Tag: product showcase

  • Launchpad: Timing receiver, AR smart glasses

    Launchpad: Timing receiver, AR smart glasses

    OEM

    GNSS receiver

    High precision for the mass market

    piksi_multi_rear-w-200x150The Piksi Multi is a multi-band, multi-constellation receiver for the mass market. Autonomous devices require precision navigation, especially those that perform critical functions. The receiver uses real-time kinematics (RTK) technology, providing location solutions 100 times more accurate than traditional GPS. Piksi Multi supports GPS L1/L2 and is hardware-ready for GLONASS G1/G2, BeiDou B1/B2, Galileo E1/E5b, QZSS L1/L2 and SBAS. The Piksi Multi Evaluation Kit also has been upgraded with all-new components. The new kit contains two Piksi Multi GNSS modules, two integrator-friendly evaluation boards, two GNSS survey-grade antennas and two high-performance radios, so that it can deliver reliability and range — well over 10 kilometers — and all of the accessories required for rapid prototyping and integration.

    Swift Navigation, www.swiftnav.com

    Timing receiver

    For dedicated time and frequency transfer applications

    The Septentrio PolaRX5TR.
    The Septentrio PolaRX5TR.

    The PolaRx5TR has 544 hardware channels and supports all major satellite constellations including GPS, GLONASS, Galileo, BeiDou, QZSS and IRNSS. A calibration circuit is incorporated to measure and compensate for internal delay, removing the need for calibration using external equipment and ensuring measurement latching is always accurately synchronized with the PPS input. The PolaRx5TR is compliant with the new-format CGGTTS version V2E of Consultative Committee for Time and Frequency (CCTF) recommendations. Also included as standard is Septentrio’s Advanced Interference Mitigation (AIM+) technology, giving outstanding interference robustness in difficult radio environments. Up to eight independent logging sessions can be configured logging to either the 16-GB internal memory or to an externally connected device.

    Septentrio, www.septentrio.com

    GNSS simulator

    Designed for a wide range of testing

    ion-titan-simulator-200x150The NCS Titan GNSS simulator has up to 256 channels (and 1024 multipath channels) and up to 4 RF outputs per chassis, providing flexibility and outstanding performance . The extra complexity and cost of using multiple signal generators is avoided, improving reliability without compromising on functionality. Its innovative design allows users configure channels for any GNSS signals and allocate those channels to any of the RF outputs fitted. This flexibility enables the same simulator hardware to be used for an extensive range of tests, for all types of GNSS applications. The NCS TITAN GNSS Simulator was developed in cooperation with WORK Microwave GmbH, Germany.

    IFEN, www.ifen.com

    Interference detector

    Analyzes RF interference of GPS signals

    Spirent's GSS200D interference detector.
    Spirent’s GSS200D interference detector.

    The GSS200D Interference Detection and Analysis solution, developed with Nottingham Scientific Limited, comprises field-based hardware and a secure data server for automatic capture and analysis of GNSS radio-frequency interference. Deployments of GSS200D probes provide users with a thorough understanding of the RF interference environment at sites of interest. Spirent has already detected thousands of disruptive GPS L1 interference events with its global network of GSS100D detectors. By adding support of additional frequencies and constellations, as well as improving the analysis and reporting, the GSS200D responds to the demand of critical infrastructure and civil aviation customers.

    Spirent, www.spirent.com


    SURVEY & MAPPING

    Multi-band receiver

    For surveyors, contractors, builders and engineers

    PositionIT-Carlson-620x620-e1464842339861-200x150The Carlson BRx6 is a multi-GNSS, multi-frequency receiver. It has a multi-band 372-channel GNSS receiver, Athena RTK technology and an integrated Atlas L-band receiver. The BRx6 also contains electronic sensors that measure tilt, direction (electronic compass) and acceleration, supporting Carlson SurvCE’s advanced features such as LDL (live digital level or e-bubble), leveling tolerance, auto by level, tilted-pole correction and advanced stakeout features. SurvCE contains sophisticated checks for compass and acceleration anomalies to ensure accuracy. The BRx6 delivers affordable, high-positional accuracy. Manufactured to Carlson’s exacting specifications by Hemisphere GNSS, the BRx6 can be used as a precise base station or lightweight rover. RTK corrections can be received over UHF radio, cell modem, Wi-Fi, Bluetooth or serial connection.

    Carlson Software, www.carlsonsw.com

    Subscription service

    Provides RTK correction data during outages

    resizedimage120120-correct-rtk-iconRTK Assist is a subscription-based service that provides users with satellite-delivered correction data to seamlessly continue centimeter-level accuracy during real-time kinematic (RTK) correction outages caused by communication disruptions. Users are able to maintain RTK-level performance for up to 20 minutes, reducing any associated downtime and optimizing solution productivity. The RTK positioning with correction data is delivered directly to the receiver via satellite, allowing for a continuous centimeter-level solution that is globally available 24/7. RTK Assist is best suited for applications where there are potential obstructions, dead spots or baseline limitations that would cause RTK network correction losses for short periods of time.

    NovAtel, www.novatel.com

    Mobile mapping

    GNSS-aided georeferencing

    applanix-announces-pospac-mms-8-for-high-accuracy-mobile-mappingThe POSPac MMS 8 is GNSS-aided inertial post-processing software for georeferencing data collected from cameras, lidars, multi-beam sonars and other sensors on mobile platforms. POSPac MMS 8 uses the Trimble CenterPoint RTX subscription service to deliver these benefits for mobile mapping from land, air, marine and UAV platforms. With an internet connection, users can achieve centimeter-level accuracy within one hour after data collection — there is no need to wait for delivery of public-domain ephemeris data. Users can map inaccessible regions that have no existing Continuously Operation Reference Stations (CORS) without the cost of deploying local base stations. With Trimble’s private network, users can attain consistent and reliable uptime.

    Applanix, www.applanix.com

    Geospatial data PDFs

    Extends geospatial data sets to all stakeholders

    geopdf-workflow-wTerraGo GeoPDF software suite version 7 offers new features to enable open, cross-platform, cloud and mobile access to advanced maps, engineering drawings, high-resolution imagery and other types of spatial data assets. Version 7 has tools for publishing GeoPDFs, including TerraGo Publisher for ArcGIS, TerraGo Publisher for ArcGIS Server, TerraGo Composer, TerraGo GeoPDF Platform Toolkit, TerraGo Publisher for Raster and TerraGo Toolbar. Features include PubPy, which extends and enhances integration into ArcGIS ArcPy to enable on-demand web services and GIS portals; and OpenGeoPDF, which adds Open Geospatial Consortium GeoPackage to GeoPDF documents to enable GIS-Lite applications using TerraGo Toolbar 7.0. Other features include mobile-workflow support, advanced layer control and remote desktop.

    TerraGo, www.terragotech.com


    UAV

    Ground-control points

    Solar-powered and portable

    Aeropoints are desgined for for companies across the industrial sector — including mining, construction, quarries and landfills.
    Aeropoints are desgined for for companies across the industrial sector — including mining, construction, quarries and landfills.

    AeroPoints are smart ground-control points designed to make it easy to capture survey–accurate mapping using drones. The portable ground-control markers are visible from the air and capable of quickly capturing their own positions down to 2-centimeter absolute accuracy. AeroPoints work with any camera or drone, and integrate seamlessly with Propeller’s cloud–based data platform and processing engine. They’re solar–powered, durable and weather- resistant, and they don’t require any on-site connection. To use AeroPoints, customers simply lay them down, fly their drone, and then pick them up again. They automatically connect to a wireless or mobile hotspot when back in range to upload captured positional data.

    Propeller Aero, www.propelleraero.com

    UAV lidar sensor

    Entry-level device for limited-weight drones

    mini-vux1-uav_riegl-lidar-wThe miniVUX-1UAV is a compact miniaturized 360-degree field-of-view lidar sensor weighing 1.6 kilograms. It is developed for the implementation of emerging survey solutions by small UAS, UAV and Remotely Piloted Aircraft Systems (RPAS). The sensor offers multi-target capability and accuracy using echo digitization and online waveform processing for data acquisition. It is capable of 100,000 measurements per second and offers an operating altitude of 100+ meters. Its small size and low weight make it suitable for mounting under limited weight and space conditions, allowing UAV-based acquisition of survey-grade measurement data for agriculture and forestry fieldwork, archaeology and cultural heritage documentation, glacier and snowfield mapping, and landslide monitoring.

    Riegl, www.riegl.com

    UAV awareness software

    Notifies pilots when drones draw near

    safertogether-wSafer Together is designed to reduce the risk of mid-air collision between aircraft and UAVs. Developed by senseFly and the Air Navigation Pro app makers, it is designed to make the skies a safer place by providing general aviation (GA) pilots and drone operators with awareness of each other’s airborne activities, giving them the knowledge they need to take any actions necessary to avoid mid-air incidents around 200–400 feet above ground level, where most light-weight drones fly. SenseFly added GA functionality to its eMotion flight-planning software, enabling operators to create a special advisory when activating automated drone flights. eMotion transmits the advisory to Air Navigation Pro’s server, which will push the information to all smart devices of connected app users. In turn, senseFly drone operators will be able to view the Air Navigation users’ flights in real time.

    Safer Together, www.safertogether.aero 

    SAASM inertial navigation

    Includes GPS antenna and cables

    geodetics-saasm-imu-wThe Geo-iNAV 1000 SAASM is a low-cost, rugged SAASM GPS-aided inertial navigation system. It tightly couples a SAASM GPS sensor with a high-stability Quartz micro-electro-mechanical system (MEMS) inertial measurement unit (IMU) to provide a high-performance navigation solution in challenging environments. Features include simple integration, SAASM GPS with path to M-code, internal high-accuracy quartz MEMS IMU, tight-coupling with Geodetics’ Extended Kalman Filter, in-motion dynamic alignment, and RS-232, RS422 and Ethernet (TCP/UDP) interfaces.

    Geodetics, www.geodetics.com

    Drone camera

    Hovers while taking photos and videos

    hover-camera-passport-wThe Hover Camera Passport hovers in place to allow users to quickly and easily take photographs. The self-flying camera is aimed at consumers, flying without the restraints of controllers. Once the camera is unfolded and powered on, the passport can take 13-megapixel photos and 4,000-pixel (4K) video using proprietary embedded artificial intelligence technology. The Hover Camera Passport introduces a new design into the flying camera field, with its propellers and motors encased in a strong, light carbon-fiber structure that ensures fingers can’t slip through during normal use. Features include auto-follow with face and body tracking, 360 spin; orbit; and self-positioning using a combination of sonar, its downward viewing camera and artificial intelligence.

    Zero Zero Robotics, gethover.com

    Camera drone

    Designed to fit in a backpack

    gopro-karma-drone-wThe Karma drone, designed to accompany a GoPro camera, features a compact, fits-in-a-small-backpack design and includes an image-stabilization grip that can be handheld or mounted to vehicles, gear and more. Karma is designed to capture smooth, stabilized video during almost any activity. Compact and foldable, the entire system fits into the included backpack that’s so comfortable to wear during any activity, users will forget they’ve got it on. The game-style controller features an integrated touch display, making it easy to fly without the need for a separate phone or tablet. The three-axis camera stabilizer can be removed from the drone and attached to the included Karma Grip for capturing ultra-smooth handheld and gear-mounted footage.

    GoPro, gopro.com

    Augmented reality smart glasses

    Enable UAV pilots to maintain line of sight

    epson-uav-smartglasses-wThe Epson Moverio BT-300 augmented reality (AR) smart glasses are light, binocular and transparent with an organic light-emitting diode (OLED) display. Combining silicon-based OLED digital display technology and Android OS 5.1, the Moverio BT-300 enables transparent mobile augmented reality (AR) experiences, including while flying drones. With the DJI GO app and the Moverio glasses, drone pilots are able to see clear, transparent first-person views from the drone camera while simultaneously maintaining their line of sight with their aircraft. The DJI GO app works with the DJI Phantom, Inspire and Matrice series flying platforms as well as the Osmo handheld gimbal and camera.

    Epson, www.epson.comDJI, www.dji.com


    TRANSPORTATION

    GNSS antennas

    Equipped with Inmarsat filter for marine vessels

    NovAtel-ATEX-antennaThe GPS-713-GGG-N and GPS-713-GGGL-N ATEX-qualified triple-frequency GNSS antennas come with Inmarsat rejection filters. Hazardous environments — those found on oil platforms, tankers and refineries — require compliance with the European 94/9EC ATEX directive. Based on the company’s Pinwheel technology, both antennas maximize performance with multi-constellation reception of L1, L2, L5 GPS; L1, L2, L3 GLONASS; B1, B2 BeiDou; and E1, E5a/b Galileo frequencies, the company said. The GPS-713-GGGL-N also supports L-band from 1525 to 1560 MHz. Customers can use the same antenna for GPS only, or up to quad-constellation applications, resulting in increased flexibility and reduced equipment costs. The two antennas deliver choke-ring-level antenna performance, but without the size and weight. Both provide enhanced Inmarsat interference rejection, which allows tracking of GNSS signals in the presence of high-powered Inmarsat transmitters typically found on marine vessels.

    NovAtel, www.novatel.com

    Auto navigation receiver

    Dead-reckoning enabled

    Furuno's GV-86.
    Furuno’s GV-86.

    The GV-86 is a high-sensitivity GPS receiver module supporting dead reckoning, which enables positioning in environments where no GNSS signals can be received, such as tunnels, underground car parking and deep urban canyons. The receiver concurrently receives GPS, SBAS and QZSS satellite signals. The dead-reckoning function is realized by integrating the information from a gyro sensor and a velocity sensor. It has fast time to first fix, and highly improved noise tolerance, and a configurable position output update rate up to 10 Hz (10 times per second.)

    Furuno, www.furuno.com

  • Talen-X gets GPS Directorate security approval for BroadSim

    Talen-X gets GPS Directorate security approval for BroadSim

    Talen-X has been given security approval by the GPS Directorate, allowing BroadSim to create and process Y-Code while in a classified environment.

    BroadSim is a software-defined GNSS simulator that enables users to easily model true and spoofed signals. BroadSim was developed to simplify advanced jamming and spoofing scenarios with Navigation Warfare (NAVWAR) testing in mind.

    BroadSim supports high dynamics, advanced jamming, spoofing and encrypted military codes.

    Powered by Skydel’s SDX 1000-Hz software simulator engine, BroadSim can simulate multiple constellations including GPS, GLONASS, Galileo and BeiDou.Photo: Talen-X

    Software features:

    • Capable of generating and simulating multiple signal types
    • GPS L1, L2 with C/A, P, Y and M
    • GLONASS G1 and G2
    • Galileo E1 and E5
    • BeiDou B1 and B2
    • Intuitive control using Skydel’s SDX software
    • Utilizes four RF outputs, each with multiple simultaneous constellations
    • Generates high-fidelity jamming and interference signals

    BroadSim hardware includes a generator and controller with two integrated commercial-off-the-shelf USRP radios, an integrated OctoClock-G with GPS disciplined oscillator, four frequency-independent transmit and receive channels and a UBX-160 RF daughterboard.

  • 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.

  • Propeller Aero’s ground-control points aim for UAV accuracy

    Propeller Aero’s ground-control points aim for UAV accuracy

    Aeropoints are desgined for for companies across the industrial sector — including mining, construction, quarries and landfills.
    Aeropoints are desgined for for companies across the industrial sector — including mining, construction, quarries and landfills.

    Propeller Aero has introduced AeroPoints — smart ground-control points designed to make it easy to capture survey­accurate mapping using drones.

    The patent-­pending technology provides a simple solution to a major roadblock to widespread commercial drone adoption: accuracy.

    Typical ground control requires establishing precise geolocation position using surveying equipment, and then securing a visible ground marker exactly on the pre­-marked GPS point.

    AeroPoints are portable ground-control markers, visible from the air and capable of quickly capturing their own positions down to 2-centimeter absolute accuracy.

    AeroPoints work with any camera or drone, and integrate seamlessly with Propeller’s cloud­-based data platform and processing engine (see above story). They’re solar­-powered, durable and weather­ resistant, and they don’t require any on­site connection.

    To use AeroPoints, customers simply lay them down, fly their drone, and then pick them up again. They automatically connect to a wireless or mobile hotspot when back in range to upload captured positional data — and precision georeferencing is done.

    See also DJI joins Propeller Aero on turnkey solutions.

  • High-accuracy, intelligent performance with sensor fusion

    High-accuracy, intelligent performance with sensor fusion

    Inertial navigation

    geo_fog_single-3d-wThe GEO-FOG 3D inertial navigation system (INS) uses sensor fusion to deliver reliable, high-accuracy navigation and control to a wide variety of unmanned, autonomous and manned aerial, ground, marine and subsurface marine applications and platforms. Other applications include navigation and control, positioning and imaging, georeferencing, land surveying, robotics, underground navigation, stabilization and orientation.

    Designed for demanding navigation and control applications, the GEO-FOG 3D has performance monitoring and instability protections to ensure stable and reliable data. Using an innovative artificial intelligence algorithm, its intelligent high-performance filter is capable of extracting significantly more information from the 1750 IMU core processor than a typical Kalman filter.

    The GEO-FOG 3D is built upon the high-performance fiber-optic gyro (FOG)-based 1750 inertial measurement unit (IMU). It contains three DSP-1750 fiber optic gyros integrated with three very low noise micro-electro-mechanical systems (MEMS) accelerometers as well as a pressure sensor, a three-axis magnetometer, and a triple-frequency GNSS receiver.

    The triple frequency receiver provides 8 millimeters of positioning accuracy and supports all GNSS systems. It also offers data rates up to 1000 Hz; data can be output over a high-speed RS-422 interface or optional RS-232 interface. The rugged GEO-FOG 3D INS is protected from reverse polarity, overvoltage, surges, static and short circuits on all external surfaces.

    Key Features

    • Core processor: KVH 1750 IMU
    • 6 degrees of freedom (DoF) IMU consisting of integrated FOGs and accelerometers
    • Triple-frequency Trimble GNSS receiver
    • Sensor fusion algorithm delivers accurate, reliable data for navigation, orientation, and control
    • North-seeking gyrocompass
    • Attitude and Heading Reference System (AHRS)

    KVH, www.kvh.com/unmanned

  • Launchpad: TraceME TM-178 is upgraded with LoRa technology

    Tracking with options

    The TraceME module TM-178, targeted for tracing and controlling vehicles and other powered equipment, is now upgraded with optional LoRa, Wi-Fi, Bluetooth Smart (BLE), ANT/ANT+ and proprietary RF. The upgrades enable integration with existing wireless networks and specific custom mobile apps on smartphones and tablets.

    productheader-r9hc-kcsbv-wThe KCS BV LoRa technology offers a communication range up to 60 kilometers, line of sight. The module offers an advanced indoor and outdoor location-based positioning solution, which covers a variety of Internet of Things (IoT) applications and enables stolen object or vehicle recovery.

    The TM-178 is equipped with external power and battery backup connection, basic I/O-connectivity and multiple on-board sensors. The unit contains multiple integrated antennas for GPS/GLONASS, GSM (2G/3G) and RF functionality. The functionality of the module can be remotely programmed to fit any job. From basic/general functionality to advanced/low-level application specific detailed functionality.

    With a compact size of 91 x 40 millimeters and weighing 30 grams, along with a battery lifespan of more than 10 years, the module offers endless OEM integration possibilities. Optionally, the module can be ordered in a robust IP67 housing.

    TM-178 Features

    • GPS
    • GSM/GPRS/EDGE coverage
    • Basic I/O-connectivity
    • Long-range RF coverage

    Optional Features

    • GPS + GLONASS
    • UMTS/HSPA+
    • LoRa
    • Bluetooth Smart (BLE), ANT/ANT+, iBeacon
    • Wi-Fi
    • Robust IP67 housing
    • External RF antennas
    • Internal battery, no need for external power supply

    KCS BV, www.trace.me

  • Launchpad: Multi-frequency GNSS RF front-ends

    Launchpad: Multi-frequency GNSS RF front-ends

    4- and 7-channel research and evaluation platforms

    The NT1065_USB3 and Multi_GNSS_Grabber_Board are research and evaluation platforms for professional navigation receivers, based on NTLab’s RF front-end integrated circuits: the NT1065 “Nomada” (4-channel GPS/GLONASS/Galileo/BeiDou/IRNSS/QZSS, L1/L2/L3/L5 band) and NT2024 (3-channel GPS/GLONASS L1/L2 and S-band).

    Both boards support USB3 connection, thus allowing the user to process captured satellite signals on a PC.

    NT1065_USB3

    Multi-band multi-system 4-channel coherent GNSS RF front-end based on NT1065 “Nomada” IC.

    nt1065_usb3-nt-labs-wFeatures

    • 4 coherent GNSS channels
    • IF bandwidth up to 32MHz for each channel
    • Acquisition of wideband signals up to 64 MHz (such as Galileo E5) with 2 coherent channels
    • Built-in 2-bit ADC
    • USB3 interface (up to 800 Mbit/s)
    • Ability to connect 4x CRPA

    Multi_GNSS_Grabber_Board

    All-band, all-system 7-channel GNSS software-defined receiver platform based on RFFE ICs: NT1065 “Nomada” and NT2024.

    multi_gnss_grabber_board-nt-labs-wFeatures

    • All NT1065_USB3 features, plus:
    • Two additional L1/L2 GNSS channels
    • IRNSS S-band support
    • Built-in FPGA for pre-processing and channel synchronization

    NTLab, www.ntlab.com

  • Launchpad: Penta-frequency compact board

    GPS/GLONASS/BeidDou tri-system board

    unicorecomm-w
    The UB351/352 board by Unicore Communications.

    The UB351/352 GPS/GLONASS/BDS tri-system penta-frequency OEM boards are based on Unicore’s mature multi-GNSS system on chip (SoC). UB351/352 both use a low-power consumption design, support multipath mitigation and offer millimeter-level carrier-phase observations with centimeter-level RTK positioning accuracy.

    Instant RTK and high-precision heading advanced technologies are particularly appropriate for applications requiring high-precision positioning, navigation and heading. UB351/352 have been used in several applications in overseas projects, and can be integrated into unmanned aircraft vehicles (UAV) and in precision agriculture.

    Characteristics

    • UB351: BDS B1/B3+GPS L1/L2+GLONASS L1; UB352: GPS L1/L2+GLONASS L1/L2+BDS B1
      46 x71 millimeters; small and compatible with industry standard compact size GNSS boards
    • Optional onboard MEMS; designed for intelligent machine control with improved positioning performance under complex conditions
    • Supports WAAS + TDIF algorithm, designed for precision agriculture
    • Better than 1-millimeter carrier-phase precision
    • Accuracy: Sub-meter level SBAS, Decimeter level DGPS, centimeter level high-precision RTK positioning
    • Better than 0.2-degree heading accuracy on 1-meter baseline
    • Output: 20 Hz

    Unicore Communications, unicorecomm.com

  • Launchpad: Powerful GNSS research tool

    Launchpad: Powerful GNSS research tool

    Software Receiver

    Powerful research tool for the GNSS scientific and R&D community

    The SX3 is a modular multi-GNSS software receiver that tracks all known and in future upcoming GNSS signals in view in real time on a standard laptop. The included RF front-end offers four sx3_distributor-wRF frequency chains with 50-MHz bandwidth each, covering the entire GNSS L-band spectrum and the IRNSS S-band spectrum.

    The USB 3.0 interface enables high-speed data transfer with up to 8-bit quantization. Customers can fully concentrate on their applications instead of dealing with potentially obscure code when using open source.

    The signal view graphical user interface provides easy access to signal processing configuration properties and gives real-time feedback for important aspects, such as channel output, correlation function and RF spectrum.

    Applications

    • Multipath and spoofing signal evaluation
    • Interference monitoring
    • Weak signal scintillation
    • Ionospheric scintillation
    • Sensor fusion (IMU, magnetometer)

    Release notes (v3.2.1)

    • New SX3 front-end mode providing sample rate of 100 MHz
    • SX3 front-end temperature log-file
    • Automatic calibration of Galileo E5ab (AltBOC) tracking when using SX3 front end
    • Add scintillation monitor module and dedicated configuration “ScintillationMonitor.nsr”
    • New API example “TrackingLoopAdvanced”
    • New driver model used for SX3 frontend
    • Updates in SX3 reflectometry package

    IFEN GmbH, www.ifen.com

  • Geodetics introduces mobile mapping system with lidar, GPS

    Geodetics introduces mobile mapping system with lidar, GPS

    geo-mms-with-vlp-wGeodetics Inc.’s newest mobile mapping product, Geo-MMS, is a fully integrated lidar mapping payload for integration with unmanned aerial systems (UAS).

    The Geo-MMS includes an inertial navigation system (INS) coupled with a lidar sensor. Raw data from the integrated GPS, inertial measurement unit (IMU) and lidar sensors are recorded on the internal data-recording device and can be post-processed using Geodetics’ lidar tool software package to directly geo-reference the lidar point clouds with LAS-format output. Geo-MMS is available with a wide range of sensors.

    Geo-MMS can be used in various applications in both military and commercial industries such as precision agriculture; mining; utilities; asset management; oil; construction and infrastructure inspections; intelligence, surveillance and reconnaissance (ISR); sense and avoid; coastal surveillance; and situational awareness.

    As a company based in the United States, Geodetics can also accommodate defense SAASM and M-code path requirements.

  • Launchpad: Time and frequency server accurate in all conditions

    Launchpad: Time and frequency server accurate in all conditions

    The VersaSync is a new generation time and frequency server from Spectracom. The high-performance GNSS master clock and network time server delivers accurate, software-configurable time and frequency signals in all circumstances, including GNSS-denied environments.

    versasync-spectracom-wIt is based on a platform-approach to maximize versatility without restricting performance, which maintains or improves high-performance standards from larger form factors while reducing the footprint. The result is a rugged and compact design suitable for air, land or sea applications.

    Standard VersaSync configurations are designed in accordance to VITA 75, which was developed for easy integration of subsystems in mobile platforms. The overall volume is under 1 liter, the weight is less than 1 kilogram, and its power consumption is approximately 10 watts.

    The list of design features for harsh environmental conditions include mil-performance circular connectors, a sealed enclosure (IP65), and an efficient heat transfer via the conduction-cooled based plate. Spectracom is currently confirming its extensive reliability and compatibility modeling to military specifications.

    Versatility is also the theme for the VersaSync’s internal time-base, compatibility with external time and frequency reference sources, and time and frequency signal generation. It is available with a choice of a very low-phase noise ovenized crystal oscillator (OCXO) or chip-scale atomic clocks (CSAC), and can accommodate other high-precision internal time references. Similarly, it is available with various GNSS receivers including multi-constellation receivers and SAASM encrypted GPS with an upgrade path to M-code.

    Software-defined digital timing I/Os offer mission-to-mission configurability of virtually any timing signal. Network synchronization and management also offers a high degree of flexibility. Two gigabit Ethernet interfaces are available for network synchronization protocols (NTP and PTP) as well as for configuration, status, logging and upgradability.

    Applications

    • UAVs
    • flight test
    • telemetry
    • mobile communication systems
    • C4ISR (command, control, communications, computers, intelligence, surveillance and reconnaissance)

    Spectracom, spectracom.com

  • Launchpad: Improved OEM boards from Hemisphere GNSS

    Launchpad: Improved OEM boards from Hemisphere GNSS

    Latest additions to the Eclipse line

    The Hemisphere GNSS P326 OEM board.
    The Hemisphere GNSS P326 OEM board.

    The P326 and P327 support 394 channels and are scalable, offering centimeter-level accuracy in single-frequency or full performance multi-frequency, multi-GNSS, Atlas-capable mode. The platform enables simultaneous tracking of all satellite signals including GPS, GLONASS, BeiDou, Galileo and QZSS, making it a robust and reliable solution.

    The updated power-management system efficiently governs the processor, memory and ASIC — important for multiple integration applications such as handheld and battery-powered devices. The small form factor (41 x 71 millimeters) 34-pin P326 module is a drop-in upgrade for many Hemisphere products. The P327 module (41 x 72 millimeters) is a drop-in upgrade for standard 20-pin modules from other manufacturers.

    Eclipse P326 and P327 Features

    • Athena GNSS engine offers world-class performance
    • Atlas L-band corrections provide position accuracy down to 2 centimeters RMS, positioning sustainability with Tracer technology, and convergence time as low as 10 minutes 
    • Exclusive access to Hemisphere’s Advanced Technology Features: aRTK works when RTK corrections fail and SureFix verifies the fix with virtually 100 percent reliability
    • Flexible scalability to customize needs: DGPS, SBAS, Atlas H10 – H100, sub-centimeter level RTK
    • Full tracking: uses GPS, GLONASS, BeiDou, Galileo, and QZSS

    Hemisphere GNSS, HGNSS.com