Author: GPS World Staff

  • Insitu awarded $71 million Blackjack UAS contract by NAVAIR

    Insitu awarded $71 million Blackjack UAS contract by NAVAIR

    Insitu has been awarded a US$71 million follow-on contract to produce six RQ-21A Blackjack unmanned aerial systems (UAS), with options for two more, from U.S. Navy Naval Air Systems Command (NAVAIR).

    The RQ-21A is recovered with the flight recovery apparatus cable aboard the San Antonio-class amphibious transport dock USS Mesa Verde after its first flight at sea. The tests were held in the Gulf of Mexico on Feb. 10, 2013.
    The RQ-21A is recovered with the flight recovery apparatus cable aboard the San Antonio-class amphibious transport dock USS Mesa Verde after its first flight at sea. The tests were held in the Gulf of Mexico on Feb. 10, 2013.

    The RQ-21A Blackjack has significantly larger payload mass, volume and power than other small UAS currently being used in theater, according to Insitu, a subsidiary of The Boeing Company. The system includes electro-optic and mid-wave infrared sensors with a laser rangefinder and infrared marker.

    The Low Rate Initial Production (LRIP) Lot V contract also includes an option year for nine Full Rate Production (FRP) systems. The FRP decision review is expected this fall.

    “This contract award paves the road for Blackjack’s continued and future fleet integration,” said Col. Eldon Metzger, program manager for the Navy and Marine Corps Small Tactical Unmanned Aircraft Systems Program Office. “It is at the tactical edge for Marine and Navy units and the foundation to support future system enhancements.”

    “Blackjack delivers an organic intelligence, surveillance and reconnaissance UAS that is runway-independent and founded on an open architecture that allows for implementation of innovative payloads to meet critical operational demands,” said Ryan M. Hartman, Insitu’s president and CEO. “We are proud to provide the sailors and marines with reliable, capable systems that support their warfighting needs.”

    NAVAIR awarded the STUAS Engineering Manufacturing Development contract to Insitu in 2010 to begin the development of RQ-21A Blackjack, a variant of the company’s Integrator unmanned system. The program achieved Milestone C in 2013, delivered the first LRIP system in 2014, and achieved initial operational capability in January.

  • Demonstration tests positioning in the far north

    Demonstration tests positioning in the far north

    News from the European Space Agency

    A sea-based test is demonstrating the potential of extending satnav augmentation coverage into north polar regions, offering a safety-of-life standard of navigation performance to users including shipping or aircraft in flight.

    Norwegian research vessel Gunnerus, owned by the Norwegian University of Science and Technology, is equipped to pick up satnav signals from GPS and GLONASS as well as augmentation signals specially generated for the test, modeled on Europe’s existing European Geostationary Navigation Overlay System (EGNOS).

    Norwegian research vessel Gunnerus, owned by the Norwegian University of Science and Technology. (Photo: ESA)
    Norwegian research vessel Gunnerus, owned by the Norwegian University of Science and Technology. (Photo: ESA)

    Gunnerus is making use of the signals during five days of sailing off Trondheim. The demonstration is part of the Arctic Test Bed project, conducted within the European Global Navigations Satellite System Evolutions Programme (EGEP) of ESA.

    The ESA-designed EGNOS improves the precision of US GPS signals over most European territory, while also providing continuous and reliable updates on their integrity.

    A 40-strong network of ground monitoring stations perform an independent measurement of GPS signals, so that corrections can be calculated and then passed to users immediately via a trio of geostationary satellites. The result is a several-fold increase in precision.

    “Simply due to Earth’s curvature, EGNOS signals are not visible above about 70 degrees north, but they are needed to support polar routing,” explains Marco Porretta, overseeing the Arctic Test Bed project.

    To investigate possible methods for improving Satellite-Based Augmentation System (SBAS) performance in this Arctic region, the test campaign will assess the benefits of augmentation for various types of satnav signals: single-frequency GPS; dual-frequency GPS; and dual-constellation dual-frequency, where GPS signals are combined with those of its Russian counterpart, thus increasing the number of observations.

    “The planned next-decade upgrade of EGNOS, along with other augmentation systems operated over other continents (such as the U.S. equivalent Wide Area Augmentation System, WAAS), will perform multi-constellation augmentation as standard,” adds Marco. “That means data from this test case should be especially valuable to support interoperability between future augmentation systems.”

    The Arctic Test Bed makes use of some EGNOS reference stations along the north of Europe, along with additional stations in locations including Greenland, Jan Mayen Island, Spitsbergen and Norway.

    Model of the well-known Oct. 30, 2003, Halloween solar storm produced by the MIDAS tomographic ionospheric model from the University of Bath. (Image; ESA)
    Model of the well-known Oct. 30, 2003, Halloween solar storm produced by the MIDAS tomographic ionospheric model from the University of Bath. (Image; ESA)

    Marco explains, “These stations will allow specific monitoring of the ionosphere — the electrically active segment of Earth’s atmosphere — in the Arctic region. The ionosphere is significant because it is an important source of satnav signal delay, or in some cases can cause receivers to lose signal lock due to ionospheric scintillations.”

    With geostationary satellites out of sight, navigation corrections for the Arctic Test Bed will be transmitted via terrestrial radio. In future, an operational version of the system could either stick with this solution or rely on other satellite-based means of dissemination from non-geostationary orbit.

    The all-important generation of the augmentation correction message will take place at a processing center in Hønefoss, Norway, using adapted EGNOS algorithms.

    An operational version of the Arctic Test Bed could potentially extend augmentation coverage to as high as 85 degrees north, as high as Greenland, extending to the edge of WAAS coverage.

    The Arctic Test Bed project was initiated by ESA, with Kongsberg Seatex serving as prime contractor, GMV Aerospace and Defence, Thales Alenia Space France, Logica, Terma, the Norwegian Mapping Authority, Technical University of Denmark, Septentrio and the University of Calgary.

  • u-blox unveils untethered dead-reckoning receiver for vehicles

    u-blox unveils untethered dead-reckoning receiver for vehicles

    UB049_u-blox_EVA-M8E_Urban_sky_view-Wu-blox’s has revealed its latest receiver, the miniature Untethered Dead Reckoning (UDR) EVA-M8E.

    Measuring 7 millimeters by 7 millimeters, the EVA-M8E is designed to provide positioning for small-sized vehicle trackers. It provides untethered dead-reckoning performance without any electrical connection to the vehicle, using low-cost inertial sensors.

    The EVA-M8E offers continuous positioning even before GNSS signals have been received, improves accuracy when GNSS signals are weak, and enables continuous low-latency positioning at 20 hertz to track highly dynamic events, the company said.

    The EVA-M8E enables maximum flexibility in end-product design, requiring only a direct connection with the micro-electro-mechanical (MEMS) inertial sensor and SQI Flash memory. It adapts automatically to installations anywhere within a vehicle. It supports very low stand-by current consumption.

    UDR with adaptive signal strength compensation helps reduce the effects of small antenna and poor installations, which means the EVA-M8E can support extremely small after-market road-vehicle applications such as usage-based insurance and theft alarms.

    Along with all u-blox M8 receivers, the EVA-M8E supports GPS, GLONASS, BeiDou, Galileo, QZSS and SBAS constellations. It further provides superior positioning accuracy in urban canyons, tunnels and parking garages.

    “The EVA-M8E enables innovative products and services for high-volume after-market telematics,” said Andrew Miles, product manager of dead reckoning at u-blox. “It also complements the main highlight of the NEO-M8U UDR module, which is ease-of-use.”

    The C93-M8E enables immediate evaluation of the u-blox’s Untethered Dead Reckoning technology in most vehicle applications.

    EVA-M8E samples and the C93-M8E are available now. The modules will be in full production in the fourth quarter of 2016.

  • Hemisphere GNSS reveals new, improved Eclipse OEM boards

    Hemisphere GNSS reveals new, improved Eclipse OEM boards

    Hemisphere GNSS has announced the Eclipse P326 and P327, first in a line of new and refreshed low-power, high-precision, position and heading OEM boards. The boards are the latest addition to the company’s Eclipse series of products.

    The multi-frequency, multi-GNSS Eclipse P326 and P327 are based on an innovative platform that integrates L-band and receives Atlas GNSS corrections on a single small board, the company said. Designed with this new platform, the overall cost, size, weight and power consumption of the P326 and P327 are significantly reduced.

    The Hemisphere GNSS P326 board.
    The Hemisphere GNSS P326 board, a drop-in upgrade for many Hemisphere products.

    The P326 and P327 support 394 channels and are scalable board solutions that offer centimeter-level accuracy in either single-frequency or full performance multi-frequency, multi-GNSS, Atlas-capable mode.

    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.

    “Our continuous commitment to innovation in GNSS solutions allows our OEM partners to take their products to the next level,” said Jennifer Keenan, product marketing manager at Hemisphere GNSS. “With integrated L-band for Atlas support, future output rates of 50 Hz, and tracking of 394 channels in such a small form factor, our OEM boards have never been this appealing to system integrators.”

    The latest technology platform enables simultaneous tracking of all satellite signals including GPS, GLONASS, BeiDou, Galileo and QZSS, which the company said makes it a robust and reliable solution, while the updated power-management system efficiently governs the processor, memory and ASIC — important for multiple integration applications such as handheld and battery-powered devices.

  • New partnership seeks to develop inspection drones

    New partnership seeks to develop inspection drones

    Daniel Sällstedt (left), CEO of Sky Eye Innovations, and Erik Eklund, Business Development Manager of Spacemetric, discuss their new partnership to develop inspection drones. (Photo: Patrik Hellström Sky Eye Innovations)
    Daniel Sällstedt (left), CEO of Sky Eye Innovations, and Erik Eklund, business development manager of Spacemetric, discuss their new partnership to develop inspection drones. (Photo: Patrik Hellström, Sky Eye Innovations)

    To meet the growing demand for advanced industrial airborne inspection tools, Sky Eye Innovations and Spacemetric have entered a strategic partnership to provide turnkey solutions for collection, storage and management of data from airborne sensors.

    Sky Eye Innovations produces a UAV solution with capabilities to control advanced sensing technologies, and Spacemetric is a provider of image data management software solutions.

    More and more organizations see the enormous potential for increased efficiency in inspection, monitoring, asset assessment and preventative maintenance through use of drones (UAVs) equipped with various sensor technologies. The huge growth in drone use has been helped by software tools that support data collection and data processing, many of them provided through the cloud.

    The new partnership connects a leading image management tool with a very high-performance UAV solution built for daily use in the most demanding conditions. The result is an integrated and highly effective inspection tool for preventative maintenance and decision making that uniquely combines imagery from UAVs, satellites and handheld sensor units.

    “At Spacemetric we’ve actively developed our software to handle the growing volumes of data coming from UAVs. We’ve actively been looking for a UAV partner and are very impressed by Sky Eye Innovations and their unique offering, which is much in demand,” said Erik Eklund, who is responsible for Spacemetric’s new Airborne business area.

    The partnership creates a unique set of expertise. Spacemetric specializes in solutions to manage large volumes of imagery and streamline the process of efficient capture and storage to accelerated sharing and delivery of geospatial imagery for users like the Swedish Air Force.

    Sky Eye Innovations contributes with development and manufacturing of extremely performant UAV platform solutions that alone in the world are able to lift and control FLIR System’s most advanced cameras used for industrial inspection and monitoring tasks.

    “Sky Eye Innovations are constantly working on improvements  and looking at new ways to address the challenges the industry is experiencing. Our ultimate goal is to offer cost-effective solutions that drive productivity and improve working conditions. To achieve this we need our UAV platform to excel and collaboration with world-leading expertise is critical to providing high quality customized solutions that are in demand. Therefore we are proud to announce our partnership with Spacemetric, and the next generation of industrial inspection tools this will lead to,” said Daniel Sällstedt, founder and CEO of N.M.M Innovation Sweden AB (also known as Sky Eye Innovations).

     

  • Sentera launches fixed-wing Phoenix 2 imaging UAV

    Sentera launches fixed-wing Phoenix 2 imaging UAV

    Sentera LLC, a global provider of UAV hardware, sensors and data management platforms, has launched the Phoenix 2 fixed-wing unmanned aerial vehicle (UAV). The Phoenix 2 is light-weight and highly durable, and can follow precise grid patterns.

    “The Phoenix 2 brings a level of precision and accuracy to UAVs that hasn’t been seen before,” said Todd Colten, chief aerospace engineer for Sentera. “Users can now collect highly detailed data quickly, and with complete certainty about its accuracy.” Colten went on to describe the professional-grade autopilot: “The grid pattern you specify is mapped pre-flight. The drone knows exactly what line to follow to get the exact looping radius, and the exact flight level needed for perfect tiling.”

    Sentera Phoenix 2.
    Sentera Phoenix 2.

    At only 4 pounds, the Phoenix 2 is easily hand-launched in just a few steps, and can carry multiple sensor options for up to an hour of flight time. The professional-grade autopilot is part of what makes the precision possible. It constantly auto-calculates and auto-optimizes according to the grid pattern specified to ensure the data collected meets exact specifications.

    “Growers are using the Phoenix 2 with agriculture-specific sensors to collect RGB, NIR, and NDVI imagery. That imagery is so precise – [the growers] tell us they’re targeting and treating specific parts of their fields, and then they’re using fewer chemicals, saving money and increasing yields,” continued Colten. “Follow-up flights can be programmed to use the same pattern for exact data comparison at multiple times throughout the growing season. We’re getting great feedback from our customers.”

    Attributes

    Payload Solutions: The Phoenix 2 is a highly-versatile UAV that accepts multiple sensors, including the Sentera Double 4K Sensor, providing true RGB and normalized difference vegetation index (NDVI) data in a single flight. The Sentera Quad Sensor, a multi-spectral six-band imager with red edge capabilities is also popular in agriculture applications. Other compatible mapping sensors include the Sentera-Q for high-resolution orthomaps and the Radiometric Thermal Sensor, which quickly builds high-resolution true temperature maps. Sentera also offers EO and IR gimbaled payloads for live video public safety missions.

    Precision: Up to a 60-minute endurance and cruise speed of 30 mph, the Phoenix 2 is capable of covering broad areas that other UAVs of the same size cannot. The highly reliable and accurate Kestrel OnBoard autopilot ensure images are captured with precise, even spacing and overlap that is auto-calculated and can be adjusted by the user at the click of a button.

    Ease-of-Use: Effortlessly hand-launched in just a few steps, the 4-pound Phoenix 2 flies autonomously on a predetermined flight pattern that can be updated during flight by accessing the easy-to-use ground station software. Upon completion, the Phoenix 2 automatically returns to safely land.

    End-to-End Solution: The Phoenix 2 includes the aircraft, ground station, transportation cases, batteries, chargers, and software with multiple training options available. Sentera offers a wide variety of sensors, ensuring every application has the perfect imagery solution. Sentera’s AgVault and OnTop Open Software Platforms manage the multitude of images and data collected during flight, and allow near-real time reading and analysis of the data, including working with other data sources via APIs.

  • FAA: Commercial drone use to take flight

    FAA: Commercial drone use to take flight

    Today, the Federal Aviation Administration (FAA) has finalized the first operational rules for routine commercial use of small unmanned aircraft systems (UAS), opening pathways towards fully integrating UAS into the nation’s airspace.

    These new regulations work to harness new innovations safely, to spur job growth, advance critical scientific research and save lives, the FAA said in a press release.

    “We are part of a new era in aviation, and the potential for unmanned aircraft will make it safer and easier to do certain jobs, gather information, and deploy disaster relief,” said U.S. Transportation Secretary Anthony Foxx. “We look forward to working with the aviation community to support innovation, while maintaining our standards as the safest and most complex airspace in the world.”

    According to industry estimates, the rule could generate more than $82 billion for the U.S. economy and create more than 100,000 new jobs over the next 10 years.

    The new rule, which takes effect in late August, offers safety regulations for unmanned aircraft drones weighing less than 55 pounds that are conducting non-hobbyist operations.

    The rule’s provisions are designed to minimize risks to other aircraft and people and property on the ground. The regulations require pilots to keep an unmanned aircraft within visual line of sight. Operations are allowed during daylight and during twilight if the drone has anti-collision lights. The new regulations also address height and speed restrictions and other operational limits, such as prohibiting flights over unprotected people on the ground who aren’t directly participating in the UAS operation.

    The FAA is offering a process to waive some restrictions if an operator proves the proposed flight will be conducted safely under a waiver. The FAA will make an online portal available to apply for these waivers in the months ahead.

    “With this new rule, we are taking a careful and deliberate approach that balances the need to deploy this new technology with the FAA’s mission to protect public safety,” said FAA Administrator Michael Huerta. “But this is just our first step. We’re already working on additional rules that will expand the range of operations.”

    Under the final rule, the person actually flying a drone must be at least 16 years old and have a remote pilot certificate with a small UAS rating, or be directly supervised by someone with such a certificate. To qualify for a remote pilot certificate, an individual must either pass an initial aeronautical knowledge test at an FAA-approved knowledge testing center or have an existing non-student Part 61 pilot certificate. If qualifying under the latter provision, a pilot must have completed a flight review in the previous 24 months and must take a UAS online training course provided by the FAA. The TSA will conduct a security background check of all remote pilot applications prior to issuance of a certificate.

    Operators are responsible for ensuring a drone is safe before flying, but the FAA is not requiring small UAS to comply with current agency airworthiness standards or aircraft certification. Instead, the remote pilot will simply have to perform a preflight visual and operational check of the small UAS to ensure that safety-pertinent systems are functioning property.  This includes checking the communications link between the control station and the UAS.

    Although the new rule does not specifically deal with privacy issues in the use of drones, and the FAA does not regulate how UAS gather data on people or property, the FAA is acting to address privacy considerations in this area. The FAA strongly encourages all UAS pilots to check local and state laws before gathering information through remote sensing technology or photography.

    As part of a privacy education campaign, the agency will provide all drone users with recommended privacy guidelines as part of the UAS registration process and through the FAA’s B4UFly mobile app. The FAA also will educate all commercial drone pilots on privacy during their pilot certification process; and will issue new guidance to local and state governments on drone privacy issues. The FAA’s effort builds on the privacy “best practices” the National Telecommunications and Information Administration published last month as the result of a year-long outreach initiative with privacy advocates and industry.

    Part 107 will not apply to model aircraft.  Model aircraft operators must continue to satisfy all the criteria specified in Section 336 of Public Law 112-95 (which will now be codified in Part 101), including the stipulation they be operated only for hobby or recreational purposes.

    Visit the FAA website for more information on the FAA and UAS.

    Reaction

    Brian Wynne, president and CEO of the Association for Unmanned Vehicle Systems International (AUVSI), issued the following statement:

    “Today’s release of the final small UAS rule by the FAA is a critical milestone in the integration process, and a long-awaited victory for American businesses and innovators. It establishes a clear regulatory framework and helps to reduce many barriers to civil and commercial operations, allowing anyone who follows the rules to fly in the national airspace.

    “Accelerating civil and commercial UAS operations will not only help businesses harness tremendous potential of UAS, it will also help unlock the economic impact and job creation potential of the technology. Once UAS are fully integrated into the national airspace and become more widely used, the industry will continue to grow as a job creator and generate significant economic impact.

    “Our economic report projects that the expansion of UAS technology will create more than 100,000 jobs and generate more than $82 billion to the economy in the first decade following integration. Whether it’s aiding search and rescue missions, advancing scientific research, responding to natural disasters, or helping farmers care for their crops, UAS are capable of saving time, saving money and most importantly, saving lives.

    “The final rule allows for many uses of small UAS and a streamlined waiver process to expand applications. We are looking forward to additional rulemaking which has already begun with AUVSI’s support, to enable more complex operations. We need to make sure we are doing all we can to support the UAS industry’s growth and development; otherwise we risk stunting a still-nascent industry and restricting the many beneficial uses of this technology.”

    National Association of Realtors (NAR) President Tom Salomone called the rules a win for the industry.

    “We’ve worked hard to strike a responsible balance that protects the safety and privacy of individuals, while also ensuring Realtors can put drones to good use,” said Salomone, broker-owner of Real Estate II Inc. in Coral Springs, Florida. “That effort just took another big step forward. The rules unveiled today will help more real estate professionals take flight, making the efficiency and innovation that drones have to offer available to a much broader base of operators.”

    The FAA’s announcement marks a long-fought victory for Realtors. Since early 2014, NAR has worked with the FAA and industry partners to integrate drones into the national airspace for commercial use. NAR wrote to the FAA on numerous occasions to weigh in on the final Small UAS Rule, and testified before Congress to support the use of drones in real estate.

    Despite eliminating the requirement that operators hold a pilot’s license, anyone looking to fly drones commercially will still have to comply with strict requirements designed to protect people on the ground.

    Drones are useful in a number of real estate-related applications, including marketing properties, assisting with appraisals, facilitating insurance claims and overseeing utility work. While many real estate professionals with pilot’s licenses have already put drones to use in these arenas, the new rules are expected to open the door for additional operators to do the same.

    Despite the significant progress made in the FAA’s final rule, NAR’s work on this issue will continue. NAR is calling for eased restrictions on a “micro” category of drones; drones in this category weigh less than four pounds and present a much smaller safety risk than certain drones in the under-55 pound category covered by the rule released today.

    NAR also believes there is an ongoing need for a drone strategy that allows for “beyond visual line-of-sight” flights, or those where the operator cannot physically see the drone throughout the entire operation. These flights are particularly important for aerial photography across large buildings or tracts of land.

    Salomone praised the FAA for their efforts in crafting the rule.

    “Getting here wasn’t easy, and the FAA is to be commended for listening to the concerns of real estate professionals throughout the rulemaking process,” he said. “We’re entering a new stage of drone use in real estate, and no doubt there will be additional questions and challenges ahead. NAR will continue educating its members on issues important to the safe, responsible use of drones so they can grow their business and better serve their clients.”

    The National Association of Realtors, “The Voice for Real Estate,” is America’s largest trade association, representing more than 1.1 million members involved in all aspects of the residential and commercial real estate industries.

  • Spirent announces portable, high-resolution system for navigation testing

    Spirent announces portable, high-resolution system for navigation testing

    Spirent-GSS6450-WSpirent Communications plc, a manufacturer of test equipment and services for improving positioning, navigation and timing (PNT) system performance, today announced the new Spirent GSS6450 RF record and playback system.

    RF record and playback systems capture the rich, real-world radio frequency environment and bring it into the lab. This enables receiver, system and application technology developers to optimize performance and robustness.

    The GSS6450 uniquely combines high-resolution, 16-bit-wide band sampling in a highly portable unit measuring 22 x 20 x 7.3 centimeters and weighing only 2 kilograms. The high-resolution capability means it can capture a more detailed RF environment, including RF interference, complex atmospheric scintillation and space weather impacts on the GNSS signal, so users can improve receiver performance against these signals.

    With its compact size, the GSS6450 is designed for capturing data in the field such as on foot or in vehicles, and easily portable when traveling.

    “The GSS6450 offers high resolution in a small self-contained battery powered unit,” said Rahul Gupta, commercial segment lead for Spirent’s positioning division. “Until now, high-resolution record and playback systems have been mains powered and not designed for in-field use. The GSS6450 changes that, enabling a range of signal powers and characteristics to be sampled, recorded, brought into the lab and replayed.”

    It offers a choice of 4-, 8- or 16-bit I/Q quantization, and a 10-, 30- or 50-MHz recording bandwidth. Up to four GNSS frequency bands can be recorded simultaneously, making the GSS6450 suitable for a wide range of applications, from testing new devices, such as wearable tech and unmanned vehicles, to chipset development using new GNSS frequencies, and high-end system test.

    The 16-bit I/Q quantization option gives up to 96 dB of dynamic range, so it also can be used for interference analysis and improving receiver resilience to GPS jamming.

    The GSS6450 is also capable of recording additional non-RF sources including inertial sensor outputs, dead reckoning, and up to four video streams. Long recordings are achieved using up to 4 terabytes of on-board storage. An additional 8 terabytes of RAID storage can be added externally.

    The Spirent GSS6450 is available now.

  • Geneq announces new iSXBlue RTN RTK app for iOS

    Geneq announces new iSXBlue RTN RTK app for iOS

    iSXBlue-RTN-iPad-Pro-Mockup-Satellites-WGeneq has introduced a new NTRIP client app for iOS that works with iSXBlue receivers.

    iSXBlue RTN is used alongside other geospatial information systems (GIS) and surveying apps to obtain real-time centimeter accuracy on an iPhone or iPad.

    Key features include real-time kinematic (RTK) alarm configurations with NTRIP and DIP modes. The easy-to-use app allows users to update their receiver with the latest firmware, the company said.

    Other features include real-time map location with accuracy and satellite skyplot for GPS, GLONASS and SBAS. The app supports all current and future constellations such as BeiDou and Galileo, the company said.iSXBlue and SXBlue GPS Receiver users include GIS and surveying professionals in industries such as agriculture, environmental, government, mining, natural resources, surveying and utilities.

    isxblue_page_accueil
    iSXBlue for iOS
  • Report: Counter UAV market to generate $2.4 million this year

    AUDS System
    AUDS System

    A new report from business intelligence provider Visiongain offers market insight and analysis of the emerging counter UAV (C-UAV) market. In “Counter UAV (C-UAV) Technologies Market 2016-2026,” Visiongain assesses that the C-UAV market will generate revenues of $2,483 million in 2016.

    In May 2016, Blighter Surveillance Systems, Chess Dynamics and Electronic Control Systems had their AUDS C-UAV system selected by the U.S. Federal Aviation Administration for evaluation at U.S. airports as part of its Pathfinder Program.

    Visiongain’s report provides an objective analysis of how the AUDS selection will impact companies and the industry more broadly. It provides clear detailed insight into the global C-UAV market and reveals the key drivers and challenges affecting the market.

    The 205-page report includes 249 in-depth tables, charts and graphs, plus an exclusive interview with Mark Radford, CEO of Blighter Surveillance Systems.

    To see a report overview, email Sara Peerun at [email protected].

  • Harxon releases new GNSS + L-band antenna

    Harxon releases new GNSS + L-band antenna

    Harxon, a high-precision GNSS antenna manufacturer in China, has released a new GNSS + L-band antenna.

    The GPS1000 receives GPS L1/L2/L5, BDS B1/B2/B3, GLONASS L1/L2, Galileo E1/E2/E5a/E5b and L-band frequencies, which can be used in land survey, marine survey, channel survey, seismic monitoring, bridge survey, container operation and agriculture applications. Customers can use the same antenna for GPS only or dual-constellation applications.

    It has high gain and wide beam width to ensure the signal receiving performance of satellite at low elevation angle. The phase center of this antenna remains constant as the azimuth and elevation angle of the satellites change. Signal reception is unaffected by the rotation of the antenna or satellite elevation, so placement and installation of the antenna can be completed with ease.

    The GPS1000 is housed in a IP67 waterproof enclosure for permanent installation, and maintains good performance in a variety of harsh environments. Plus, it can be customized by Harxon for the best solution for customers. Orders can be placed at www.harxon.com.

    The new Harxon GPS1000 antenna.
    The new Harxon GPS1000 antenna.
  • Timing in Mission-Critical Systems

    Broadcast Date: March 31, 2016
    On-Demand Available Until: March 31, 2017
    Sponsor: Microsemi
    Summary: You’ll hear from our expert speaker panel about real-life timing challenges in mission-critical applications, such as satellite and military communications, test ranges and radar; time transfer accuracy and stability via GPS or PTP; and what technologies to look for in your next-generation instrument class clock to cost-effectively deliver accurate and stable time and frequency signal types, signal output flexibility and robust security.
    Speakers: Paul Skoog, Microsemi Corporation; Scott Williams, G.L. Williams Associates; and James L. Wright, Range Generation Next