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Quectel Wireless Solutions said today that it completed a data call over its 5G millimeter wave (mmWave) module that fully complies with 3GPP Release 15 5G NR standards.

The 5G data call on Sept. 25 was made over a Quectel RM510Q-GL 5G module based on Keysight’s 5G testing device in a lab, paving the way for the upcoming 5G mmWave field tests and commercial deployment of 5G internet of things (IoT) projects.

In addition, the move is a testament to Quectel’s leadership in 5G research and development capability and IoT innovations.

Tailored for IoT/eMBB (enhanced mobile broadband) applications, Quectel RM510Q-GL features the Snapdragon X55 5G modem and supports mmWave and sub-6 GHz frequencies in both 5G standalone (SA) and non-standalone (NSA) operations.

The M.2 module covers nearly all the mainstream carriers worldwide. Designed backward compatible with LTE-A and 3G networks, RM510Q-GL integrates multi-constellation GNSS receiver, eSIM, as well as high-speed interfaces such as USB 3.1 and PCIe 3.0, which make it suitable for globally deployed mobile devices including Always Connected PCs (ACPC), industrial PDAs, mobile gateways and more.

AsusTek Computer Inc., a Taipei-based multinational computer company, is planning to use RM510Q-GL for its next-generation 5G mmWave laptops, according to Quectel. Leveraging its industry leading 5G modules and local technical support, Quectel will accelerate the time-to-market for AsusTek to enhance its competitiveness in the 5G era.

Quectel will showcase commercial 5G modules at the Qualcomm 5G Summit in Barcelona, Oct. 14-16, and MWC Los Angeles (Booth 1236), Oct. 22-24.

By Thomas Brading, Army News Service

REDSTONE ARSENAL, Ala. — Sixty-two of the first iteration of mounted anti-jam GPS devices were equipped into light armored vehicles in Germany over the past month, with thousands more scheduled to be installed into U.S. European Command vehicles by 2028, said Army leaders in charge of location data on future battlefields.

The Mounted Assured Precision Navigation & Timing System — known as MAPS — was developed to provide trusted positioning, navigation and timing (PNT) to a platform, such as Stryker vehicles, by pairing a GPS receiver with an anti-jam antenna, said Col. Nickolas Kioutas, PNT project manager.

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Read more about MAPS, along with other anti-jam systems, here. Also look for our anti-jam feature coming in the December issue of GPS World magazine.

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The electronic technology comes amid the Army’s vision for 2028, to best prepare soldiers for possible warfare with near-peer competitors, who have used electronic warfare to disrupt communications vital to Western forces in recent years.

This year, more than 300 Stryker vehicles, all from the 2nd Cavalry Regiment, are expected to be fielded with MAPS technology, said Willie Nelson, the director of the Army’s Assured PNT Cross-Functional Team.

Upgraded first-generation and second-generation technology is also expected to be unveiled in the future.

The Army also plans to equip armored brigades with the technology, and put MAPS in vehicles such as the Bradley Fighting Vehicle, M1 Abrams tank, and the M109 Paladin self-propelled howitzer. After those “priority vehicles,” the Army will evaluate the mounted device in second-tier priority vehicles, Nelson said.

In the past, armored vehicles have used multiple Defense Advanced GPS receivers, known as DAGR devices.

MAPS replaces multiple DAGR devices with one “really good system,” said Kioutas. The new system uses a chip-scale atomic clock for timing, Selective Availability and Anti-Spoof Module, or SAASM, for GPS, and anti-jamming antenna to distribute PNT information.

In addition, future iterations of MAPS will include non-GPS sensors by fusing GPS with alternate navigation and timing technologies to ensure accurate PNT that soldiers can trust while operating in various threat or denied environments, according to a statement.

A single-point GPS also creates multiple practical benefits for soldiers, such as less maintenance and system key-failing, Kioutas said, adding many of his team’s decisions are based on Soldier feedback, because listening to them today helps prepare them for tomorrow.

Simply put, “MAPS continues to work whenever a GPS signal is weakened or compromised,” he said.

“This is the first technology equipping for the Assured Positioning, Navigation and Timing Cross-Functional Team, and one of the first for Army Futures Command,” Kioutas said.

Nelson noted that they’re “working in parallel with both mounted vehicles and dismounted soldier’s PNT gear.”

Earlier this year, a requirements document for the dismounted soldier’s PNT was signed. Now, currently in the prototyping phase, the latest iteration of a dismounted GPS receiver can send secure PNT data wired or wirelessly, Kioutas said.

“A lot is happening here, a lot of good success,” Nelson said, adding, the most important thing for his team is to get the best equipment to “warfighters on the front lines and getting their feedback rolled back into the next generation.”

Nelson will host a Warrior’s Corner presentation Oct. 15 focusing on the PNT CFT’s Tactical Space Line of Effort, at the Walter E. Washington Convention center in Washington, D.C.

The United States Federal Aviation Administration (FAA) announced Oct. 11 that all 20,000 rebates offered to general aviation aircraft owners to equip their aircraft with Automatic Dependent Surveillance – Broadcast (ADS-B) Out have been issued and are no longer available.

Aircraft owners who have already reserved their rebate, but not claimed it yet with installation, will be allotted the specified time needed to complete the requirements for the rebate.

Starting Jan. 1, 2020, ADS-B Out avionics will be required for aircraft flying in certain controlled airspace. ADS-B is a state-of-the-art surveillance system that enables air traffic controllers to track aircraft with greater accuracy and reliability.

The FAA first launched the $500 ADS-B rebate program in September 2016 to encourage owners of fixed-wing, single-engine piston aircraft to equip in advance of the Jan. 1, 2020 deadline and take advantage of ADS-B benefits.

The FAA has reiterated that the deadline will not change.

A committee of the UK’s House of Commons issued a report Oct. 8 calling for greater drone regulations, including registration, drone ID transmission, and geofencing around sensitive locations.

In the 73-page report “Commercial and Recreational Drone Use in the UK,” the Science and Technology Committee made numerous recommendations to the government.

In its summary, it recalls drone sightings at Gatwick Airport in December 2018, which caused “significant disruption and highlighted the need for further recognition of the substantial rise in the purchase and use of commercial and civilian drones more widely.”

Restricted Airspace

The report calls for more studies, such as on airport/drone collisions. It recommends that the government complete an assessment of the risks that drones pose to manned commercial aircraft and publish the findings by the end of 2020.

“The committee is concerned that there is no agreed position on the likely consequences of a drone-airplane impact,” the report says.

The committee also recommends temporary drone flight restriction zones around helicopter landing zones and said the government should consider geo-fencing as a compulsory measure around prisons and high security areas.

“We recognise the importance of extending Flight Restriction Zones to five kilometres. However, these restriction zones are not clearly or consistently enforced,” the report states. “The lack of a standardised process results in inconsistent denials and permissions being granted to those applying. This is unacceptable.”

“The government should commission the production of a standardised and unified system through which drone operators can request access to Flight Restriction Zones. This could be achieved by working with National Air Traffic Services on its development of an Airspace User’s Portal. This should be completed no later than summer 2020.”

Drone Registration

The report recommends that the government begin a UAV registration system, enabling identification of lawful drone operators. Those registering would also have to pass a knowledge test. It also recommends that drones be “electronically conspicuous” with some form of electronic ID within two years. Both ID and geofencing should be standard in drones, the report said, with penalties for disabling these features.

If a drone user doesn’t register, “We recommend a sliding scale of penalties for failure to register, starting with a warning, and culminating in a fine and a prison sentence,” the report states.

BVLOS and UTM tech testing

A beyond-visual-line-of-sight (BVLOS) testing facility should be established so that unmanned traffic management (UTM) systems and related technologies can be tested, the report recommends.”Clear plans should be set out for this as soon as possible and further testing should begin no later than Summer 2020.”

The report concludes, “The government should produce a white paper by summer 2020 that outlines the vision for how drones will be integrated into UK communities over the coming years.”

The Riegl miniVUX-2UAV is a lightweight airborne laser scanner designed specifically for integration with unmanned aerial vehicles and systems.

Riegl added the new miniaturized UAV sensor to its portfolio of professional solutions for UAV-based surveying.

The sister type of the miniVUX-1UAV sensor, the miniVUX-2UAV offers 100 kHz and 200 kHz PRR. With the 200-kHz PRR, the sensor provides up to 200,000 measurements per second, and thus a dense point pattern on the ground for UAV-based applications that require the acquisition of small objects.

The Riegl miniVUX-2UAV makes use of Riegl waveform lidar technology, allowing echo digitization and online waveform processing. Multi-target resolution is the basis for penetrating dense foliage, and the wavelength is optimized for the measurement of snowy and icy terrain.

In addition to the stand-alone version of the miniVUX-2UAV, Riegl also offers fully-integrated solutions.

Kinesis is equipping a fleet of luxury vehicles with advanced telematics for the 2019 European Open being held Oct. 13-20 in Antwerp, Belgium.

The European Open has attracted top players including Gael Monfils who is ranked 12th in the world, Belgium player David Goffin and former Wimbledon champion Andy Murray.

Fitted to vehicles supplied by Jaguar, Kinesis vehicle tracking will provide real-time visibility of vehicle movements for logistics, security and safety. Kinesis will fit the fleet with GPS devices that transmitting accurate and up-to-the-minute vehicle locations along with driver assessment data, giving 24/7 visibility of the tournament vehicles from any internet connected device.

Kinesis is working with Tennium, a global tennis platform company that owns the ATP250 tournaments in Antwerp and Buenos Aires and represents a number of world-class players.

The Jaguar Land Rover-supplied vehicles will include high-end cars, limousines and minibuses and will be used to collect players from the airport and transport them between official hotels and the Lotto Arena. The fleet will also be used to transport ATP officials, invited guests and VIPs.

“Knowing where each vehicle is, where it is headed and at what time it is expected to arrive allows us to meticulously plan the transport of some of biggest names in tennis,” commented Karl Van Parys, logistics and transportation manager at Tennium. “With such high-profile sportsmen it is imperative that they arrive on court in good time and relaxed, and the Kinesis system will help us achieve this.”

The Kinesis telematics intelligence will be used by organisers to plan journeys in accordance with a demanding tournament schedule. With visibility from desktops, tablets and mobile devices, the team can respond, in real time, to changing logistics requirements as play unfolds. Kinesis can also deliver driver performance data, including speeding, harsh braking and accelerating and idling, which can be used to improve driver behaviour for health and safety.

“It is a real honour to be involved in such as prestigious event and work alongside some of the most well-known names in the world of tennis,” added Greville Coe, Group Managing Director of Kinesis. “The use of Kinesis telematics to inform decisions relating to tournament logistics as well as player safety and security, shows just how seriously the organisers take their responsibilities.”

U-blox has collaborated with Molex on the Modular Automotive Connectivity (MAX) Platform for intelligent vehicles.

The NEO-M8L and TOBY-L4  modules, which are built into the MAX connectivity platform, support the reception and transmission of data over the mobile network to the backend, enabling mobile internet access, in addition to supporting positioning. The solution can determine the position not only via GPS but also via Galileo, Beidou and GLONASS.

Molex is a Tier 1 system integrator and supplier of high-speed networking, datacom, rugged industrial and automotive solutions that enable innovative architecture design and development for the intelligent vehicles.

Molex will demonstrate MAX in booth 151 at ELIV Oct. 16-17 in Bonn, Germany.

The automotive-grade GNSS module NEO-M8L supports positioning, so that the ECU knows exactly where the vehicle is at all times. The solution can determine the position not only via GPS but also via Galileo, Beidou and Glonass. As a result, MAX can be deployed globally and offers a flexible and scalable solution for worldwide mobility providers, OEMs and system suppliers.

TOBY-L4 supports the reception and transmission of data over the mobile network to the backend, enabling mobile internet access.

MAX offers high-quality vehicle networking for both traditional and new mobility providers. MAX is suitable for small series, such as vans or targeted innovative EV projects. As a central node in the vehicle, MAX enables both internal and external networking. The solution is flexible, scalable and is an open software concept, fulfilling important requirements of the dynamic mobility market, Molex said in press release.

“MAX further supports our commitment to providing next-gen connectivity in the car for the entire market, not just a luxury for premium automakers. Molex innovations and expertise are driving solutions that are changing the automotive landscape to allow our customers accessibility,” said Dietmar Schnepp, product director for vehicle communication devices, Molex.

“We are delighted to work with a world leader in the automotive market such as Molex and proud to see two u-blox modules at the core of the new MAX connectivity platform,” said Andreas Thiel, head of Product Centers and co-founder of u-blox. “This collaboration demonstrates u-blox’s dedication to providing automotive customers with best-in-class positioning and wireless communications solutions.”

MAX can be tailored to the customer’s requirements through individual configuration. The platform combines quality of state-of-the-art communication technologies with the necessary degree of standardization for cost control.

In addition, the individual modularization enables a short time-to-market compared to tailor-made solutions. This path is the ideal alternative for telematics service providers who can use MAX as the basis for a backend connection, as well as for the development of various applications.

The new Mobile Mark nine-cable LTMG944 multiband antenna is designed for 5G-ready routers and gateways covering dual-carrier LTE MIMO, Wi-Fi MIMO and GNSS.

The 9-in-1 dual-carrier antenna expands Mobile Mark’s LTM series, used for public transit communications, public safety and vehicle fleet management. It contains nine separate antenna elements housed within a single antenna radome. The antenna has:

• four cellular/LTE elements
• four Wi-Fi elements
• one GNSS element covering GPS, GLONASS and Galileo.

The LTM900 series can also be configured with fewer elements — for example, the LTMG942 contains four LTE, two Wi-Fi and one GNSS element.

The LTMG944 model can be paired with multi-connection 5G-ready routers and gateways already on the market. The cellular/LTE elements are designed to accommodate dual-carrier MIMO coverage (i.e. 2xMIMO on two different cellular carriers) or 4xMIMO for 5G.

Complete cellular coverage is offered from 694-960 and 1710-3700 MHz, with GNSS coverage on GPS and Galileo (1575 MHz) and GLONASS (1612 MHz), and dual-band Wi-Fi coverage on 2.4 and 5 GHz.

“Our new dual-carrier antenna solution series is compatible with the latest fleet management modems and routers offering dual-carrier coverage,” said Michael Berry, Mobile Mark president and CEO. “A single antenna provides MIMO coverage for each carrier.”

The antenna also provides broadband coverage. “We are happy to report that Mobile Mark’s new 9-cable 5G-ready antennas are in production today with efficient, 5 dBi gain on the FCC allocated 5G mid-bands of 3550-3700 MHz as well as being backwards compatible for other cellular frequencies,” Berry said.

The antenna is housed in the attractive, recognizable LTM radome in a choice of black or white. It is sold as a kit with 1-foot pigtails (LMR-100 except RG174 on GPS) and 14-foot jumper cables. The antenna elements fit in a compact radome that measures 5.5-inches in diameter by 2.38 inches high (140 mm x 60 mm). The LTMG944 series antennas are available as surface mounted antennas, but not as mag-mounts.

For high-vibration applications such as mining or large earth-moving equipment, Mobile Mark has developed a proprietary construction technique with superior shock and vibration test results. This option is available for the LTM944 series antennas.

The dual-carrier antenna is made in the USA, in Mobile Mark’s Itasca, Illinois, factory.”

VectorNav Technologies’ tactical series line of inertial measurement units (IMUs) and GNSS-aided inertial navigation systems (GNSS/INS) have completed independent testing for MIL-STD-810G, DO-160G, MIL-STD-1275E and MIL-STD-461.

Completion of the MIL-STD and DO-160 qualification tests proves the robustness of the tactical series to a range of temperature, shock, vibration and other environments, as well as conformance to numerous electrical interface and EMI standards.

The testing demonstrates an advantage of the tactical series for defense and aerospace applications. Other advantages are the modules’ SWAP-C (size, weight, power and cost) and performance characteristics.

“There is high demand for dependable, tactical-grade navigation solutions that perform in challenging environmental and operating conditions,” stated VectorNav Director of Sales and Marketing Jakub Maslikowski.

VectorNav’s tactical series includes the VN-110 IMU/AHRS, the VN-210 GNSS/INS and the VN-310 GNSS-compass aided GNSS/INS.

The products include an onboard tactical-grade IMU (<1˚/hr in-run gyro bias stability), along with VectorNav’s proprietary filtering, INS and GNSS-compass algorithms.

The products offer 1 to 2 mrad attitude performance in compact, rugged enclosures and include a 10-pin auxiliary port for integration with external real-time kinematic and SAASM-based GNSS receivers, as well as higher-performance IMUs.

Testing for the MIL-STD and DO-160 standards was performed by independent, certified testing companies in Plano, Texas, and Huntsville, Alabama.

A Eutelsat communications satellite launched Oct. 9 carried a payload for the European GNSS Agency (GSA) called GEO-3. GEO-3 is a geostationary satellite designed to augment GNSS signals.

The EGNOS payload, manufactured by Airbus Defence and Space, will hone the accuracy of satellite navigation signals over Europe for use in aviation, maritime and other industries as part of the European Geostationary Navigation Overlay System (EGNOS).

The Eutelsat-5 West B satellite also hosts a payload that will enable service continuity for television broadcasting in Europe and North Africa.

The GSA signed a contract in March 2017 with Eutelsat Communications for the development, integration and operation of the next-generation GEO-3 EGNOS payload.

EGNOS operational messages are broadcast via navigation payloads on-board two GEO satellites, including an Inmarsat-3F2 satellite that is fast approaching end-of-life. The GEO-3 services replenish the EGNOS SBAS payloads, guaranteeing EGNOS availability and supporting the transition to the dual-frequency multi-constellation-capable EGNOS V3.

Eutelsat will also develop two redundant RF ground stations to uplink the EGNOS message to the payload. It will also host EGNOS’ Navigation Land Earth Stations (NLES) in Rambouillet, France, and Cagliari, Italy, both of which will be co-located and connected to the RF ground stations.

Proton-powered launch

The satellite was carried aloft on a Proton rocket along with a second satellite, the Mission Extension Vehicle-1 for Northrop Grumman subsidiary SpaceLogistics, designed to service satellites. Both spacecraft were built by  Northrop Grumman.

The Proton rocket lifted off at 6:18 a.m. Eastern from Russia’s Baikonur Cosmodrome in Kazakhstan. Its two passengers separated from the rocket 16 hours later in a supersynchronous transfer orbit.

Eutelsat-5 West B is a replacement for the 17-year-old Eutelsat-5 West A satellite.