” the USGS said.

  • Esri Releases ArcGIS 10.3.1 with Smart Mapping, 3D Content Sharing

    Complex-3D-objects
    3D Web Scenes.

    Esri has released ArcGIS 10.3.1, bringing new capabilities.

    Smart Mapping is an innovative approach for creating maps that is available through ArcGIS Online. Users can quickly style the features of a map to create useful and visually stunning maps every time, Esri said.

    3D Web Scenes allow users to view, create, and share 3D web scenes in a browser. Available in ArcGIS for Server and Portal for ArcGIS, users can share these scenes within their own infrastructure or make them public.

    With the ArcGIS 10.3.1 release, ArcGIS for Server with Portal for ArcGIS can now host web scenes and layers that include multipatch–based 3D models and symbology, such as photo-realistic buildings, trees, and visibility domes.

    For more details about what’s new in ArcGIS 10.3.1, visit the ArcGIS blog.

  • Cedar Tree Handhelds Now Under Juniper Systems

    CT4-Handheld-W
    The CT4 and other rugged handhelds by Cedar Tree Technologies will now be available through Juniper Systems.

    Juniper Systems is merging its subsidiary company, Cedar Tree Technologies, into Juniper Systems. The move will allow customers to purchase Cedar’s Android-operated rugged handhelds directly from Juniper Systems.

    Juniper Systems launched Cedar Tree Technologies as a rugged handheld company in August 2014.

    “With a reputation for top-of-the-line, ultra-rugged handheld computers, Juniper Systems aimed to expand its products to meet the needs of customers who may not need the outstanding level of ruggedness or support that Juniper handhelds provide. And that’s how Cedar Tree Technologies began. Cedar handhelds lie somewhere between consumer devices and Juniper Systems’ ultra-rugged handhelds, providing a mesh of both ruggedness and affordability,” said a statement from the company.

    Cedar handhelds run on the Android operating system, offering access to thousands of business-ready apps and Google services via the Google Play Store. This provides users with an off-the-shelf product, eliminating the need to download third-party data collection software. Juniper Systems has published a blog post that outlines the differences between Cedar and Juniper handhelds.

    The Cedar product line that Juniper Systems will now be carrying includes three new handheld devices:

    • CT7 Rugged Tablet. Featuring a large, 7-inch display, the CT7 tablet is IP67 waterproof and dustproof, and is priced at $899 USD.
    • CT4 Rugged Handheld. The CT4 handheld is a more compact device than the CT7. Featuring a 4.3-inch display and an IP68 waterproof and dustproof rating, it is priced at $489.
    • CMP1 Miniphone. The CMP1 Miniphone is rated IP65 (dustproof and resistant to water), and is ideal for swapping out a regular smartphone for outdoor excursions, for kids, or for use as an emergency phone. The CMP1 sells for $124.

    To learn more about Juniper Systems’ new Cedar handhelds, visit the company website.

  • Drone Analyst Offers Guide to Buying UAVs

    Drone Analyst is offering a free report, through organizers of the Commercial UAV Expo, titled “5 Things to Consider When Adopting Drones for Your Business.

    The report explores questions designed to help organizations invest in drones, including choosing the right systems and tackling UAS operations.

    The report author is Colin Snow, founder and CEO of Drone Analyst.

  • Spatial Wave Releases Field Mapplet v8, Mapplet 8.0

    Spatial Wave Inc. has released Field Mapplet Version 8.0 and Mapplet 8.0, which support ArcGIS 10.2 and 10.3.

    Field Mapplet is a mobile solution for managing utility assets. It is designed to optimize utility workflows with features that are easy to use and implement, Spatial Wave said. The latest release includes enhancements in the mobile and console client, additional features to USA and Redline Extensions and Mapplet Manager, and support for Windows Server 2012R2, SQL Server 2014, and HTTPS secure service. A crucial upgrade of FM8.0 is that is supports ArcGIS 10.2 and 10.3.

    With the core Field Mapplet framework, users can upgrade from FM Version 7.1 to 8.0 with minimal effort and downtime. FMv8.0 was built for day-to-day operations such as dispatching, navigation, routing, access to as-builts, engineering drawings, and redlining of location aware data. FMv8.0 is a configurable platform for building mobile applications such as customer requests, work orders and field data collections. FMv8.0 is touch-gesture-enabled and can be used on PCs, laptops and tablets.

    Mapplet 8.0 is an advanced GIS viewer for viewing utility operational data and has unique capabilities to link to external data sources such as related engineering documents or tabular data. Users from an organization can gain access to business-critical data from the entire enterprise, including Customer Service, Field Operations, Engineering and Finance. The latest features include map tips, cluster symbology and heat maps. Mappletv8.0 supports ArcGIS 10.2 and 10.3 to enhance the user experience.

     

  • Lockheed Martin Demonstrates Indago UAS at AUVSI Show

    Lockheed Martin Corporation demonstrates its Indago UAS at Unmanned Systems 2015, held May 4-7 in Atlanta. The Indago payload system features a quick disconnect adapter which allows the operator to choose the appropriate payload for the mission, according to Lockheed Martin. The payloads are available for a variety of different applications, including agricultural, mapping, inspection and ISR.

  • Man Arrested Trying to Fly Drone Outside White House

    Secret Service detained a man Thursday afternoon who was trying to fly an unmanned aerial vehicle over the White House fence, reports CNN.

    The park on the north side of the White House was locked down while the incident was investigated, but the lockdown was lifted by Thursday afternoon.

    President Barack Obama is not in the White House, but at Camp David. 

    This is the second drone incident this year, following an incident where a hobbyist who had been drinking crashed a drone on the White House lawn. A no-fly zone covers most of the D.C. area.

  • CartoPac, EDM Implement Inspection Software for Western Power

    CartoPac International and EDM International have implemented a new transmission line inspection solution based on the CartoPac Software platform for the Western Area Power Administration. Western markets and delivers hydroelectric power within a 15-state region of the central and western U.S.

    Western sought quotes for a commercial-off-the-shelf (COTS) utilities inspection software application that would provide a more efficient, integrated process and technology for improving Western’s transmission line inspection practices/process. Teaming with EDM, CartoPac was awarded the contract to deploy the CartoPac software platform, configure the COTS solution to meet specific needs for Western, and provide training to field personnel for use of the new system. 

    With the COTS solution, Western now has a fully integrated application within their Esri GIS system, leveraging Windows OS field computers for field inspection of transmission lines. The CartoPac solution provides Western linemen with complete, streamlined access to data needed in the field. Using ruggedized laptop computers, field personnel have access to a complete suite of tools, including GIS maps and digital inspection forms to perform the required inspection tasks in the field. CartoPac provides a streamlined process for data transfer in and out of the system, and provides a standardized, centralized application across all of Western. In addition, the new solution provides tools for GIS, foremen, and other key stakeholders to review, validate, and report on critical information.

    Through the partnership established with EDM, CartoPac and EDM were able to provide a proven enterprise mobile technology, combined with expertise and experience in the electric transmission inspection and maintenance arena. EDM provided configuration and training of the solution using experienced subject matter experts, trained in configuration of CartoPac technology, with knowledge and experience in transmission line inspection and maintenance. The combination of the existing COTS CartoPac platform and EDM’s experienced personnel has created an electric industry offering with a highly flexible software platform and industry proven workflows. 

    CartoPac is hosting two webinars on the utility industry:

    May 28 — CartoPac for Electric Utilities

    June 4 — Digital As-Builts for Gas Distribution

  • Boundless Releases OpenGeo Suite 4.6 to Improve Performance

    Boundless, a provider of spatial IT solutions, has released OpenGeo Suite 4.6, the newest version of its powerful enterprise geospatial software platform.

    OpenGeo Suite 4.6 is open-source geospatial software that powers web, mobile and desktop maps and applications across large and small organizations. New capabilities and enhancements in Version 4.6 include:

    • Enhanced OpenGeo Suite Composer, which allows anyone to build and style maps by making it easier to add data to GeoServer, style layers, and publish to the Web. Originally released in OpenGeo Suite 4.5, the latest release of OpenGeo Suite Composer improves layer management, allows publishing to OpenLayers3 templates for easy website embedding, and makes it even simpler to use the YSLD syntax for styling. OpenGeo Composer is available to all OpenGeo Suite Enterprise customers.
    • Improved reliability, handling and security when executing geospatial analysis.
    • Multiple updates to rendering and tile design capabilities.
    • Numerous updates and bug fixes to all components to improve stability and reliability across the entire software stack.

    OpenGeo Suite Enterprise from Boundless is open source geospatial software designed for users with complex deployment requirements who want to build robust solutions for demanding production environments that often require features such as connections to enterprise databases, advanced runtime environments, or sophisticated clustering solutions in support of scalability requirements. Organizations with complex enterprise needs should no longer feel locked in to proprietary software with significant license costs in order to accomplish sophisticated projects, Boundless said.

    “Boundless is committed to making geospatial software that is open, readily available and easy to use for all business applications,” said Ann Johnson, CEO, Boundless. “OpenGeo Suite 4.6 is the next step in our continued efforts to add features, functionality and usability to meet the demands of our customer base.”

    Boundless offers a host of service packages and training to help customers and free users get the most from their OpenGeo Suite deployment. Boundless also supports a variety of deployment options, including on-premise and cloud environments such as AWS and Microsoft Azure.

  • Geodetics Teams with Velodyne for Real-Time Mobile Mapping Systems

    Geodetics-SolPark-W

    Geodetics Inc. has teamed up with Silicon Valley’s Velodyne Lidar. Velodyne and Geodetics will work on a variety of initiatives to enhance each others technologies and products with the goal of offering a small-size integrated inertial navigation and LiDAR-based mobile mapping payload for UAVs and other autonomous platforms.

    Payloads will include Velodyne’s HDL-64E, HDL-32E and VLP-16 real-time LiDAR systems combined with Geodetics’ Geo-iNAV inertial navigation systems.

    Geodetics and Velodyne are exhibiting this week at AUVSI’s Unmanned Systems Show in Atlanta, being held May 4-7 (booth 1500J and booth 2838 respectively). See our show coverage page for more information.

    Velodyne’s LiDAR sensors are the highest performance LiDAR systems on the market in their size, weight and power class. Geo-iNAV is a fully-integrated GPS-aided inertial navigation system that provides real-time, high-precision positioning and navigation for manned and unmanned air, sea and ground vehicles. It combines GPS and proprietary sensor fusion technologies to achieve centimeter-level real-time positioning and navigation for dynamic platforms.

    “We’re delighted to work with Geodetics to ease the integration process for our customers,” said David Oroshnik, Technical Sales Engineer, Velodyne LiDAR. “Our decision to support Geodetics is based upon the growing demand for cost-effective, small-sized, fully-integrated mobile mapping payloads that deliver performance traditionally associated with higher-end systems.”

    “Velodyne’s LiDAR systems enable Geodetics’ products to reach new markets and customers by delivering high performance in a smaller package and for a lower cost than competing devices,” said Lydia Bock, Geodetics president and CEO.

    With recent advances in unmanned vehicle technologies, the GNSS ecosystem has expanded to support such mission-critical applications as mobile mapping. These applications increasingly require more accurate navigation to accomplish their mission. The Geo-iNAV family of inertial navigation products delivers this capability with features that support reliable and precise navigation with a low SWaP (size, weight and power) profile for autonomous vehicles and payloads on manned vehicles.

    Geo-iNAV is offered in several configurations designed to meet a wide range of requirements. It is available in commercial as well as SAASM configurations, meeting a wide range of inertial navigation application requirements.