Tag: product showcase

  • Launchpad: New GNSS boards, inertial sensors, software

    Launchpad: New GNSS boards, inertial sensors, software

    A roundup of recent products in the GNSS and inertial positioning industry from the July 2019 issue of GPS World magazine.

    OEM

    Inertial sensors

    Sensor fusion with GNSS receiver

    Photo: xsens
    Photo: xsens

    The MTi 600-series of inertial sensors comes in a 31.5 x 28.0 x 13.0 millimeter IP51-rated case. It produces roll and pitch readings accurate to ±0.2 degrees. GNSS-assisted heading (yaw) measurements are accurate to ±1.0°. Xsens’ sensor fusion algorithms optimize output from new accelerometer, gyroscope and magnetometer components. It also has a CAN bus interface. The MTi 600-series modules are the first from Xsens to include an NMEA-compatible interface for GNSS receivers. Users can choose any GNSS receiver chip, module or system to work alongside the MTi-670, a GNSS/INS device that supplements the pitch, roll and yaw outputs available from other MTi 600-series products with global positioning information.
    Xsens, www.xsens.com

    Fiber-optic gyroscope

    For medium accuracy platforms

    Photo: Emcore
    Photo: Emcore

    The Emcore-Hawkeye series EG-120 FOG module is an ultra-compact, state-of-the-art design that is a small, affordable closed-loop FOG. The EG-120 delivers advantageous size, weight and power (SWaP) and is 35% smaller than Emcore’s previous generation FOGs. The Emcore-Hawkeye EG-120 incorporates advanced, next-generation field programmable gate array (FPGA) electronics that deliver increased performance and reliability combined with low cost. The Emcore-Hawkeye series features performance specifications for medium accuracy platform stabilization applications such as camera systems used in aircraft, unmanned aerial vehicles (UAVs) and gun stabilization systems. A wide variety of other guidance, navigation and aeronautics applications are supported.
    Emcore, www.emcore.com

    Navigation system

    Customizable for ground vehicles of all sizes

    Photo: Robotic Research
    Photo: Robotic Research

    The RR-N-140 navigation system provides accurate, absolute and relative 3D localization information for ground vehicles of all sizes. It features dual-antenna GNSS for zero-speed heading detection and redundancy. The device delivers exceptional localization performance in GPS-denied or compromised areas. It is designed specifically for use on unmanned ground vehicles and is customizable to incorporate a wide variety of sensor inputs into the navigation solution.
    Robotic Research, www.roboticresearch.com

    GNSS sensors

    Combines numerous interfaces to speed system integration

    The P2 Elite GNSS sensor. (Photo: CHC Navigation)
    The P2 Elite GNSS sensor. (Photo: CHC Navigation)

    CHC Navigation’s new P2 GNSS sensor series provides high-accuracy positioning and heading in a compact, rugged enclosure. The series is suitable for a wide variety of applications such as reference stations, marine systems, unmanned navigation, industrial automation, robotics and machine control. The P2 GNSS series is designed to significantly reduce system integration efforts by combining numerous connectivity interfaces including RS232, low-latency PPS output, Ethernet, CAN bus protocol and a comprehensive web interface for configuration set-up. The series integrates the latest GNSS technology in a rugged IP67 and lightweight enclosure. It delivers reliable, uninterrupted, high-accuracy, real-time positioning and heading measurements. The P2 GNSS sensor offers cost-effective and powerful real-time kinematic (RTK) positioning. The P2 Pro GNSS adds a dual-antenna input for precise heading data. The P2 Elite integrates additional 4G and UHF modems to provide a powerful, all-in-one GNSS sensor.
    CHC Navigation, www.chcnav.com


    TRANSPORTATION

    Correction stream

    Data enables precision positioning

    RTX Auto is a GNSS software library for use in safety-critical automotive applications. The RTX Auto library can be integrated with any GNSS device and enables the decoding of Trimble’s RTX correction stream for centimeter-level absolute positioning accuracy. It works with other on-vehicle sensors to deliver a certified positioning solution that satisfies advanced driver assistance systems (ADAS) and autonomous driving requirements. It provides RTX-based absolute positioning for General Motors’ Super Cruise, a hands-free driving system for the freeway. After 2020, Super Cruise will will be available on all General Motors brands.
    Trimble, trimble.com

    Smart antenna

    Atlas-capable for marine markets

    Photo: Hemisphere GNSS
    Photo: Hemisphere GNSS

    The Vector V200 single-frequency, multi-GNSS smart antenna with integrated Atlas L-band is designed for general marine applications and markets. Powered by Hemisphere’s Crescent Vector technology, the V200 multi-GNSS compass system utilizes GPS, GLONASS, BeiDou, Galileo and QZSS (with future firmware upgrade and activation) for simultaneous satellite tracking to offer heading, position, heave, pitch and roll output. With support for NMEA 0183 and NMEA 2000, the V200 provides accurate position and heading information to autopilots, chart plotters and other general marine navigation applications.
    Hemisphere GNSS, www.hemispheregnss.com

    Driver safety solution

    Security for intelligent driving

    The Proactive Security Solution for Intelligent Driving will enhance safety by supporting ADAS and driver monitoring systems (DMS). It integrates Quectel multi-mode LTE Cat 6 smart modules SC600Y/SC600T and an artificial intelligence (AI) algorithm from a third party to realize ADAS and DMS capabilities including monitoring irregular driving behaviors, conducting precise detection of vehicles and traffic signs, sending warnings of potential risks and more. For ADAS, it can precisely identify and locate vehicles, pedestrians, lanes and traffic signs and will send alerts to drivers if an imminent collision or an unintended lane departure is detected. The DMS supports facial recognition and detection, and is able to monitor driver attentiveness and measure eye blinks as well as head movements so that drivers will receive warnings of distractions, smoking, yawning or looking around.
    Quectel Wireless Solutions, www.quectel.com

    Automotive module

    Aimed at urban lane accuracy

    The ZED-F9K module is designed to keep cars in their lanes. (Photo: u-blox)
    The ZED-F9K module is designed to keep cars in their lanes. (Photo: u-blox)

    The ZED-F9K GNSS and dead-reckoning module brings continuous lane-accurate positioning to challenging urban environments. Building on the F9 platform, the module offers both high-precision multi-band GNSS and inertial sensors. It combines the latest generation of GNSS receiver technology, signal processing algorithms and correction services to deliver down to decimeter-level accuracy within seconds. The real-time kinematic (RTK) receiver module receives GNSS signals from all orbiting constellations. The inertial sensors constantly monitor changes in the moving vehicle’s trajectory and continue to deliver lane-accurate positioning when satellite signals are obstructed, such as in parking garages, tunnels, urban canyons or forested areas. The module’s accuracy and low latency make it suitable for automotive OEMs and Tier 1 automakers developing V2X (vehicle-to-everything) communication systems. By continuously sharing their location, V2X systems help increase overall road safety and reduce congestion.
    u-blox, www.u-blox.com


    UAV

    Inertial navigation

    Geo-referencing solution improves UAV-based surveying

    The Quanta UAV. (Photo: SBG Systems)
    The Quanta UAV. (Photo: SBG Systems)

    The Quanta UAV series is a line of inertial navigation systems (INS) dedicated to UAV-based surveying integrators. The small, lightweight and low-power INS is offered with two levels of accuracy. Quanta UAV and Quanta UAV Extra have been developed for compact lidar to high-end beyond-visual-line-of-site (BVLOS) mapping solutions. They provide precise orientation and centimeter-level position data both in real time and in post processing, eliminating the need for ground control points and reducing the need for overlaps. SBG’s post-processing software Qinertia gives access to offline real-time kinematic (RTK) corrections from more than 7,000 base stations in 164 countries.
    SBG Systems, www.sbg-systems.com

    CNPC radio prototype

    Being tested as command and non-payload control UAS radio

    Photo: Allison Barwacz
    Photo: Allison Barwacz

    SkyLink is an L-band frequency-modulated CNPC radio intended for point-to-point or networked BVLOS UAS operations. uAvionix has focused on minimizing size, weight, and power consumption (SWaP) while maximizing range and spectrum efficiency. The current 50-gram 10-Watt prototype is testing successfully at ranges exceeding 40 miles at low altitude. uAvionix is testing under an experimental transmit license and approval from the Federal Communications Commission and Federal Aviation Administration, respectively.
    uAvionix, uavionix.com

    Thermal drone

    Designed for solar farm inspections

    The senseFly Solar 360 UAV is designed to enable the automated and efficient inspection of solar farms. Created in collaboration with software company Raptor Maps, the efficient thermal drone solution enables the automatic assessment of solar plant performance at a sub-module level. Created by combining eBee X fixed-wing drone technology, senseFly’s Duet T thermal mapping camera and Raptor Maps software, senseFly Solar 360 is a fast and fully automated drone. It can be integrated into solar management workflows without requiring either drone piloting skills or the manual analysis of aerial solar-farm data. Solar-farm inspection can be reduced from days to hours, with inspection of utility-scale solar farms completed more quickly, easily and accurately.
    SenseFly, www.sensefly.com
    Raptor Maps, raptormaps.com

    Remote operations

    Cloud-based, enables BVLOS

    Photo: FlytBase
    Photo: FlytBase

    FlytGCS is built for subject-matter experts, drone operations managers and UAV operators who wish to automate, simplify and scale their missions. To support automated BVLOS missions, FlytGCS offers features such as connectivity and control over 4G/LTE/5G, live high-definition video feed, fleet management, unlimited missions, remote gimbal control, pre-flight checklist and geofence, mission planner and cockpit view from a web dashboard. FlytGCS is a hardware-agnostic solution that helps securely deploy drones using a mobile app (for DJI drones) or onboard single-board computers (for Ardupilot and PX4 drones).
    FlytBase, flytgcs.live

    Inspection drone

    Collects data in dangerous areas

    Photo:
    The Elios 2 is a collision-tolerant drone for indoor inspections. (Photo: Flyability)

    The Elios 2 UAS is designed for inspection tasks. Routine inspection jobs indoors, underground and around complex pipework become quicker, safer and are fully documented by high-resolution video and stills. The Elios 2 includes a rotatable thermal and high-definition visual camera payload, 10,000-lumen oblique lighting system, and reversible rotors that enable the UAV to back out of tricky situations. The drone’s geodesic-like cage makes it collision-tolerant and enables flight in restricted areas such as refinery enclosures, mines, vats, cargo holds and nuclear containment vessels.
    Flyability, www.flyability.com


    SURVEY

    Battery upgrade

    Long-life battery for extended fieldwork

    Photo: Geneq
    Photo: Geneq

    SXblue receivers now have an extended-life battery equipped with 4 Li-ion rechargeable cells that boost its capacity from 3900 mAh to 6000 mAh. When fully charged, the battery can last up to 16 hours depending on the SXblue model and Bluetooth connectivity — an up to 50% increase. The colored LEDs for the battery charge indicator have been enhanced for a better contrast. With only a 6-mm increase in thickness and the same weight as previous models, the user will not notice any change in handiness and ergonomics. The new battery is compatible with all past SXblue II and III models and current iSXblue II+ GPS, SXblue II+ GPS, iSXblue II+ GNSS, SXblue II+ GNSS and SXblue Platinum.
    Geneq, geneq.com

    Fieldwork tablet

    Captures detailed images

    DT301X-TR rugged tablet. (Photo: DT Research)
    DT301X-TR rugged tablet. (Photo: DT Research)

    The DT301X-TR rugged tablet includes an Intel RealSense 3D camera. The lightweight military-grade tablet is built to enhance precision for bridge and construction inspections, 3D surveying and mapping of underground utilities. It provides multi-frequency GNSS real-time kinematic (RTK) with carrier phase for mapping and positioning, and supports GPS, GLONASS, BeiDou, Galileo and QZSS. An optional foldable antenna supports high-accuracy field work, which can be measured with RTK GNSS positioning directly or used to connect to an external antenna for higher precision.
    DT Research, www.dtresearch.com

    GNSS Receiver

    Dual-antenna receiver with heading

    Photo: Tersus GNSS
    Photo: Tersus GNSS

    The David Plus dual-antenna GNSS receiver offers centimeter-accurate positioning and heading for intelligent transportation, construction, machine control, precision agriculture and navigation. Designed for efficient and rapid integration, the compact, lightweight receiver tracks GPS, GLONASS and BeiDou signals: GPS L1/L2, GLONASS L1/L2, BeiDou B1/B2 from the primary antenna, and GPS L1/GLONASS L1 or GPS L1/BeiDou B1 from the secondary antenna. The modular and flexible design can provide robust positioning and heading accuracy in a compact footprint for UAVs and other smaller autonomous projects.
    Tersus GNSS, www.tersus-gnss.com

    Tilt compensation

    Android and Windows compatible

    Screenshot: Trimble
    Screenshot: Trimble

    Siteworks Software version 1.1 features GNSS tilt-compensation functionality and support for the Android operating system, meaning field workers can use smartphones or tablets. Contractors can run Siteworks on either Windows 10 or Android. Using Trimble Siteworks and a Trimble SPS986 GNSS smart antenna, construction surveyors can take measurements faster and perform more efficient stakeouts. It is designed to shield magnetic interference and can be used effectively anywhere on a construction site. Construction surveyors can capture accurate points without leveling the pole. Three modes support tilt compensation, so contractors can record accurate points while standing, walking or driving the site in a vehicle.
    Trimble, www.trimble.com

    RTK receiver

    Multi-band centimeter-accuracy

    Photo: Emlid
    Photo: Emlid

    The Reach RS2 is a multi-band GNSS receiver that features a built-in LoRa radio, a 3.5G modem, and a survey app for iOS and Android. The receiver determines a fixed solution in seconds and provides positional accuracy down to several millimeters. It tracks GPS/QZSS (L1, L2), GLONASS (L1, L2), BeiDou (B1, B2), Galileo (E1, E5) and SBAS (L1C/A), and reliably works in RTK mode on distances up to 60 kilometers and 100 kilometers in PPK mode. A multi-feed antenna with multipath rejection offers robust performance even in challenging conditions. RINEX raw data logs are compatible with OPUS, CSRS-PPP, AUSPOS and other PPP services so users can now get centimeter-precise results.
    Emlid, emlid.com


    Mapping

    High-speed camera

    High resolution for aerial imaging

    Photo: Teledyne
    Photo: Teledyne

    The Falcon 4 is a 86-megapixel ultra-high resolution and high-speed complementary metal oxide semiconductor (CMOS) camera. It offers capabilities for large-area, high-resolution, high-speed imaging. With 86 megapixels at 16 frames per second and a global shutter, the camera offers capabilities for large-area, high-resolution, high-speed imaging. Available in both color and monochrome models, the camera is sensitive into the near-infrared spectrum. The Falcon4’s high resolution and throughput serve a
    variety of challenging applications including aerial imaging, reconnaissance, security and surveillance, 3D metrology and flat panel display inspection.

    Teledyne DALSA, www.teledynedalsa.com

    Camera Lenses

    High-performance, high-altitude

    Photo: Phase One Industrial
    Photo: Phase One Industrial

    Three new high-performance lenses are designed for high-altitude aerial photography and long-range aerial and ground inspection applications. The 300mm AF, 180mm, and 150mm MK II lenses are designed to enhance the performance and flexibility of Phase One Industrial’s iXM-RS and iXM aerial camera series. Each offers precision imagery, taking advantage of the cameras’ ultra-high resolution backside-illuminated CMOS sensors, to maintain a smaller ground sample distance while flying at higher altitudes.

    Phase One Industrial, industrial.phaseone.com

    Lidar scanner

    Long-range for UAVs

    Photo: Cepton
    Photo: Cepton

    The SORA-P60L, part of Cepton’s SORA family of lidar scanners, is purpose-built to deliver long-range, high-resolution imaging for UAVs. It offers a 400-Hz frame rate, enabling drones to fly faster while maintaining high point-cloud density. With a 550-gram payload, the SORA-P60L prolongs UAV flight time allowing more ground to be covered in a single trip. Cepton’s Micro-Motion Technology faces all lasers downward at all times, providing a dense, uniform point cloud that, in combination with the high scan rate, makes it suitable for fixed-wing and fast-moving rotary-wing UAVs.

    Cepton Technologies Inc., www.cepton.com

    Laser rangefinder

    For agriculture or UAVs

    Photo: Attollo
    Photo: Attollo

    The WASP-200 LRF rangefinder is designed to measure ranges with accuracy and precision. It can be used for precision agriculture applications and as a proximity-to-ground sensor on board small or large unmanned aerial vehicles. It has 1-centimeter resolution and 10-centimeter accuracy, and is compatible with the Collins Aerospace Piccolo (CAN Bus and RS-232) and Pixhawk drivers. The WASP series of rangefinders also feature single-shot laser ranging for fast scanning and moving platforms; programmable burst mode averaging; and an IP-67 option. The rangefinders are suitable for robotics and UAVs, sense and avoid, industrial automation, height and distance measurements, and maritime operations.

    Attollo Engineering, www.attolloengineering.com

    Imaging scanner

    Portable and handheld

    The Leica BLK2GO. (Photo: Hexagon)
    The Leica BLK2GO. (Photo: Hexagon)

    The Leica BLK2GO is a small, portable, integrated handheld imaging scanner that offers mobility for scanning complex indoor environments. It combines visualization, lidar and edge-computing technologies to scan in 3D while in motion, allowing users to be more agile and efficient in capturing objects and spaces. Its dual-axis lidar scans up to 700,000 points per second. The handle contains WLAN connectivity, a rechargeable 45-minute battery, data storage for six hours of scans, a USB-C port for fast data transfer, and edge computing. The BLK2GO has a wide range of applications from adaptive reuse projects in the architecture and design industries to location scouting, pre-visualization, and VFX workflows for media and entertainment.

    Hexagon, hexagon.com

  • Rohde & Schwarz releases free eBook on 5G

    Rohde & Schwarz releases free eBook on 5G

    Photo: Rohde & Schwarz
    Photo: Rohde & Schwarz

    Is 5G simply another generation of mobile communications technologies? Or is it something revolutionary?

    To help with answers, test and measurement specialist Rohde & Schwarz has compiled an in-depth book describing the main aspects of 5G New Radio (NR) technology. The contents of the book can be read online for free.

    Rohde & Schwarz has been an active participant in the 3GPP standardization process involving cellular technologies, including the upcoming 5G NR. Five technology experts at Rohde & Schwarz wrote the book to provide in-depth information for professionals working with 5G NR technology.

    The 400-page 5G New Radio: Fundamentals, Procedures, Testing Aspects provides insights into fundamentals and procedures on the architecture and transmission of 5G NR technology. The chapters provide answers to how

    and why the 5G technology was specified a certain way by 3GPP. The book also discusses the new challenges to test and measurement, brought about the arrival of 5G technology, and presents modern, innovative test solutions to solve these challenges.

    The 5G NR book can be read online via the Rohde & Schwarz GLORIS customer portal.

  • Viametris launches new version of urban and road scanner

    Photo: Viametris
    Photo: Viametris

    Viametris has launched the second-generation version of the vMS3D, its urban and road lidar scanner.

    The second-generation version of the 3D mobile vehicle scanner has been redesigned to be more compact. The system has been simplified considerably in both electronic and ergonomic terms to make it more robust and stable in adverse conditions and challenging environments.

    Despite being lighter, the second generation offers the same technological capacities as its predecessor, but is simpler to use and can be mounted on a vehicle in minutes.

    The system component (including the sensors) and the element to affix the device to the vehicle (the frame) previously formed one unit, but are now separated.

    • The redesigned system is much lighter (9 kg) and more compact.
    • The mechanism to fix the scanner to the vehicle, which formed part of the system in the first-generation version, has been transformed. A rigid metal frame, fixed onto two roof bars, now holds the system, which fits into a dedicated compartment in seconds. As the frame is rigid, it limits vibrations between the system and the vehicle and prevents any strain on the mechanics during acquisition.
    • The second auxiliary antenna, which measures the heading by satellite, is discreet and non-removable, and fixed directly to the vehicle chassis.

    The new design makes it easier to mount and use the system, a task that can be accomplished by a single person in under three minutes. Alignment takes place the first time the system is mounted and does not need to be repeated, saving valuable time each start.

    Technological features

    The vMS3D comprises a new set of components that are more robust and stable in difficult conditions.

    • The integrated connectors are next-generation and embedded-grade.
    • The control box for power supply and communication with the tablet has been moved inside the vehicle to offer increased comfort to the user.

    Specifications

    Receiver: Septentrio AsteRx-m2a GPS+GLONASS+BeiDou+Galileo, 448 channels – L1/L2, B1/B2, E1/E5B, RAW

    IMU: SBG-Systems Ellipse2-D

    Scanner: 700,000 points per second

    Centimeter precision

    Panoramic 30MP FLIR Ladybug 5+ camera

    Double antenna

    SLAM compatible

  • Emcore’s new EN-2000 micro INS ready for defense, UAVs

    Emcore’s new EN-2000 micro INS ready for defense, UAVs

    Photo: Emcore
    Photo: Emcore

    Emcore Corporation has launched the EN-2000 to the Emcore-Orion series of micro-inertial navigation (MINAV) systems.

    The new EN-2000 will represent the pinnacle of performance in Emcore navigation systems, and realizes the company’s vision of a closed-loop, solid-state design that will deliver higher performance at lower cost than traditional RLG (ring laser gyroscope) navigation systems.

    The EN-2000 expands Emcore’s navigation systems line that also includes the EN-1000 introduced in 2017. The Emcore-Orion series of inertial navigation system (INS) are designed for use in a broad range of defense, aviation and aeronautics applications.

    The unit was introduced at the Paris Air Show, held June 17-20 at the Parc des Expositions Paris-le Bourget in Hall 6, Stand #C65.

    Today, there is an ever-increasing premium being placed on modern navigation systems for improved size, weight and power (SWaP). Traditional RLG navigation systems placed a premium on accuracy and performance, but not SWaP. Typical RLG and FOG systems are large and heavy, ranging in volume from 330 in3 to 540 in3, weighing 13 to 22 pounds with power requirements of 25 to 38 watts.

    Many modern weapon systems are now remotely operated, unmanned or man-portable and may need to operate where GPS is unavailable or denied. The compact EN-2000 is designed for these applications. It puts a premium on accuracy and performance, but also on smaller size, less weight and lower power consumption.

    The new Emcore-Orion EN-2000 MINAV is a three-axis design using the company’s proprietary, next-generation solid-state optical transceiver with advanced integrated optics, combined with all new field programmable gate array (FPGA) electronics to deliver stand-alone aircraft-grade navigator performance at one-third the SWaP of legacy or competing systems.

    The EN-2000 model comes in two standard versions, an IMU version and a standalone INS configuration. The INS version can gyrocompass to less than 0.7 milliradians and maintain near-GPS-level positional accuracy without the use of a GPS receiver. This makes it suitable for use in GPS-denied environments.

    To provide customers with additional flexibility, the unit is also capable of being aided by an external GPS for applications where needed.

    The Emcore-Orion EN-2000 is compact and lightweight, weighing less than 7 pounds, with very low power consumption of 10 watts. It can deliver twice the performance of the EN-1000 with the same form factor.

    The low SWaP of the EN-2000 makes it a suitable inertial navigation system for unmanned aerial vehicles (UAVs), unmanned underwater vehicles (UUVs), unmanned ground vehicles (UGVs), manned aircraft, rotorcraft and dismounted soldier applications.

    “With the introduction of the EN-2000, Emcore can now offer class-leading performance at a fraction of the size, weight and power of competing systems with increased reliability,” said David Faulkner, Emcore vice president and general manager of aerospace and defense. “Emcore’s goal of a true full navigation system that can replace older technology navigation systems in UAVs, UUVs, UGVs, manned aircraft and rotorcraft is fully realized with the introduction of the EN-2000.”

    “Our Emcore-Orion series micro navigators improve dramatically on the size and cost of navigation and azimuth sensing equipment by utilizing affordable lightweight sensors that reduce overall system weight and increase accuracy,” added K.K. Wong, Sr., director of fiber optic gyro products for Emcore. “The digital interface is also fully programmable at Emcore’s factory enabling it to directly replace competing units.”

  • Tersus launches dual-antenna GNSS receiver with heading

    Tersus GNSS Inc. has launched the David Plus — a dual-antenna GNSS receiver that offers centimeter-accurate positioning and heading. It is designed for intelligent transportation, construction, machine control, precision agriculture and navigation applications.

    David Plus is designed for efficient and rapid integration. The compact, lightweight receiver tracks GPS, GLONASS and BeiDou signals: GPS L1/L2, GLONASS L1/L2, BeiDou B1/B2 from the primary antenna, and GPS L1/GLONASS L1 or GPS L1/BeiDou B1 from the secondary antenna.

    The modular and flexible design can provide robust positioning and heading accuracy in a compact footprint for UAVs and other smaller autonomous projects.

    The David Plus GNSS receiver is built for outdoor environments with IP67-rated enclosure. Its compact palm-sized design makes it easy to integrate with various application systems.

    Four gigabytes of in-built memory are available to record data for post-processing.

    The David Plus GNSS receiver supports RTK positioning mode or RTK positioning + heading mode. It supports 384 channels. It’s easy to connect an external powerful radio for long range communication.

  • Hexagon products expand reality capture options

    Hexagon products expand reality capture options

    The Leica BLK2GO. (Photo: Hexagon)
    The Leica BLK2GO. (Photo: Hexagon)

    Hexagon AB has introduced two new additions to its Leica BLK series. The Leica BLK2GO is a small, portable, integrated handheld-imaging scanner, and the Leica BLK247 is a 3D laser-scanning sensor for security surveillance providing continuous, 24/7 situational awareness.

    “Extending the BLK series continues Hexagon’s 20-year focus on revolutionising reality capture,” said Ola Rollén, Hexagon president and CEO. “These sensors are not only ground-breaking for their technical capabilities, but also for their practicality. The Leica BLK2GO can be taken anywhere, and the Leica BLK247 never sleeps.”

    Leica BLK2GO. The Leica BLK2GO introduces mobility for scanning complex indoor environments. The handheld-imaging laser scanner combines visualisation, lidar, and edge-computing technologies to scan in 3D while in motion, allowing users to be more agile and efficient in capturing objects and spaces.

    The BLK2GO has a wide range of applications from adaptive reuse projects in the architecture and design industries to location scouting, pre-visualisation, and VFX workflows for media and entertainment.

    The Leica BLK247. (Photo: Hexagon)
    The Leica BLK247. (Photo: Hexagon)

    Leica BLK247. The Leica BLK247 is designed for continuous 3D reality capture, extending capabilities for safety and security applications. The sensor provides real-time situational awareness through edge computing and LiDAR-enabled change-detection technology.

    Using artificial intelligence, the BLK247 can tell the difference between still and moving objects — such as a person walking who leaves a suitcase behind — and identify security threats to provide real-time alerts for both expected and unexpected changes.

    The BLK247 greatly enhances situational awareness within restricted or high-security spaces, as it eliminates the need for people to constantly monitor walls of security screens or smart building dashboards.

    The Leica BLK2GO and Leica BLK247 are among the many innovative solutions showcased this week at HxGN LIVE 2019, Hexagon’s annual digital technology conference.

  • Microsemi qualifies ViaLite high-performance GNSS/GPS fiber extension kit

    Microsemi qualifies ViaLite high-performance GNSS/GPS fiber extension kit

    ViaLiteHD Blue OEM module, one of the available formats for the GPS RF over fiber link. (Photo: ViaLink)
    ViaLiteHD Blue OEM module, one of the available formats for the GPS RF over fiber link. (Photo: ViaLink)

    Carrying timing signals over optical fiber links to 10+ km, ViaLite’s new GNSS/GPS Fiber Extension Kit has been successfully qualified for use with Microsemi’s timing and synchronization products.

    Included in the kit is the ViaLiteHD GPS Link, which is designed for providing a remote GNSS/GPS signal or derived timing reference to equipment located where there is no reception, such as inside buildings, tunnels and mines.

    ViaLite designs and manufactures RF over fiber links/systems, support modules, rack chassis and outdoor enclosures. It is a division of Pulse Power & Measurement.

    The kit is suitable for GPS, Galileo, GLONASS and BeiDou bands, and the links provide a wide dynamic range with negligible signal degradation from noise or interference.

    ViaLite worked closely with Microsemi engineering and product management teams to create the optimized extension kit. Simple single-link extensions are available from both Microsemi and ViaLite, and more complex distributed systems can be defined and supplied by ViaLite.

    “We are honored to have been selected by Microsemi as a global supplier for GNSS fiber-optic link equipment,” said ViaLite director of sales Craig Somach.

    Microsemi provides synchronization services that assist customers with the planning, deployment and maintenance of synchronization infrastructure.

    Their systems need to meet various levels of redundancy, provide multiple timing and frequency outputs, and apply the most accurate GNSS and satcom techniques for measuring offsets between geographically dispersed clocks.

    The systems are employed across a wide range of industries, including communications, data centers, aerospace, defense, industrial, financial services, government, oil and gas, power and transportation.

  • Launchpad: GNSS modules, survey software, GPS repeater

    Launchpad: GNSS modules, survey software, GPS repeater

    A roundup of recent products in the GNSS and inertial positioning industry from the May 2019 issue of GPS World magazine.

    OEM

    Signal Analyzer

    Tests gnss-disciplined oscillators

    Photo: Jackson Labs
    Photo: Jackson Labs

    The PhaseStation ADEV Frequency Stability phase noise test system is a new signal source analyzer. It tests signal performance in a host of products such as GPS- or GNSS-disciplined oscillators. It can also be used to qualify and evaluate local oscillator performance for GNSS receiver design, including GPS TCXO evaluation and parametrization, or to take stability measurements of 1PPS and arbitrary frequency outputs from GNSS receivers. It is also useful in optimization of GNSS receiver Kalman filter design via the GNSS receiver 1PPS output signals. It automatically synchronizes and syntonizes (calibrates) the internal dual oscillator DOCXO option to external GNSS receivers via 1PPS input.
    Jackson Labs, jackson-labs.com

    ‘Vested’ Tracker

    Line for LTE, IoT, child safety

    Photo: WTS Positioning Solutions
    Photo: WTS Positioning Solutions

    The Trax G+ personal GPS tracker has real-time tracking capability with update rates up to every 10 seconds. For customised industrial applications, the new Trax G+ can support up to two updates per second. It also comes with wireless charging and IP68 water resistance. The Trax G+ 4G LTE-M supports 4G LTE-M and NB-IoT standards, with both European and U.S. models available. The Trax G+ app offers unlimited geofences, augmented reality tracking, speed alerts, location history, the possibility to track multiple devices and device sharing. A special collaboration with POC sports brand resulted in the POCito VPD Air Vest + TRAX. The vest provides a child with back protection for winter sports and is designed to store a TRAX POC Edition device.
    WTS Positioning Solutions, trax.business

    Multi-GNSS module

    Supports civil signals on the L5 band

    TAU-0707 series GNSS module. (Photo: Allystar)
    Photo: Allystar

    The TAU-0707 is a multi-band, multi-GNSS module series. Within its 7.6 x 7.6 millimeter size, the TAU-0707 supports GPS, Galileo, GLONASS, BeiDou, QZSS, IRNSS and all civil bands (L1, L2, L5, L6). The module is a concurrent multi-band receiver embedded with a Cynosure III single-die standalone positioning chipset, which offers multi-frequency measurements and simplifies integration for third-party applications. The TAU1206-0707 and TAU1205-1010 models are better in multipath mitigation due to the higher chipping rate of L5 signals relative to L1 C/A code. For professional applications, module TAU1303-0707 comes with built-in support for standard RTCM protocol (MSM), supporting multi-band multi-system high-precision raw data output, including pseudorange, phase range, Doppler, SNR for any kind of third-party integration and application.
    Allystar Technology, www.allystar.com

    Open-source receiver

    Offers GNSS for the enthusiast

    Photo: Amungo Navigation
    Photo: Amungo Navigation

    NUT2NT+ is an open source, multi-frequency, multi-signal, front-end GNSS receiver board built around the NT1065 chip. The receiver has been specifically created for satellite navigation enthusiasts. The NUT2NT+ hardware and software solution offers user the ability to set a receiver’s modes and frequencies, to capture all signals continuously, and to have complete control over primary processing features. The receiver is available via the Crowd Supply website.
    Amungo Navigation, www.amungo-navigation.com

    5G GNSS receivers

    For UTC time synchronization

    Photo: Furuno
    Photo: Furuno

    The GT-88 timing module and GF-8801/02/03/04/05 disciplined oscillator are for users who require UTC time-synchronized signals (1 PPS/10 MHz) to meet the new 5G requirements. Achieved stability is better than that of an atomic clock, including rubidium. The GT/GF-88 series includes an algorithm, Dynamic Satellite Selection, that provides outstanding multipath mitigation in urban canyon environments. It support GPS, GLONASS, QZSS and Galileo.
    Furuno Electric Co. Ltd., furuno.com


    SURVEY & MAPPING

    Machine control

    System improves safety, speed for drilling and piling contractors

    Photo:
    Photo: Trimble

    The Groundworks Machine Control System enables contractors to perform drilling and piling operations with centimeter-level accuracy. Using a touchscreen display, operators can personalize the interface with configurable views. The software aligns with other solutions in the Trimble Civil Engineering and Construction portfolio. Stakeless navigation reduces rework and decreases the need for personnel working near the machine during operation. Contractors can drill to the specified location, depth, orientation and inclination angle. Better rock fragmentation and lower hauling costs can be achieved by optimizing drill-hole spacing, angles and the location of the machine for a more even blasting pattern. Auto stop reduces overdrilling. Automated quality assurance and quality control reporting includes capture of start and end positions, time, elevation and actual embedment depth.
    Trimble, www.trimble.com

    Survey software

    Improved for UAV use

    Photo: Virtual Surveyor
    Photo: Virtual Surveyor

    Virtual Surveyor now enables users to process larger projects without buying more powerful computers or cloud services. Version 6.2 solves the problem of large files by offering enhanced clipping and mosaicking functionality. Users can merge multiple processed pieces of orthophotos and digital surface models into a single project, and create smooth edges with the new clipping tool. The mosaic can then be exported to a new TIFF file or serve as the basis for a full area virtual survey. A 3D Fly Through capability allows users to select spatial bookmarks and waypoints and create a movie that allows the viewer to fly through the terrain.
    Virtual Surveyor, virtual-surveyor.com

    GNSS Receiver

    Tilt compensates for out-of-plumb measurements

    A surveyor checks an urban construction project. (Photo: Topcon)
    A surveyor checks an urban construction project. (Photo: Topcon)

    The compact HiPer VR features advanced GNSS in a rugged IP67 design. Its GNSS chipset has Universal Tracking Channels Technology that automatically tracks every satellite signal (GPS, GLONASS, Galileo, Beidou, IRNSS, QZSS, SBAS). It also has an integrated 9-axis IMU and 3-axis eCompass. TILT (Topcon Integrated Leveling Technology) is designed to compensate for mis-leveled field measurements out of plumb by as much as 15 degrees.The HiPer VR can be used for static or kinematic GNSS post-processed surveys, as a network RTK rover with the FC-5000’s internal 4G/LTE cellular modem, as a UHF/FH/Longlink jobsite RTK rover, and also in Topcon’s patented Hybrid Positioning workflow.
    Topcon Positioning Group, topconpositioning.com

    Mobile laser scanner

    With NovAtel and Velodyne

    Photo: Lidaretto
    Photo: Lidaretto

    Lidaretto is a flexible mobile laser scanner for aircraft, land vehicles or on foot. Combining high-end technology by Velodyne and NovAtel, Lidaretto produces highly accurate point clouds for professional applications such as mapping, surveying, GIS and inspection. The NovAtel OEM7 receiver provides 555 channels, and is SPAN-enabled and optionally dual GNSS. Signals received include GPS+GLONASS L1 and L2; the receiver is upgradable to Galileo and BeiDou. Accuracy is achieved to 1–2 centimeters.
    Lidaretto, www.lidaretto.com

    Processing software

    For land surveying

    Photo: 3DSurvey
    Photo: 3Dsurvey

    3Dsurvey version 2.0 is a software ecosystem for land surveying data processing. Users can take photos with any standard digital camera, import images into 3Dsurvey, and produce their own orthophoto maps and digital surface models, as well as calculate volumes faster. Data is processed automatically based on matching algorithms. Smart tools in the software increase efficiency. Also available is the flight planning app 3Dsurvey Pilot and the viewing app 3Dsurvey Viewer.
    3Dsurvey, www.3dsurvey.si


    TRANSPORTATION

    Hangar repeater

    Enables indoor avionics testing

    Photo: Foxcom
    Photo: Foxcom

    The Hangar Repeater Solution enables aircraft ground engineers to undertake 24/7 avionics testing of GPS, Inmarsat and Iridium satellite signals indoors. Aircraft engineers can undertake testing of aircraft regardless of weather, without having to move aircraft in and out of a hangar. The dedicated repeater reduces on-ground time, work hours and overall maintenance costs, and provides communication inside buildings or underground without the need for direct line of sight to the sky.
    Foxcom, www.foxcom.com

    Avionics sensor

    Supports GPS guidance

    Photo: Garmin
    Photo: Garmin

    The GPS 3000 is a compact, remote-mount 15-channel GPS receiver capable of five position updates per second. It uses enhanced WAAS/SBAS signals to provide ultra-precise, DO-260B-compliant position data. It provides an ARINC 743A-5 GNSS interface over an industry-standard ARINC 429 data bus for those who wish to integrate GPS 3000 with existing avionics systems. When so configured, the GPS 3000 sensor can provide position source information to the FMS, meeting requirements for required navigation performance (RNP) and supporting GPS-based vertical approach capability for coupled LPV approaches and other next-generation flight applications.
    Garmin, www.garmin.com

    Positioning devices

    Auto motion sensors for GNSS-denied environments

    Photo: Invensense
    Photo: Invensense

    A new line of automotive high-accuracy devices is designed to enhance the absolute position of a vehicle in GNSS- and GPS-denied environments: IAM-20680, IAM-20680HP, IAM-20380 and IAM-20381. The IAM-20680 is a 6-axis qualified sensor that features 16-bit accelerometers and 16-bit gyroscopes. The IAM-20680HP is a high-performance version of the IAM-20680 that features high gyroscope and offset thermal stability. The IAM-20380 gyroscope is compatible with a 3-axis automotive accelerometer and an automotive-qualified 6-axis device. The IAM-20381 is a 3-axis accelerometer compatible with a 3-axis automotive gyroscope and an automotive-qualified 6-axis device. The IAM-20680HP and IAM-20680 can be used to improve estimates of position, direction and speed when GNSS is denied, as well as improve quality of the position estimation when the satellite signal is strong.
    InvenSense, www.invensense.com


    UAV

    Analysis platform

    For precision agriculture

    Screenshot: Agremo
    Screenshot: Agremo

    Agremo is a cloud-based data-processing solution designed to turn drone-collected images of agricultural sites into actionable and accurate data. It is used to collect aerial footage and create an analysis report that reveals how a crop is progressing. The agricultural sensing and analysis platform is designed for drone operators, farmers, growers and agronomists. Using Agremo, drone operators can help farmers monitor and manage their crops per field throughout the season. A visualized, user-friendly, geo-referenced map of a field can provide statistics such as plant counting, plant health tools and stress detectors that enable precise yield increase and increase of overall profit.
    Agremo, www.agremo.com

    UAV lidar

    For light vegetation and medium-range scanning

    Photo: Phoenix Lidar Systems
    Photo: Phoenix Lidar Systems

    The Phoenix Scout-32 is a powerful, compact, mid-range lidar. The lightweight system collects survey-grade data with an AGL range up to 65 meters, and features multi-target capacity with up to two target echoes per laser shot. It can build high-density point clouds of smaller scan areas, and has options for photogrammetry, hyperspectral, thermal imaging and more.
    Phoenix Lidar Systems, www.phoenixlidar.com

  • Cepton unveils long-range lidar scanner for UAVs

    Cepton unveils long-range lidar scanner for UAVs

    Photo: Cepton
    Photo: Cepton

    Cepton Technologies Inc., a provider of 3D lidar solutions for automotive, industrial, security and mapping applications, has unveiled its newest lidar scanner, the SORA-P60L.

    Cepton unveiled the SORA-P60L at AUVSI Xponential 2019.

    Part of Cepton’s SORA family of lidar scanners, the new scanner is purpose-built to deliver long-range, high-resolution imaging for unmanned aerial vehicles (UAVs).

    The SORA-P60L offers a 400-Hz frame rate, enabling drones to fly faster while maintaining high point-cloud density. With a 550-gram payload, the SORA-P60L prolongs UAV flight time allowing more ground to be covered in a single trip, the company said.

    Cepton’s unique Micro-Motion Technology faces all lasers downward at all times, providing a dense, uniform point cloud that, in combination with the high scan rate, makes it suitable for fixed-wing and fast-moving rotary-wing UAVs.

    “Cepton’s SORA-P60L leads the lidar industry with its best-in-class point cloud density that provides superior imaging for UAVs,” said Neil Huntingdon, Cepton’s VP of business development. “With the affordable price point, long-range capabilities and high frame rate of SORA-P60L, UAVs can capture data faster and build more accurate maps. SORA-P60L is our first product from the SORA family that we have unveiled this year. We see a lot of opportunities for this unique sensor in other markets and have a number of products in development that will be revealed later this year.”

  • Robotic Research provides navigation system for GPS-denied areas

    Robotic Research provides navigation system for GPS-denied areas

    Photo: Robotic Research
    Photo: Robotic Research

    Robotic Research will showcase its RR-N-140 navigation system at Booth #407 at AUVSI Xponential 2019, which takes place April 29-May 2 in Chicago.

    The system provides accurate, absolute and relative 3D (six-degrees-of-freedom, or 6 DOF) localization information for ground vehicles of all sizes.

    The device delivers exceptional localization performance in GPS‐denied or compromised areas. It is designed specifically for use on unmanned ground vehicles and is heavily customizable to incorporate a wide variety of sensor inputs into the navigation solution.

    Robotic Research develops and deploys autonomous vehicle innovations for both commercial and government customers.

    Features of the RR-N-140 include:

    • Accurate, real-time navigation/localization solution for wheeled or tracked ground vehicles
    • Adaptable for use on surface vessels
    • Exceptional localization performance in GPS-denied or compromised areas
    • Dual antenna GNSS for zero-speed heading detection and redundancy
    • Rugged IP67 Construction designed to meet shock and vibration environments typical of military vehicles
    • Up to 4X configurable vehicle speed / encoder inputs
    • Configurable GNSS and IMU options allow tailored solutions for all levels of performance
    • Customizable to directly interface with and process a variety of sensor inputs (e.g. LADAR, Stereo and Monocular Cameras, Ultra-Wideband Ranging Radios)
    • Easy integration with the Robotic Research Warfighter Localization family of systems (WarLoc)
    • Web interface for user-level diagnostics and configuration
    • Ethernet, CANbus, and RS-232 Serial Data Interfaces
    • Independent Ethernet ports for separation of navigation solution and sensor processing data
    • Robust Built-in-test (BIT) error reporting during runtime
    • Redundant IMU and GNSS options available for fault-tolerance
    • NTP Server and GPS PPS signals for time synchronization
    • Low SWAP
    • 7.2”L x 6.4” W x 2.9” H
    • 4.0 lbs
    • 22W at 9.5-36 VDC
  • Launchpad: GNSS receiver, graphing software, hexacopter, more

    Launchpad: GNSS receiver, graphing software, hexacopter, more

    A roundup of recent products in the GNSS and inertial positioning industry from the April 2019 issue of GPS World magazine.

    OEM

    GNSS receiver

    With embedded 9-DOF IMU

    Photo:
    Photo: Rokubun

    The Argonaut GNSS receiver is able to provide geo-location with real-time accuracy of 2 meters and off-line accuracy better than 0.4 meters using Argonaut PaaS. This is possible because GNSS raw measurements, together with inertial measurement unit (IMU) nine-degrees-of-freedom (9-DOF) measurements, are stored for offline GNSS processing (PPK, RTK, DGNSS). Argonaut will also register external events such as camera triggers within microsecond resolution and decimetric geo-location accuracy. The embedded IMU allows for an increased rate of navigation fixes as well as robust solutions in scenarios with impaired GNSS availability.
    Rokubun, rokubun.cat

    Galileo AltBOC addition

    Plus atmospheric corrections

    Photo:
    Photo: Skydel Solutions

    SDX GNSS simulator update version 19.1 adds Galileo AltBOC signal generation, new atmospheric errors, SBAS improvements and SV antenna patterns. SDX users licensed with the Galileo E5 signal will be able to generate 8 Phase Shift Keying (8-PSK) constant envelope AltBOC after upgrading to SDX 19.1. Version 19.1 also adds a new error type to all SDX users: atmospheric delays. These errors can be compensated for with the SBAS option installed.
    Skydel Solutions, skydelsolutions.com

    Wavefront simulator

    Added to software-defined platform

    Photo:
    Photo: Skydel Solutions

    The BroadSim Wavefront Simulator is a new addition to Skydel’s software-defined platform. The BroadSim Wavefront further extends the capabilities achieved by BroadSim Anechoic, incorporating support for controlled radiation pattern antenna (CRPA) and multi-element receiver testing. Powered by Skydel SDX, the simulator’s features include phase-coherent simulation, real-time automated phase calibration, scalability from 4 to 16 elements, and advanced jamming and spoofing scenarios.
    Talen-X, www.talen-x.com

    GNSS antenna

    For high-precision and autonomous applications

    Photo:
    Photo: Maxtena

    The M7HCT-A-SMA is a high-accuracy, multi-frequency active quadrifilar helix GNSS antenna designed for high-precision and autonomous multi-frequency applications. The design offers concurrent GNSS reception on L1 (GPS, GLONASS, Galileo, Beidou) and L2 (GPS L2C, Galileo E5B and GLONASS L3OC) in a rugged, compact and ultra lightweight form factor. The antenna is designed for GIS, RTK and other high-accuracy GNSS applications such as the drone and automotive markets. Helicore technology provides exceptional pattern control, polarization purity and high efficiency in a 25-gram form factor. The antenna offers up to 30-dB gain for GNSS applications in one radome housing with a single SMA connector.
    Maxtena, maxtena.com

    Portable simulation

    Solution for field-test requirements

    Photo:
    Photo: CAST Navigation

    The CAST-1000 duplicates GPS RF signals and uses dual-frequency signal generation technology. This allows for duplicate testing in the laboratory or the field and real-time or configured control. The CAST-1000 is mobile and portable, which makes it the ideal solution for field test requirements. Producing GPS and GLONASS signals with up to 12 satellites in view, the CAST-1000 simulates signals for satellites of P code on L1 and L2 and C/A code on L1. The GPS RF signal is dual-frequency and has a 12-channel configuration for any combination of visible space vehicles. The system is highly programmable — operators can choose from an array of vehicle types and replicate dynamic motion for all kinds of vehicles, from terrestrial to aquatic, airborne to space-based. By utilizing 6-DOF dynamic profile data collected in the field and through profile configuration, a trajectory can be created. The CAST-1000 also features a performance evaluation module, allowing for comparisons between raw and filtered data.
    CAST Navigation, www.castnav.com


    Survey & Mapping

    Graphing software

    New plotting features

    Photo:
    Photo: Golden Software

    Version 14 of the Grapher scientific graphing package offers new plotting and customizing functionality based on user feedback. The Grapher software gives users deeper insights into their data by providing them with 80 flexible and easy-to-use 2D and 3D graphing tools for plotting, analyzing and displaying scientific data sets. The package is used extensively by scientists and engineers in oil & gas operations, hydrologic/geochemical studies, environmental consulting, mineral exploration and academic research. New or upgraded features include Enhanced Plotting (the ability to plot data in rows and columns, perform one-button Durov class plots, and easily generate multi-plot reports); and Improved Bar Charts (bar charts are more versatile, offering variable bar widths and differentiated fill colors for negative and positive).
    Golden Software, www.goldensoftware.com

    GIS software update

    New lidar functionality

    Photo:
    Photo: Blue Marble Geographics

    Global Mapper version 20.1 offers new and updated geospatial tools, as well as performance improvements throughout the application. Enhancements to version 20.1 include a new zooming function in the path profile window, a digitizer tool for automatically closing gaps between features and, for lidar module users, a point proximity query function.
    Blue Marble Geographics, www.bluemarblegeo.com

    Survey application

    For the geospatial industry

    Photo:
    Photo: Global GNSS

    The GNSS Surveyor mobile application provides location information and quality position data in real time with sub-meter to centimeter accuracy. It connects to any external GNSS receiver via Bluetooth. Features include a one-touch configured command to communicate directly with the GNSS Bluetooth device; location information and quality of the position data in real time with centimeter accuracy; GPS data such as position, height, satellites and velocity; and constellation information for GPS, GLONASS, Galileo, BeiDou, QZSS and SBAS satellites. It also includes a direct IP feature for real-time kinematic (RTK) corrections data. An internal NTRIP client loads RTCM data from the internet. Location information is collected as latitude and longitude, altitude, speed or pace, bearing and UTC time. GNSS precision includes global coverage, centimeter-level accuracy, fast time to first fix, multi-constellation and multi-band, and highest security. Navigation uses include ground robotics navigation, lane-level navigation, heavy machine navigation, industrial navigation and tracking, and commercial UAV.
    Global GNSS, globalgnss.com

    Indoor mapping

    Slam technology removes point cloud artifacts

    Photo:
    Photo: NavVis

    The SLAM-based NavVis M6 Indoor Mobile Mapping System (IMMS) now automatically detects and removes point cloud artifacts, including moving objects in static scenes. The latest IMMS release removes artifacts from point clouds during the post-processing of scan data (see before and after image above). Fringe points and dynamic objects are two common types of point cloud artifacts that affect all 3D laser scanning devices. The NavVis M6 IMMS uses laser scanners to capture a high volume of measurement points of an environment. With the latest software update, the algorithms applied during the post-processing of scan data uses the multiple observations to detect whether measurement points actually exist in the physical space. If it is determined that the point does not exist and is instead resulting from the laser beam hitting an edge or an object moving through the space, this point is automatically removed. The result is a much cleaner, crisper point cloud that requires less clean-up time in point-cloud editing software and that is easier to use for applications such as BIM modeling.
    NavVis, www.navvis.com


    Mobile & UAV

    Adventure handhelds

    Larger display, improved access to Satellite imagery

    Photo:
    Photo: Garmin

    Garmin has updated two premium adventure-oriented handhelds, the GPSMAP 66s and the GPSMAP 66st, with expanded wireless connectivity, direct-to-device access to BirdsEye satellite imagery, weather forecasting and a larger 3-inch sunlight-readable color display. The GPSMAP 66st offers preloaded topographic maps for U.S. and Canada, with detail of coastlines, rivers, summits, terrain contours and geographical points. Connectivity to the new Garmin Explore app and the BirdsEye Satellite Imagery (no annual subscription) bring high-resolution photo-realistic route views. Weather updates come via Bluetooth to a compatible mobile device. The Explore app includes features for outdoor navigation, trip planning, mapping and data sharing. Features include multi-GNSS satellite support and altimeter, barometer and compass sensor capabilities; 16 hours of battery life in full GPS mode; LED flashlight and SOS beacon; built to military standards for thermal, shock and water performance (MIL-STD-810G); RINEX data logging that enables sub-meter accuracy of GPS position after post processing.
    Garmin, garmin.com

    RTK Hexacopter

    Integrated GNSS improves accuracy

    Photo:
    Photo: Yuneec International

    The H520 hexacopter is now available with a real-time kinematic (RTK) system. The fully integrated RTK satellite navigation enables extremely accurate recurring images and faster 3D mapping. It also makes automated inspection flights easier and more precise. The H520 RTK is suitable for commercial applications that require maximum precision. By using RTK technology, the H520 can now fly much closer to objects for inspection because the UAV positions itself precisely in the centimeter range (1 cm + ppm horizontal / 1.5 cm + ppm vertical) rather than in the meter range, which is standard for the H520.
    Yuneec International, us.yuneec.com

    Web-based data service

    Enables sharing of UAV data sets

    MAGNET Collage Web is a web-based service enabling the sharing and collaboration of UAV and scanning data sets. Version 1.3 allows operators to work with more types of data with greater flexibility, including the ability to import BIM models, as well as CAD and GIS data. It can be used to overlay as-built laser scans and design data to visualize proposed changes and detect construction issues. The software supports OBJ, FBX and 3DS formats. The upgrade also includes new direct publishing functionality for CAD and GIS data files through the browser.
    Topcon, topconpositioning.com

  • Correcting the census: Household sizes in Maptitude 2019

    Correcting the census: Household sizes in Maptitude 2019

    Household size distributions are critical inputs to many business analyses, but may not be correctly derived from U.S. Census data, according to Caliper.

    The Census counts people at their geographic locations, and when several unrelated people live at the same address, they are reported as one household with a number of residents.

    A confusing array of data is reported. In both the Census SF1 2010 file and in 2017 ACS, the following tabulations are provided down to the Census tract level:

    • People in Family Households
    • 2 person Family Households
    • 3 person Family Households
    • 4 person Family Households
    • 5 person Family Households
    • 6 person Family Households
    • 7+ person Family Households
    • Non-relatives in Family Households
      • Unmarried Partners (including same-sex couples) in Family Households
    • People in Non-Family Households
      • Unmarried Partners (including same-sex couples) in Non-Family Households

    There is also extensive information on people residing in group quarters in the 2010 Census, which has the tabulations below:

    • People in Group Quarters: College
    • People in Group Quarters: Military
    • People in Group Quarters: Navy Ships
    • People in Group Quarters: Other
      • People in Group Quarters: Homeless
      • People in Group Quarters: Group Homes
      • People in Group Quarters: Residential Treatment
      • People in Group Quarters: Merchant Ships
      • People in Group Quarters: Workers’ Group Living Quarters
      • People in Group Quarters: Other Other
    • People in Group Quarters: Institutionalized

    Using this information, Maptitude 2019 includes a corrected data set of household size distributions for Census Tracts and Block Groups to account for the under-representation of one-person households in the Census data.

    Census tracts with Caliper derived households. (Image: Caliper)
    Census tracts with Caliper derived households. (Image: Caliper)
    Census tracts with Census household count. (Image: Caliper)
    Census tracts with Census household count. (Image: Caliper)