Category: Applications

  • Microsemi’s new time clock protects against GNSS vulnerabilities

    Microsemi’s new time clock protects against GNSS vulnerabilities

    Microsemi Corporation has announced its TimeSource Enhanced Primary Reference Time Clock (TimeSource Enhanced PRTC), a new system protecting against serious threats associated with GNSS vulnerabilities.

    It also enables telecommunications and mobile operators to meet the new G.8272.1 recommendation from the International Telecommunication Union (ITU). The stringent new ITU-T Recommendation G.8272.1 requires accuracy to within 30 nanoseconds (ns) or better when verified against a time standard such as UTC.

    Microsemi's new TimeSource Enhanced Primary Reference Time Clock protects against serious threats associated with GNSS vulnerabilities.
    Microsemi’s new TimeSource Enhanced Primary Reference Time Clock protects against serious threats associated with GNSS vulnerabilities.

    The TimeSource Enhanced PRTC “generates time” by producing its own independent time scale aligned with GNSS, while its phase, time and frequency signal outputs remain autonomous. This provides customers within the communications, power, public safety, data center and government network markets with a secure infrastructure, reducing dependency on GNSS and enabling network operators to retake control of the timing source used for network synchronization.

    “Worldwide telecommunications, power utilities and other infrastructure customers are in critical need of protection against GNSS vulnerability, and Microsemi’s new TimeSource Enhanced PRTC provides a powerful, high performance solution to address this need,” said Randy Brudzinski, vice president and business unit manager of Microsemi’s Frequency and Time division. “In addition, maintaining less than 30 ns performance is important to mobile operators who require a high level of accuracy to support LTE/4G and the upcoming deployment of 5G.”

    Massive deployment of GNSS as a timing source for synchronizing telecommunications networks (both wired and wireless) has created security risks to a point where governments, major telecommunications/mobile operators and enterprises are now urgently looking to protect their networks against both regional GNSS issues as well as the potential of a global GNSS outage. Microsemi’s TimeSource Enhanced PRTC works with the company’s cesium clocks to ensure time is generated in an autonomous manner. Specifically, the TimeSource Enhanced PRTC’s “source of time” aligns accurately with GNSS time without being dependent upon it—avoiding any vulnerability to threats caused by jamming and spoofing.

    According to Research and Markets’ report from market research firm Markets and Markets titled, “Anti-Jamming Market for GPS by Technique (Nulling System, Beam Steering System, Civilian System), Receiver Type (Military & Government Grade, Commercial Transportation Grade), Application, End User, and Geography – Global Forecast to 2022,” the anti-jamming market for GPS is expected to reach $4.8 billion and more than 309,000 units by 2022, at a compound annual growth rate (CAGR) of 7 percent and 10 percent, respectively, between 2016-2022. Demand for secured weapons guided systems and increasing vulnerability of GPS signals due to development of low-cost GPS jammers are the major growth drivers of the market.

    Microsemi’s technical experts will be showcasing the new TimeSource Enhanced PRTC, along with its integrated GNSS Grandmaster (IGM) 1100 series, SyncServerS600 series, TimeProvider 2700 and TimeProvider 5000, in booth #17 at the International Timing & Sync Forum (ITSF), taking place Nov. 1-3 in Prague, Czech Republic.

     

  • Oscilloquartz to unveil new synchronization technology

    Oscilloquartz, an ADVA Optical Networking company, will showcase vital new functionality for its synchronization and distribution technology at the 2016 International Timing & Sync Forum (ITSF) in Prague, Nov. 1-3.

    Demonstrations will reveal additional applications based on enhanced hardware and software in the OSA 5401 Syncplug, an ultra-compact Precision Time Protocol (PTP) grandmaster clock, and the OSA 5420 range of synchronization distribution and assurance devices optimized for edge deployment.

    The new feature set includes the OSA 5401’s capability to be used as a boundary or slave clock and the OSA 5420 series’ availability as a one-box solution for all timing protocols. The advancements will improve accuracy, security and cost-efficiency and create new use cases and deployment scenarios for Oscilloquartz’s timing technology.

    “With these latest innovations we can offer the ultimate timing solution. Thanks to improved security and resiliency, as well as different PTP profiles for different markets, our technology now caters for all synchronization requirements,” said Nir Laufer, director, product line management, Oscilloquartz.

    “Our enhanced OSA 5401 small form-factor pluggable grandmaster will bring major benefits to network operators. Its new slave and boundary clock functionality enables it to be used as an add-on, creating a hybrid synchronization network,” Laufer said.

    “Deployed this way, the OSA 5401 significantly reduces packet delay variation while taking up zero real estate and using very little power. It also protects against outages in the global navigation satellite system (GNSS), delivering superior frequency and phase with better resiliency throughout the network,” Laufer said.

    Further enhancements to the OSA 5401 include Layer 3 multi-cast functionality for financial and enterprise applications, as well as remote authentication and logs for improved manageability and security.

    Improvements have also been made to the OSA 5401’s GNSS capabilities, such as an elevation mask, a signal-to-noise ratio mask and fixed positioning, which enables more accurate time and frequency recovery, even in challenging environments such as urban canyon installations.

    Upgrades to the OSA 5420 series mean that it can now function as a high-capacity Network Time Protocol (NTP) server or PTP grandmaster in the same device, or even over the same port. What’s more, it can now support different types of line cards, including multiple 1Gbit/s ports used for PTP, NTP and Sync-E, as well as BITS, pulse-per-second, time-of-day and clock interfaces.

    This single box for all synchronization applications dramatically reduces cost and enables customers to protect their investment in NTP while planning future migration toward PTP.

    “We’re excited to present our latest advancements to the industry at ITSF. Our demos will show that we’ve created a complete synchronization solution — a family of devices that makes precise, resilient and affordable timing available for every industry,” said Gil Biran, general manager, Oscilloquartz.

    “With the OSA 5420 range, we’ve taken the Swiss army knife strategy even further, so that a single device now supports all sync technologies. It gives operators a one-box solution for overlay networks with different requirements,” Biran said. “With its NTP server and GNSS receiver capability, including multiple legacy and next-generation synchronization fan-out options, our OSA 5420 series is ideal for deployment in legacy synchronization architectures. It also offers the freedom to locate sync devices at any point in the network, which further reduces capital and operational expenditure.”

  • Telit offers new GNSS module

    Telit offers new GNSS module

    Telit Jupiter SE873 GNSS module.
    Telit Jupiter SE873 GNSS module.

    Telit‘s Jupiter SE873Q5 module is now available. The SE873Q5 is an ultra-low-power, high-sensitivity GNSS module with very small physical dimensions, completely compatible with its SE873 module.

    The new module leverages Telit innovation in miniaturization technology to improve power saving and sensitivity, delivering longer battery life and expanding design possibilities for tracking and navigation application areas particularly in wearable devices.

    The multi-constellation receiver module can be set to a number of different power saving modes depending on application requirements and includes an ultra-low noise boosting sensitivity that allows developers to explore a wider variety of device designs, enclosures and relative placement inside personal devices, garments or other space constrained electronics.

    The SE873Q5 is a flash-memory-based GNSS module capable of tracking three constellations simultaneously. Compared to the SE873, the new design reduces power consumption by 20%, while boosting satellite signal reception sensitivity. With complete pin-to-pin compatibility, the SE873Q5 can also be applied to existing designs based on the SE873, instantly boosting device performance as well as creating opportunities for new and upgraded products with very short time-to-market.

    “When it comes to application areas like wearables and others in the commercial and consumer spaces, there is no such thing as ‘too small’ or ‘too power-efficient’,” said Felix Marchal, Telit’s executive vice president of GNSS and short-range wireless. “And when you add to this type of efficiency, a stellar front-end RF performance in a miniature global satellite positioning receiver module, you immediately open up new product and business opportunities because now your antenna requirements are easier to meet; and you can explore more ‘buried’ designs where the module, used with an integrated antenna, can be encased deeper into the physical environment of the consumer, commercial or industrial application.”

    Features

    • The Jupiter SE873Q5 is packaged in a 7x7x1.85 mm QFN-like package, equipped SQI Flash memory, switching power supply and integrated high-performance low-noise amplifier (LNA). It is designed to support GPS, GLONASS, BeiDou and is Galileo-ready, delivering simultaneous tracking in two modes: GPS+Galileo and GLONASS, or GPS+Galileo and BeiDou.
    • To extend battery life, the module includes a low-power tracking mode as well as advanced low-power modes: SmartGNSS 1 and 2, duty cycle, push-to-fix. Because it is flash-memory-based, it enables easy firmware updates, customization of operating parameters and supports ephemeris file injection (A-GPS) for up to 14 days, resulting in faster TTFF.
    • Navigation data is delivered using OSP binary protocol or NMEA through standard UART, SPI or I2C ports. The module supports A-GPS as well as Satellite Based Augmentation System (SBAS) to increase position accuracy. Server-generated and client-generated extended ephemeris are supported and stored in internal Flash memory. The enhanced sensitivity of the SE873Q5 is rated at -147dBm for acquisition, -161dBm for navigation and -167dBm for tracking.
  • Russians seek answers to GPS anomaly in Moscow

    Mobile phone apps that use GPS are malfunctioning in Moscow, Russia, according to the Associated Press.

    According to research by programmer Grigory Bakunov, who works for Russian internet firm Yandex, a system for blocking GPS was located inside the Kremlin.

    GPS users in central Moscow have been complaining on social media that when they are near the Kremlin, their GPS apps stop working or show them to be in Moscow’s Vnukovo airport, which is 18 miles away, which suggests the purpose of the disruption may be to prevent drones flying over the Kremlin.

    Runners in September’s Moscow marathon also complained that their jogging apps lost track of how far they had run when they passed the Kremlin.

    Putin’s spokesman Dmitry Peskov said Thursday he did not know why the malfunction was occurring.

  • u-blox brings ARM mbed OS 5 to low-energy IoT modules

    u-blox brings ARM mbed OS 5 to low-energy IoT modules

    u-blox has announced ARM mbed OS 5 support for the ODIN-W2 wireless Internet of Things (IoT) gateway module and the NINA-B1 Bluetooth low energy module.

    The ARM mbed OS 5 incorporates a real-time operating system (RTOS) in the core of the operating system. This open environment provides all the features needed to rapidly deploy and develop connected IoT products based on an ARM Cortex-M microcontroller, including security, connectivity and drivers for sensors and I/O devices. On existing u-blox ODIN-W2 and NINA-B1 hardware, customers can now rapidly develop wireless IoT applications making it easier to cut costs, development time and footprint, the company.

    ublox-iot-ub066At ARM TechCon, held Oct. 26-27 in Santa Clara, California, u-blox will showcase the NINA-B1 and ODIN-W2 in a powerful and responsive IoT sensor-to-gateway-to-cloud scenario. In the live demonstration, the ODIN-W2 will read sensor data via Bluetooth low energy technology from NINA-B1-equipped sensors, and simultaneously stream it via Wi-Fi to an IBM cloud server, allowing for real-time data visualization and analysis.

    “The unique combination of u-blox’s ODIN-W2 and NINA-B1 with ARM mbed OS 5 creates the best performing complete IoT architecture solution for applications from sensor data collection to flexible intelligent gateway processing and cloud connectivity, with full support for customer code — all based on the most proven embedded application platform,” said Hakan Svegerud, head of Product Strategy, Short Range Radio, at u-blox.

    The already certified ODIN-W2, NINA-B1 and wireless stacks are designed for typical embedded applications, which require a small footprint implementation with responsive, high-performance hardware and an open CPU architecture. Usage scenarios include IoT, and medical and industrial applications, that use multiple sensors and/or smart gateways linked by Wi-Fi and Bluetooth. ODIN-W2’s 1-MB of flash memory offers ample space for all the customer software required to create a powerful gateway.

    The ARM mbed development environment, with its extensive tools and libraries, gives embedded application designers and developers full access to each u-blox module’s ARM Cortex-M4 based microcontroller. This allows them to avoid the need for an external host CPU — not only saving bill of materials costs and development resources, but also keeping the board footprint to an absolute minimum.

    In addition to providing a consistent development process across multiple products, this environment allows an extremely broad range of sensor and actuator-based IoT designs to be implemented on a single, compact, certified wireless module. Moreover, the u-blox open standard approach ensures ease of IoT connectivity, while still accelerating type approval certification by controlling access to the wireless stacks. All of these advantages combine to reduce time to market to a minimum.

  • Largest unmanned naval exercise weighs anchor

    Largest unmanned naval exercise weighs anchor

    In the exercise, the Thales Watchkeeper looks seaward, spotting passing ships and feeding data to headquarters vessel MV Northern River in the Irish Sea. (Photo: Royal Navy)
    In the exercise, the Thales Watchkeeper looks seaward, spotting passing ships and feeding data to headquarters vessel MV Northern River in the Irish Sea. (Photo: Royal Navy)

    Unmanned Warrior 2016, the largest exercise for marine unmanned vehicles, is underway in the North Atlantic, off the coast of Scotland. The U.K. Navy hosts the event, and the U.S. Navy’s Office of Naval Research is a key participant.

    The exercise will test many teamed technologies, including ONR’s lidar package for SeaHunter unmanned aerial vehicle. Researchers will evaluate the ability of different systems to communicate and operate as a unified force.

    “These systems can help protect our Sailors and Marines from some of the Navy’s dull, dirty and dangerous missions, like mine countermeasures . . . Additionally, these systems can increase our capabilities at a more affordable cost of the conventional systems we currently employ,” said Chief of Naval Research Rear Adm. Mat Winter. “Autonomy will enable our naval forces to stay longer, see farther, understand more, decide faster, do more, adapt more quickly and when necessary be more lethal.”

    Mine-hunting robots will be deployed on a test range set up by U.K defense contractor QinetiQ in one set of exercises, to compare their performance with those of crewed U.K. Navy minehunters. Remotely piloted submarines are already routinely employed in manned mine-hunting, but the exercise seeks to find if matters can be taken a stage further.

    Unmanned vehicles are supplied by Thales, Seebyte and BAE will participate.

    Unmanned Warrior is part of Joint Warrior, a twice-yearly NATO naval exercise. Nearly 6,000 personnel, more than 30 warships and 70 aircraft will participate in joint maneuvers off Scotland during the drill.

     

  • How to dissolve funding logjams in Congress

    [Editor’s note: This is the Signals Leadership Award acceptance speech given by Clark Cohen at GPS World’s 2016 Leadership Dinner in September. The Award was recognized the development of alternates to GPS based on communication satellites: a method for adding high-accuracy ranging capability to Iridium by modifying the transmitted signal structure of an already flying, programmable constellation. ]

    Thank you GPS World, industry sponsors, and colleagues who engaged in the selection process. I appreciate the honor.

    The Advanced Waveform was the second and most ambitious broadcast that we developed for the DoD-sponsored iGPS program. It is a wide-bandwidth (10 MHz maximum spectrum allocation), near-white, high-power broadcast with independently resolvable code and carrier capable of illuminating regions of the world at any time. Yet Iridium was never designed for navigation.

    I am grateful to the Naval Research Lab, the Office of the Secretary of Defense, Boeing, and Iridium for their support. Also, many capable people comprised our team. Completeness is impossible, but I’ll highlight the efforts of Dick Cervisi, Kamran Ghassemi, Ann Stevens, Robert Scholl, Tom Guffey, Bernie McCormick and Mark Psiaki.

    The commercial Iridium constellation is built on billions of dollars of private capital. Meanwhile, the iGPS overlay required Congressional appropriation. But if the technical part weren’t challenging enough, the politics were, in my view, a bit too hard.

    My topic is the future of public-private partnerships. Such partnerships include the GPS space and ground segments and most other government projects. Our broken, inflexible Congress is not helping. My answer here for the family dinner table is not political — it’s structural, non-partisan, systems engineering.

    We can do better than handicapped innovation, winner-take-all procurements, Nunn-McCurdy triggers, continuing resolutions, debt-limit brinksmanship and government shut-downs. This is not to judge people. Good people are operating under imperfect rules.

    House elections now resemble a stuck, one-bit, analog-to-digital converter. Hundreds of individual races, cumulate the equivalent of input noise and bias, rendering the House largely unresponsive to voters. Consent of the governed demands a healthy, moderating feedback loop from people to representatives to laws and back. Cutting this loop spells trouble.

    A major root cause of dysfunction is winner-take-all, single-member districts. Geographical voting made sense in the 18th century. But in an increasingly complex, connected world, where you live is no longer a stand-in for what you think.

    We need to start dissolving district boundaries themselves. An elegant approach is aggregating adjacent single-member districts into larger multi-winner “super districts” with three to five members each. A refinement called Ranked Choice Voting eliminates spoiler hazard and incentivizes positive campaigns. No change to the Constitution is needed — only passing a law.

    We should reset our expectations. Congress should be able to pass the nation’s budget on time every time. We don’t need drama around GPS modernization, backup terrestrial navigation, and spectrum protection. And America should boldly pioneer aspirational, cathedral-and-moonshot-scale, public-private initiatives.

    Working hard and playing by the rules implies a value-added, positive-sum relationship with society. But to the extent that the rules are imperfect, don’t vestiges of zero-sum exchange imply collateral damage somewhere in society? Voters are rebelling by the millions. We should pay attention. America’s defining Revolutionary War was fought over taxation without representation.

    Whether applied to sword or plowshare, precision feedback from GPS provides guidance to help minimize collateral damage. Updated voting rules will do the same for the nation. Everyone benefits from more efficient and effective execution. Yet perhaps our greatest harvest — should we choose to claim it for ourselves and our children — will follow from sowing new seeds of discovery and innovation through public-private partnerships on a vast and visionary scale.

     

  • Tethered UAV achieves simultaneous air-ground mapping

    Geonumerics reported a mapping benchmark achieved in June 2016: operation of a tandem aerial-terrestrial system conceived for simultaneous geodata acquisition in corridor mapping missions.

    The mapKITE system tests were carried out at the BCN Drone Center on 2,500 hectares of segregated airspace outside Barcelona. A 2-kilometer rural road served as a testing corridor and was operated successfully around ten times. The testing site was prepared with several ground control points for quality checking.

    tether-1
    Kinematic ground control point enables tandem ground-air mapping via sensor orientation and calibration.

    Tethering the UAS to the terrestrial vehicle. By means of a real-time navigation system, the terrestrial vehicle generates the basic source information for generating waypoints to be followed by the aerial platform. Schematically, for every terrestrial position, a geometrical shift is applied to keep a particular relative air-ground geometry. A “follow-me” scheme keeps the UAV coordinated as the vehicle moves; the tether is set to maintain a constant relative speed.  Additionally, the ground vehicle is observed in  most of the aerial images.

    tether-2
    Top, left and right: mapKITE aerial images from the corridor flown at the BCN Drone Center (June, 2016); bottom: 3D model extracted from aerial images only.

    Linking the two with an optical target. An optical coded target on the roof of the ground vehicle is automatically identified and measured in the aerial images in a fast and robust manner. Its goal is twofold: firstly, it enables a complementary guidance scheme based on target-tracking,  adding robustness to the virtual tether. Secondly, the image measurement of the optical target together with the high-quality trajectory of the ground vehicle introduces a kinematic ground control for a posteriori sensor orientation and calibration.

    By performing photogrametric pointing-and-scaling measurements of the optical target, and linking these with the precise terrestrial vehicle trajectory by means of image synchronization in a common time reference, mapKITE introduces an analogy to the conventional ground control points (GCPs)  ready-to-use kinematic ground control points (KGCPs) for every image.

    Equipment used in the first mapKITE campaign Fundamental mission parameters
    Aerial camera Sony NEX-5 (c=20mm) Gruond Sampling Distance 2,4 cm
    GNSS receiver (UA) Javad TRE-3 Flying altitude 100 m
    TV navigation system Applanix POS-LV420 Forward image overlap 80%
    TMM system Optech Lynx Image footprint 120 m across-track

    More information can be found in the following material:
    •    download the PDF mapKITE brochure with more information about the test campaign.
    •    The video of the mapKITE test campaign explains the system and the performance test.

    GeoNumerics is a research and development company specializing in geomatics and accurate navigation, located in Catalonia, Spain. The company licenses software and provides R&D services focused on applications of unmanned aircraft, Galileo satellite navigation and inertial navigation in remote sensing and mapping.

    tether-3
    Point cloud obtained with the terrestrial mobile mapping system.

    MapKITE is currently being developed by an international consortium within the frame of the project “mapKITE: EGNOS-GPS/GALILEO-based high-resolution terrestrial-aerial sensing system“. The project is funded by the European Commission (EC) through the European Union (EU) “Horizon 2020 Programme for Research and Innovation,” supervised by the GSA on behalf of the EC, and coordinated by GeoNumerics. The mapKITE consortium includes ten organizations from five European countries and Brazil.

    Watch a video here:

    mapKITE: Total 3D mapping – Simultaneous aerial and terrestrial from GeoNumerics on Vimeo.

    Photos: Geonumerics reported

  • Buckeye Mountain, Trimble bring GPS to railways

    Railway technology company Buckeye Mountain and Trimble are working together to provide the railroad industry with advances in GPS solutions such as the Trimble PG200 GNSS receiver.

    The PG200 is a rugged, lightweight and portable receiver to use in rail and intermodal yards to identify safety zones. It also includes auto tracking on critical assets.

    Juno-T41_Grey_WEH_face-WTrimble has also been working with Buckeye Mountain to provide the railroad industry with mobile computing and AEI (railcar automatic equipment identification tags) products.

    Trimble’s Juno T41 R-AEI, an all-in-one rugged AEI reader, is a compatible platform for Buckeye Mountain’s AEI Quick Read application, a basic mobile application that reads AEI tags.

    The T41 keeps workers the required safety distance from railcars while the read range is very responsive.

  • DJI joins Propeller Aero on turnkey solutions

    DJI joins Propeller Aero on turnkey solutions

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


    Drone-maker DJI has partnered with UAV software company Propeller Aero to launch an integrated solution to reduce costs, improve safety and drive operational efficiency in the construction and mining industries.

    The partnership integrates DJI’s commercial-grade aerial platform, the Matrice 100, with Propeller’s cloud-based software specifically designed for surveying and inspection.

    The solution provides enterprises and commercial UAV operators a simplified, quick and efficient way to automate operations and access data. It will enable businesses to accurately perform site measurements and volumetrics and share data seamlessly with just a few clicks, the companies said.

    Rory San Miguel (left) and Francis Vierboom, co-founders and CEOs of Propeller Aero, display the new Aeropoints product. (Photo: Propeller Aero)
    Rory San Miguel (left) and Francis Vierboom, co-founders and CEOs of Propeller Aero, display the new Aeropoints product. (Photo: Propeller Aero)

    Sydney Start-Up. Propeller Aero was founded in 2013 in Sydney, Australia, when Rory San Miguel and Francis Vierboom first got hooked on drone technology. They wanted to bring drones to industries like mining and construction, where they thought the technology was really going to “grow up.”

    They set about joining Australia’s regulated drone industry by applying for their drone pilot licenses. While waiting for the paperwork, they created an online app to share data from their trial flights.

    Figuring out the best ways to process, visualize and use UAV data ended up being more exciting to San Miguel and Vierboom than actually flying the drone.

    Propeller Aero provides cloud-based software that streamlines data processing and simplifies the way data is used and shared. The software package provides web-based geospatial data processing, analytics and instant volumetric calculations for a range of professional applications. It has been adopted by commercial drone operators and enterprise clients in 60 countries.

    Deploying UAVs for surveying and inspection can reduce costs, minimize workplace hazards and improve operations, especially for businesses that operate in quarries, construction sites and asset infrastructure.
    “Being from Australia, Propeller Aero has had the considerable advantage of developing alongside the industries that have been using commercial UAVs since 2002,” said Michael Perry, DJI’s director of strategic partnerships.

    DJI’s Matrice 100. The Matrice 100 platform has DJI’s technology built in, including GPS, the flight controller, the propulsion system, DJI Lightbridge, a dedicated remote controller and a rechargeable battery. The system automatically manages complex tasks required for flight.

  • 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.

  • L-3 completes GPS military code security certification

    L-3 Communications has announced that its next-generation military code (M-code) GPS user equipment has successfully completed the final step in a government security certification process.

    L-3’s M-code GPS features advanced user equipment technology, increasing soldiers’ ability to resist enemy jamming and spoofing and performing significantly better in contested environments. The development and certification of this technology was performed under the Air Force Military GPS User Equipment (MGUE) program led by the GPS Directorate within the Space and Missile Systems Center (SMC) at Los Angeles Air Force Base.

    The certification review was performed by an independent government review team, with a focus on the security design of the L-3 GPS user equipment. The goal of these new security standards is to further protect the integrity of the navigation and timing solutions and provide required safeguards for critical information inside GPS user equipment. Work on this project will be done by L-3 Interstate Electronics Corporation (L-3 IEC), which is part of the Precision Engagement & Training sector within L-3’s Electronic Systems business segment.

    “We are pleased to be the first DoD contractor to complete security certification for our new M-code GPS user equipment,” said Michael T. Strianese, L-3’s chairman and chief executive officer. “L-3 is ahead of the technology curve, and we are delivering critical innovations that have significant applications inside DoD markets and on several U.S. Army initiatives. Timely delivery of these advancements to the warfighter is essential as they respond to current and emerging threats on the battlefield.”

    Based in Anaheim, California, L-3 IEC is provider of positioning, navigation and timing products and solutions and long-term supplier of critical navigation, test instrumentation and missile tracking systems for the U.S. Navy’s Fleet Ballistic Missile (FBM) weapon systems, including the Trident submarine.