Tag: OEM

  • How OEM technology is enhancing precision applications

    How OEM technology is enhancing precision applications

    When a vehicle passes through a GNSS-denied area, its navigation system might be thrown off and report an incorrect position. Conversely, INS is inherently subject to drift — the steady accumulation of errors — and therefore must be periodically re-initialized by an external source, such as GNSS. (Photo: Safran Federal Systems)
    When a vehicle passes through a GNSS-denied area, its navigation system might be thrown off and report an incorrect position. Conversely, INS is inherently subject to drift — the steady accumulation of errors — and therefore must be periodically re-initialized by an external source, such as GNSS. (Photo: Safran Federal Systems)

    The term “original equipment manufacturer”  (OEM) is widely used, yet vaguely described. In general, an OEM product is one that a company creates and sells to be integrated into systems made by other manufacturers.

    In the GNSS industry, the purchasers of OEM products typically are manufacturers of products that require precise positioning or navigation capabilities, from precision agriculture, to surveying and mapping, to UAV missions. Often, manufacturers integrate the OEM GNSS receivers with other sensors, such as inertial measurement units (IMUs) and lidar devices.

    A large portion of the OEM business goes unnoticed by the end users of the equipment that utilizes OEM components. These components, such as a guidance system, are often hidden from view, due to being housed under a hood or elsewhere deep within the system.

    In the following case studies, OEM products complement GNSS in air, land and marine applications. Safran Federal Systems’ INS for land vehicle navigation and Septentrio’s AIM+ anti-jamming and anti-spoofing technology tackle land and air-based defense applications, while an OxTS IMU is used in a coral reef restoration project to accurately record ship motion.

    Land vehicle navigation in GNSS-denied environments
    Safran Federal Systems

    Ground vehicles in defense operations often navigate in challenging environments where traditional GPS signals are contested or unreliable. This includes dense urban areas, heavily forested regions, or any areas where enemies employ electronic warfare to disrupt GPS signals. Having a robust navigation system that can provide both the vehicle’s location in real time as well as its precise orientation and direction/heading is crucial for defense applications. An inertial navigation system (INS) can provide reliable position and heading data for short periods of time or distances without the aid of GPS satellite signals, allowing vehicles to stay on course and maintain awareness of their location.

    Precise location and navigation capabilities are essential for mission planning, execution and coordination with other units. Inaccurate navigation can lead to mission failure, unintended engagements, or even friendly fire incidents.

    Geonyx INS
    Geonyx INS

    Safran’s Solution

    Geonyx INS with incorporated M-Code capability
    Geonyx INS with incorporated M-Code capability

    Safran has developed the Geonyx INS, which provides route guidance in GNSS-denied environments. It incorporates hemispherical resonator gyroscope (HRG) technology and does not rely on external satellite signals for navigation and heading. Instead, it uses gyroscopes to detect changes in heading and accelerometers to detect changes in acceleration, then uses those data to calculate the vehicle’s position, orientation and velocity.

    The Geonyx will output coordinates of the vehicle’s current location as well as the data on its intended position to the vehicle’s battle management system (BMS). It can maintain an accuracy of a couple of meters after tens of miles of pure inertial navigation.

    Geonyx is a combat-proven INS solution for ground vehicles, augmenting battle management systems. It can achieve a heading accuracy as good as 0.5 mils thanks to Safran’s HRG Crystal technology. It has quick and flexible alignment, even in GNSS-denied environments.

    Safran is upgrading the Geonyx to incorporate M-Code capability. This enhancement offers a fully integrated solution to tackle the challenges of GPS-denied or spoofing environments, ensuring robust and reliable navigation even in the most demanding conditions.

    JammerTest in Bleik, Andøya, Norway. (Photo: David Jensen)
    JammerTest in Bleik, Andøya, Norway. (Photo: David Jensen)

    Resilient GNSS receiver
    Septentrio

    Around the world, there is an increasing demand for better resilience in positioning, navigation, and timing (PNT) systems. U.S. President Joe Biden has signed an executive order to enhance national resilience through PNT services. Geo-political tensions require a higher level of security for operations in areas of navigational warfare (NAVWAR) under contested GNSS conditions.

    In countries such as Finland, companies are seeking reliable receivers that can be connected in a network to identify sources of malicious interference. In numerous GNSS applications, such as reference networks, UAV surveillance, delivery and timing synchronization, the repercussions of PNT degradation or loss can be significant.

    Septentrio’s Solution

    Septentrio took part in the JammerTest 2023 event organized by the Norwegian government on the remote island of Andøya, where live interference testing was conducted in a controlled environment.

    While most of these test events are classified and their results cannot be shared publicly, the JammerTest represents one of the first public events of its kind where the sharing of results is encouraged.

    After five days of intensive testing in Norway, Septentrio’s AIM+ anti-jamming and anti-spoofing technology proved to work well under live interference conditions. Test results revealed that under real interference, receiver technology plays a key role, while antenna technology plays a supporting role. By testing the receiver under various types of spoofing attacks, it was shown that the best spoofing protection lies in having multiple anti-spoofing mechanisms working together.

    Detecting and Mitigating GNSS Jamming

    This test used a “cigarette lighter” jammer, which is commonly available for purchase online. It emits signals with power between 10 dBm and 15 dBm and can disrupt GPS L1 and L2 signals. Other jamming tests involved using jammers with signals 10 million times more powerful than GNSS signals.

    Over one day of intensive jamming tests, receivers with integrated AIM+ demonstrated 99.5% positioning availability under various forms of jamming from simple continuous narrow-band interference to the most complex wide-band transmissions.

    The Magic is in the Receiver

    For mission-critical applications, an anti-jam antenna can help achieve maximum resilience against RF interference. During the JammerTest, three receivers were tested under heavy multi-frequency wideband jamming in combination with antennas of varying sophistication. A receiver with a standard wideband helical antenna that did not have AIM+ anti-jamming technology immediately lost tracking of satellite signals during jamming. A receiver with the same antenna, but with AIM+, continued to track signals and deliver positioning. A receiver with AIM+ coupled with an anti-jam antenna displayed that the drop in signal quality is slightly less than with a standard antenna and the receiver continued to track signals and to deliver positioning.

    Tests with various anti-jam antennas showed an interference reduction of about 10 dB. While AIM+ plays a role in positioning availability under jamming, an antenna plays a supporting role and can improve the chances of getting positioning in cases where the jamming is still slightly stronger than the ability of the receiver to mitigate it. While anti-jam antennas can be effective in countering wide-band “white-noise” jamming, they are less effective for other types of jamming.

    Accurate and available PNT is key to successful industrial or critical operations in challenging environments. By regularly participating in live events such as the JammerTest, Septentrio anti-jamming and anti-spoofing technology is continuously being tested and improved to withstand the latest interference attacks. This technology also has been confirmed to be effective by users out in the field, who are using Septentrio receivers in places of malicious interference, such as near contested borders.

    Photo: Tunatura / iStock / Getty Images Plus / Getty Images
    Photo: Tunatura / iStock / Getty Images Plus / Getty Images

    INS Used for Coral Reef Restoration Project
    OxTS

    The Reef Restoration and Adaptation Program (RRAP) is an effort to help a significant ecosystem such as the Great Barrier Reef (GBR) survive climate change. Through its Cooling and Shading sub-program, RRAP’s goal is to determine whether localized cloud brightening — a technique that involves spraying droplets of sea salt into clouds to reflect sunlight and cool Earth — and/or fogging could be a temporary solution to alleviate stress on parts of the GBR during hot summer conditions, which might lead to bleaching.

    The Ordnance Survey team was tasked with consistently creating precisely georeferenced point clouds that could be utilized for identifying and classifying features. The GBR is a significant source of biogenic volatile organic compounds (BVOCs), which are likely to be impacted by ocean warming in potential climate change scenarios. In turn, these BVOC emissions can influence Earth’s radiation budget by contributing to the creation of secondary organic aerosols and cloud condensation nuclei, ultimately leading to cooling.

    Southern Cross University, an RRAP partner, sought an accurate method to record ship motion for this project. The team needed to measure various parameters such as velocity, acceleration, pitch/roll, angle rate, and ship heading. They approached Industrial Measurement Solutions (IMS) and OxTS to assist them in addressing this challenge. To achieve this accurately, they needed to integrate the measurements from their existing sonic anemometer, which records three-dimensional wind velocity, with the measurements from an IMU.

    OxTS Takes the Challenge

    Correcting wind speed for platform motion requires two high-resolution sensors to record data simultaneously: a sonic anemometer that records three-dimensional wind velocity, and an IMU that records the movement of the platform/ship. The sonic anemometer and the IMU are two very sensitive sensors, and many of the technology challenges the team faced involved setting them up correctly and getting them to work seamlessly together.

    Once the project team realized that they needed an IMU to measure the ship/platform motion, one of their collaborators at the time, Airborne Research Australia (ARA), suggested an OxTS xNAV650.

    After they had defined the project requirements, Southern Cross University contacted IMS who helped them navigate the commercial process.

    xNAV650 is a miniature INS that uses survey-grade dual-frequency GNSS receivers and custom MEMS IMU for centimeter-level position accuracy, precise orientation and true heading. It logs the navigation data on internal storage for downloading and viewing post-mission. It can be used in many applications, such as corridor mapping and precision agriculture.

    OxTS xNAV650 Inertial Navigation System. (Photo: OxTS)
    OxTS xNAV650 Inertial Navigation System. (Photo: OxTS)

    IMU in Action

    The xNAV650’s IMU allowed Southern Cross University to accurately measure the motion of the ship. The IMU was configured to “displace output” to the location of the 3D wind measurement instrument — the sonic anemometer. This allowed the project team to record the movement of the instrument directly, thus avoiding any additional complicated processing steps. Additionally, the IMU was configured to output a 1 pulse per second (PPS) signal via serial connection. This allowed the project team to connect the IMU to the sonic anemometer’s data logger to sync the time between the two instruments. This was vital on such a rapidly moving platform.

    Once installed, the xNAV650 device was able to measure ship motion accurately and at high time resolution
    (100 Hz), which was complementary to the team’s wind velocity and BVOC measurements. The PPS output option allowed for simultaneous measurement/recording, which would have otherwise needed to be corrected in post-calibration and would likely not have been as accurate.

    “We managed to accurately record ship motion for the entire length of our second voyage,” said Liz Deschaseaux, RRAP’s research fellow on BVOC emissions. “The reliability and accuracy of the xNAV650 has had a real impact on our ability to collect meaningful data.”

  • GEODNET enters distribution and OEM agreements

    GEODNET enters distribution and OEM agreements

    Photo: GEODNET
    Photo: GEODNET

    The Global Earth Observation Decentralized Network (GEODNET) Foundation — the organization governing the blockchain-based global navigation network GEODNET — has entered new distribution and OEM agreements with AllyNav, Bad Elf, bynav, Sensori Robotics and Unmanned Life. 

    GEODNET’s blockchain-based global real time kinematics (RTK) and GNSS correction network consist of more than 7000 stations, which aim to provide a unique value proposition combining affordability, precision and reliability. 

    GEODNET will partner with AllyNav for precision farming; Bad Elf for surveying applications; bynav for automotive and internet of things (IoT) OEMs; Sensori Robotics for IoT robotic lawnmowers; and Unmanned Life for UAV orchestration.  

    The GEODNET ecosystem is undergoing continuous growth with an average of 100 to 200 GNSS reference stations added per week during the first half of 2024, the company says.  

    GEODNET is the world’s largest GNSS reference network for RTK-based positioning, according to the company. Standard GPS is usually off by two meters; however, devices connected to GEODNET’s global RTK network can achieve accuracy within 1-2 cm. Many IoT and autonomous applications, such as UAVs, smart mowers, and Advanced Driver Assistance Systems (ADAS), have shifted to RTK in place of standard GPS positioning.  

    GEODNET is a community-based Decentralized Physical Infrastructure Network (DePIN). Users can contribute to the network by installing and operating a reference station known as a satellite miner. Satellite miners deliver precise RTK correction data to devices equipped with GNSS receivers within a range of approximately 20-40 kms. GEODNET aims to provide the world’s most robust precision navigation system to a variety of industries, including self-driving cars, agriculture, consumer robots and more. 

  • Inertial Labs launches GPS-aided INS

    Inertial Labs launches GPS-aided INS

    Photo: Inertial Labs
    Photo: Inertial Labs

    Inertial Labs has launched the INS-FI, a GPS-aided inertial navigation system (INS) designed to improve performance and reliability for land, marine and aerial applications.

    INS-FI is built with tactical-grade fiber optic gyroscope (FOG) technology and an IP67 rating, indicating its robustness and resistance to electromagnetic and environmental interference. This system integrates an inertial measurement unit (IMU) that combines fiber optic gyroscopes and MEMS accelerometers, along with an all-constellations GNSS receiver supporting multiple bands.

    It offers horizontal and vertical positioning with approximately 0.1% error of distance traveled for land applications and a drift of five nautical miles per hour for aerospace applications without GNSS signal. INS-FI is fully compatible with Inertial Labs’ Air Data Computer (ADC), visual inertial navigation systems (VINS) and stand-alone magnetic compass (SAMC).

    The INS-FI incorporates Inertial Labs’ sensor fusion filter, navigation and guidance algorithms, and calibration software for optimal performance and reliability. This new system aims to provide precise horizontal and vertical positions, velocity, and absolute orientation (heading, pitch, and roll) for any mounted device, maintaining high accuracy for both stationary and dynamic applications.

  • Launchpad: Upgraded surveying software, application suite, GPS integrity module

    Launchpad: Upgraded surveying software, application suite, GPS integrity module

    A roundup of recent products in the GNSS and inertial positioning industry from the June 2024 issue of GPS World magazine.


    SURVEYING & MAPPING

    Photo:

     

    Upgraded surveying software
    With an improved CAD engine

    Survey Master 3.5.0 includes an enhanced CAD engine. A measurement grade has been added to the CAD to improve the software’s utility in design and planning projects. Additionally, the latest version features expanded CAD drawing and survey functions to offer users a comprehensive toolset — including point, line, polyline, curve, arc, square, rectangle, polygon, circle and text. Survey Master 3.5.0 features CAD capture mode from any point and allows users to easily display or hide point icons.

    The system added the Dominican predefined coordinate system, SBAS configuration, PPP and RTK PPP fusion, updated satellite frequencies and an external datalink CDL7 configuration. Existing software users can update directly in Survey Master.
    Comnav Technologies, comnavtech.com

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    Scanning kit
    Combines photogrammetry with RTK precision

    The Pix4D & Emlid Scanning kit combines advanced photogrammetry with real-time kinematics (RTK) precision for quick data capture when documenting trenches and as-builts, performing volumetric measurements and enhancing aerial data with terrestrial scans. It includes the PIX4Dcatch app and the Emlid Reach RX RTK rover.

    The PIX4Dcatch app allows precise scanning for both photogrammetry and lidar projects. The hardware features the Emlid Reach RX RTK rover, which comes with an ergonomic handle and accessories. It is integrated with PIX4Dcatch and provides real-time positioning through NTRIP.

    The kit works with any correction network or GNSS base station broadcasting RTCM3. The rover gets a fix in less than five seconds, offering centimeter-accurate positioning in challenging conditions. It can also be used with the survey pole as an RTK rover for data collection and stakeout.

    Designed for urban surveying, the Reach RX rover is lightweight, rated IP68, sealed and protected from water and dust.

    The PIX4Dcatch mobile app allows users to use a smartphone for scanning, access RTK precision data through integration with Reach RX and generate a digital model within minutes. Users can also store, annotate, measure and share data online in PIX4Dcloud as well as verify geolocated positions and visualize the project in AR. It extracts insights from both terrestrial and aerial data and features online and offline processing, advanced photogrammetry capabilities, team collaboration and AR for CAD overlays.
    Emlid, emlid.com

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    UAV surveying software
    Now with planimetric survey capabilities

    Virtual Surveyor version 9.5 is a smart UAV surveying program featuring new planimetric survey capabilities. Users can survey 2D features from UAV orthophotos and add them to a 3D topographic model generated from the same data set.

    The integrated Terrain Creator app photogrammetrically processes UAV photos to build survey-grade digital surface models (DSMs) and orthomosaics. These transfer seamlessly to the traditional Virtual Surveyor app where users can generate CAD models, create cut-and-fill maps and gather other 3D topographic information.

    No third-party software is needed to create surveys from UAV data. The system is ideal for users in construction, surface mining and excavation projects.
    Virtual Surveyor, virtual-surveyor.com

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    RTK technology
    For GIS needs

    RTK Torch is designed for high-precision geolocation and GIS needs. It has tri-band reception and tilt compensation.

    The RTK Torch can provide millimeter-grade measurements. Users can connect a phone to the device over Bluetooth and receive the NMEA output and work with most GIS software.

    The RTK Torch features Zero-Touch RTK technology, which gives connected devices WiFi credentials for a hotspot or other WiFi network. The device will begin receiving corrections without any further setup, with no NTRIP credentials required. These corrections are obtained over WiFi from u-blox PointPerfect and are available in the United States, Europe and various parts of Australia, Canada, Brazil and Korea.

    The RTK Torch includes a one-month free subscription to PointPerfect. Additional subscriptions can be purchased if desired. If PointPerfect coverage is not available in the area, corrections from a local base station or service can be provided to the device over NTRIP, delivered via Bluetooth or WiFi.

    It is housed in an IP67-rated enclosure. It is waterproof when submerged up to 1 m for up to 30 minutes when the USB cover is closed. Under the hood of the SparkFun RTK Torch is an ESP32, a UM980 L1/L2/L5 high precision GNSS receiver from Unicore, and an IM-19 for tilt compensation. The addition of the L5 reception makes this portable GNSS device ideal for densely canopied areas where normal L1/L2 reception may have problems.
    SparkFun, sparkfun.com

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    3D laser scanner
    For indoor and outdoor mapping

    The VZ-600i terrestrial laser scanner offers a broad range capability from 0.5 m up to 1,000 m and is suitable for indoor and outdoor 3D mapping applications. It features 3D position accuracy of 3 mm, less than 30 sec scan time for high-resolution scans with 6 mm point spacing at 10 m, weight less than 6 kg (13 lbs), 2.2 MHZ PRR, three internal cameras and is GNSS integrated.

    Designed for mobile mapping applications, the system is suitable for architecture, engineering and construction (AEC), building information modeling (BIM), as-built surveying, forensic and crash scene investigation, archeology, forestry and more.
    RIEGL, riegl.com


    OEM

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    Application suite
    Featuring GRIT Technology

    The NovAtel Application Suite Version 2.0 now includes GNSS Resilience and Integrity Technology (GRIT). The GRIT Monitor application allows users to observe radio frequency (RF) interference through a comprehensive dashboard to make informed decisions to maintain robust positioning.

    GRIT is RF interference detection and mitigation technology available on all OEM7 GNSS receiver products, including individual cards and enclosures such as smart antennas, PwrPak and MarinePak.
    It includes positioning and device status overviews to serve as a mitigation assistant that indicates whether interference is detected. It features an interactive spectrum viewer, which shows all constellations and frequency bands (spectrum and waterfall), and a signal matrix indicating the signal quality and interference status by frequency band and constellation.

    The updated suite also introduces firmware compatibility and improvements to the user interface and extends support to include MarinePak, among other enhancements. The Manage application, previously known as Setup and Monitor, now supports satellite tracking for L-Band and SBAS and offers a global map view of connected receivers.

    Version 2.0 of the NovAtel Application Suite is designed to assist users in maintaining accurate GNSS positioning by quickly identifying and responding to RF interference. This update is targeted to industries that require precise location data, such as aerial mapping, agriculture and autonomous vehicle navigation.
    NovAtel, novatel.com


    DEFENSE

     

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    Upgraded UAS
    With silent VTOL capabilities

    The VXE30 Stalker unmanned aerial system (UAS) features the new “Havoc” configuration, designed to double the system’s flight endurance and payload capacity.

    With the Havoc upgrades, the VXE30 can now support the complex demands of both small tactical units and larger brigade-level operations without extensive reconfiguration. The upgrades are designed to make the UAS more versatile across various military applications.

    The VXE30 Stalker UAS has silent, vertical take-off and landing (VTOL) capabilities and is payload agnostic with the Havoc configuration. It supports easy integration of third-party payloads and subsystems through a Modular Open Systems Approach (MOSA), requiring no additional training for current operators.
    Edge Autonomy, edgeautonomy.io

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    CUAS technology
    Adheres to NDAA standards

    This counter-unmanned aircraft system (CUAS) is a high-speed kinetic interceptor UAS that utilizes advanced autopilot algorithms for calculating and tracking precise target trajectories, neutralizing Group 1 and 2 aerial threats with pinpoint accuracy.

    The system is manufactured in accordance with the National Defense Authorization Act (NDAA) to ensure it meets the federal requirements necessary for immediate deployment in both military and industrial settings in the United States.
    Nearthlab, nearthlab.com

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    GPS integrity module
    Seamlessly integrates with existing platforms

    The Shift5 GPS integrity module is a platform-agnostic solution for military, aviation, rail, maritime and space applications.
    With real-time access and analysis of onboard data, the module assesses changes in navigational position through multi-faceted anomaly detection methods, which alert operators to GPS spoofing attacks as they happen.

    Using data collected from onboard systems, the module uses algorithmic position analysis to identify significant position deviations and GPS data validation to verify GPS information accuracy. Discrepancies or deviations that indicate tampering trigger an immediate notification, allowing operators to initiate standard operating procedures (SOPs) rapidly and accurately.

    The module is designed for cross-platform deployment, across commercial and military planes, locomotives, vessels and aircraft, as well as on other critical systems such as radar, unmanned aircraft systems (UAS) and weapon guidance systems. It seamlessly integrates with existing platforms and can deploy directly to onboard hardware.

    It offers multi-faceted detection and alerts for GPS spoofing attempts, designed to improve the safety and reliability of navigation systems. It uses physics-based spoofing detection to determine whether reported changes in position are physically possible to provide an effective method for initial spoofing detection. The system analyzes data from all sources to detect subtle, sophisticated spoofing attempts, which is essential for identifying more complex spoofing strategies that may evade traditional spoofing detection techniques.

    Shift5 alerts can be integrated into existing SOPs to help preempt contamination of other positioning and navigation data, such as inertial navigation calibration against false GPS data. Metadata about the time, location, duration and estimated position of the attack can be passed for inclusion in threat mapping and other geospatial systems for future route avoidance.
    Shift5, shift5.io

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    VTOL UAS
    Designed for military forces

    The Rogue 1 loitering munition UAS is designed to provide military forces with enhanced versatility, survivability and lethality in modern combat environments.

    The Rogue 1 is an optionally lethal, vertical takeoff and landing (VTOL) capable of engaging both moving and stationary targets, including armored vehicles and dismounted threats. It features a unique mechanical interrupt fuzing system that allows for the drone to be safely recovered and reused if the mission is aborted or targets are disengaged.

    Equipped with advanced electro-optical and FLIR Boson 640+ thermal cameras, Rogue 1 offers day and night long-range reconnaissance and surveillance capabilities. The system’s gimballed payload allows for precise targeting, facilitated by a novel coupling between sensors and warhead. Operators can customize the munition with various modular, mission-specific payloads to effectively engage different types of enemy targets.

    It has a flight time of 30 minutes, can reach burst speeds exceeding 70 mph and has an operational range of over six miles, making it suitable for missions in harsh battlefield conditions, including communication- and GPS-denied environments.
    Teledyne FLIR Defense, flir.com


    UAV

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    Delivery winch
    Improves safety and operational capabilities

    A2Z Drone Delivery has released new safety features and hardware upgrades for its RDS2 commercial UAV delivery winch, including a weatherproof cover and an auto-releasing bag hook. This aims to improve safety and operational capabilities as well as aid in regulatory compliance for beyond-visual-line-of-sight (BVLOS) operations.

    The system features entanglement auto-detection, which autonomously detects tether entanglements and allows the system to safely abandon the tether to prevent damage to the UAV. This feature can be customized to recognize different types of obstructions, whether at altitude or during the landing phase, enhancing safety across a variety of operational scenarios.

    Additionally, the overweight payload rejection feature ensures that the payload weight does not exceed the 5 kg limit. This is useful when picking up payloads from third parties, as it automatically confirms that the weights are within safe flying limits before proceeding with the mission. The RDS2 now includes Tether Lifecycle Alerts, which notify operators when the winch’s tether, rated for up to 800 deliveries, requires replacement.
    A2Z Drone Delivery, a2zdronedelivery.com

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    Integration platform
    For fully autonomous operations

    Flinks is designed for one-click integrations with third-party applications and devices. The platform aims to streamline the coordination of various systems involved in UAV operations, creating end-to-end automated workflows for fully autonomous systems.

    It allows users to connect the FlytBase platform with critical business systems such as alarm systems, video management, data processing and more. By eliminating the need for complex, time-consuming manual interventions, Flinks is designed for users to seamlessly incorporate autonomous drones into their existing operations.

    By joining the Flinks Partner Program, organizations can access FlytBase’s global network of UAV service providers, system integrators and enterprise customers.
    FlytBase, flytbase.com


    MACHINE CONTROL

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    Antenna
    Integrates with heavy construction equipment

    The iCON 120 machine smart antenna offers scalable and flexible machine control solutions for construction professionals.

    The iCON 120 is a GNSS antenna intended for integration within the existing Leica MC1 platform. Using the iCON 120, operators can benefit from a tailor-made, Leica MC1-based machine control, allowing for more streamlined operations and consistent workflows with a variety of heavy construction equipment and application requirements.

    Leica iCON 120 users can start with a single GNSS solution using a satellite-based augmentation system (SBAS), such as WAAS or EGNOS, or a HxGN SmartNet service. The HxGN SmartNet family offers network real-time kinematics (RTK) with RTK bridging and precise point positioning (PPP) services that work exclusively with Leica Geosystems GS sensors. The new smart antenna can be easily switched, with quick mounting and dismounting, between Leica MC1-prepared machines.

    Users can optionally upgrade their basic-level machine-control solution with the Leica CR50 communication unit to receive RTK correction data via radio or modem. The CR50 features a web interface, automotive ethernet communication, worldwide cellular modem and integrated dual-frequency UHF radio.
    Leica Geosystems, leica-geosystems.com

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    GNSS smart antenna
    For construction Site Positioning

    The R780 GNSS Smart Antenna is designed for construction site positioning. It features a dual-band radio (450/900 MHz) that connects to diverse base stations and job sites without additional external radios. The dual Trimble Maxwell 7 GNSS ASIC chip allows the system to perform in challenging GNSS environments such as a blocked sky, multi-path or degraded signal.

    An activated and ready-to-use Trimble CenterPoint RTX subscription is included for the first 12 months. CenterPoint RTX is point positioning technology that provides real-time, centimeter-level corrections via satellite or cellular/IP.

    Using the R780 with Trimble FieldLink software supports underground and long-distance layout projects as well as QA/QC and field positioning tasks. The R780 can serve as a GNSS rover or as a base station for other GNSS operations including machine control.
    Trimble Civil Construction, heavyindustry.trimble.com

  • Safran Federal unveils MEMS and HRG technologies

    Safran Federal unveils MEMS and HRG technologies

    Safran Federal Systems has released a line of tactical-grade inertial measurement units (IMUs). These units are engineered to address the evolving needs of unmanned applications and space-based operations.  

    The IMUs include Iconyx, a high-performance HRG-based IMU that significantly outperforms legacy technologies, the company says. It offers improved accuracy and reliability for demanding navigation needs. It also features a small tactical IMU (STIM) ideal for applications requiring lower size, weight and power (SWAP). 

    The company is also upgrading its Geonyx inertial navigation system (INS), which is based on HRG technology, to incorporate M-Code capability. The fully integrated solution can perform in GPS-denied or spoofing environments, offering reliable navigation in challenging environments. 

    Safran Federal Systems unveiled these IMUs at the Joint Navigation Conference (JNC) 2024 in Cincinnati, Ohio. Attendees are invited to visit Safran Federal Systems at Booth A to learn more.  

  • Launchpad: UAVs, digital twin platforms and positioning modules

    Launchpad: UAVs, digital twin platforms and positioning modules

    A roundup of recent products in the GNSS and inertial positioning industry from the May 2024 issue of GPS World magazine.


    SURVEY & MAPPING

    Photo: Virtual Surveyor
    Photo: Virtual Surveyor

    UAV
    With planimetric survey capabilities

    The Virtual Surveyor version 9.5 now allows users to quickly and accurately survey 2D features from UAV orthophotos and add them to the 3D topographic model generated from the same data set.

    True 2D features, for example, include the paint striping that delineates parking lot spaces and road lanes. Other objects that exist in 3D on the ground but can be surveyed in two dimensions include building footprints and tree canopies. These features are designed to offer a new level of efficiency to the UAV surveying process in Virtual Surveyor.

    Virtual Surveyor provides users with an end-to-end workflow to conduct 3D surveys from UAV imagery. The integrated Terrain Creator app photogrammetrically processes UAV photos to build survey-grade digital surface models (DSMs) and orthomosaics. No third-party software is needed to create surveys from UAV data. The system is ideal for users in construction, surface mining and excavation projects.

    Learn more about Virtual Surveyor.

    Photo: Geneq
    Photo: Geneq

    Positioning System
    Incorporates an anti-jamming and interference monitoring system

    SXblue GLOBE merges GNSS and GIS to deliver positioning accuracy, efficiency and reliability in challenging field conditions using a 448-channel GNSS board.

    Its advanced multipath mitigation aims to reduce the effects of signal reflection and ensure the integrity of positioning service, even in GNSS-challenged environments. The SXblue GLOBE incorporates an anti-jamming and interference monitoring system, safeguarding against disruptions and offering uninterrupted operation in any scenario.

    The system uses global or local coverage of correction services, satellite-based augmentation system (SBAS), and real-time kinematics (RTK) with an update rate of up to 100Hz. This seeks to provide users with enhanced accuracy and reliability in positioning activities. Sxblue GLOBE features a Wi-Fi connection, which allows its parameters to be easily configured via a web user interface.

    Learn more about Geneq.

    Photo: Golden Software
    Photo: Golden Software

    3D Mapping Software
    With expanded visualization tools

    The Surfer mapping and 3D visualization software now features upgraded 3D visualization capabilities. The upgrades are designed to give users a complete picture of collected subsurface data. The expanded visualization tools in the latest Surfer version make it easier to create 3D grid files for viewing and analysis of drillhole data.

    Surfer can be used for environmental consulting, water resources, engineering, mining, oil and gas exploration and geospatial projects.

    With these upgrades, users can render 3D grids as a series of blocks, which can be colorized by a select variable. Images of cross sections, profiles and other features can be imported directly into 3D View and oriented in any direction or angle. To isolate certain features in the 3D grid, users can assign NoData to portions of the grid with a variety of methods. This allows users to eliminate unwanted data in a 3D grid outside of field boundaries, well locations, or above or below specific surfaces, such as a water table, topography, or lithologic layer.

    Learn more about Golden Software.

    Logo: Flow Labs
    Logo: Flow Labs

    Digital Twin Platform
    Shows roadway incidents in real time

    The Flow RT is a real-time digital twin platform designed to provide agencies with instantaneous alerts and insights for better decision-making. The platform allows traffic managers to view traffic conditions, signal operations and roadway incidents in real time, at scale across entire regions.

    Flow RT integrates seamlessly with the company’s solutions, including traffic signal management, roadway safety management and mobility management. Powered by connected vehicle data from industry-leading partners, including TomTom, the platform offers up to five times higher vehicle data penetration rate than the previous industry standard. Flow RT also provides alerts and notifications while offering data-driven decision support, ensuring agencies can make the best decisions using the most accurate, reliable and instantaneous insights with and without infrastructure connectivity.

    Learn more about Flow Labs.


    OEM

    Photo: Inertial Labs
    Photo: Inertial Labs

    INS
    With an integrated acoustic resonance air speed sensor

    Inertial Labs has integrated the FT Technologies FT743-D-SM acoustic resonance air speed sensor into its inertial navigation systems (INS).

    This integration aims to improve the accuracy of horizontal air speed estimation for multi-rotor UAVs, even in GNSS-denied environments. The FT743-D-SM airspeed sensor is a digital anemometer-based solution that can estimate airspeed incoming from any direction using acoustic resonance technology, which is immune to vibration and external acoustic noise. The airspeed magnitude and direction allow the INS to estimate horizontal air speed in the longitudinal and lateral axes.

    The INS receives aiding data from the dual-axis airspeed sensor and experiences significantly less position drift compared to a dead reckoning alternative in GNSS-denied environments, the company said. The system can be used in mission-critical roles in multiple military or defense applications, as well as in civilian applications such as wind energy, marine navigation, UAVs and dynamic positioning systems.

    Learn more about Inertial Labs.

    Photo: Telit
    Photo: Telit

    IoT Solution
    Designed for precision applications

    The SE868K5-RTK module is a GNSS receiver capable of centimeter-level accuracy. It is designed for seamless operation near cellular or other radios and is suitable for precision applications.

    At 11 x 11 mm, the module’s compact form factor offers adaptability in size-constrained scenarios and easy migration within the xE868 product family. It is designed to offer high-performance navigation, even in challenging RF conditions. The solution can be integrated into applications such as wearables, UAVs, robots, fleet tracking and precision agriculture.

    The SE868K5-RTK is a multifrequency and multi-constellation positioning receiver module with RTK capabilities that enhance positioning accuracy. By harnessing dual frequencies — L1/E1 and L5/E5 — the module offers improved location precision and reduces multipath effects.

    In partnership with Swift Navigation, the SE868K5-RTK module utilizes local base stations or Swift’s Skylark precise positioning service for corrections, which offers reliable centimeter-level accuracy across an extensive coverage area. The integration and Telit Cinterion’s cellular modules and NExT connectivity services offer continuous and accurate correction data delivery to the GNSS module.

    Learn more about Telit.

    Photo: MIKROE
    Photo: MIKROE

    Upgraded Click Board
    Now with an integrated GNSS receiver module

    The Septentrio mosaic-X5 GNSS receiver has been integrated into the MikroElektronika (MIKROE) Mosaic Click board.

    Mosaic Click is compatible with mikroBUS socket standard, allowing plug-and-play prototyping and reduced time-to-market. The mosaic-X5 receiver uses triple-band GNSS technology to achieve centimeter-level RTK accuracy, even in challenging environments. Its anti-jamming and anti-spoofing technology protects the receiver from malicious or accidental radio interference. It is ideal for applications where safety is a concern, as well as autonomous and mission-critical applications of systems such as UAVs or industrial robots.

    The mosaic-X5 receiver tracks all available GNSS constellations and is protected by Septentrio’s AIM+ anti-jamming and anti-spoofing technology. Full GNSS raw data and positioning are delivered at a high update rate of 100Hz and with low latency, which is critical for autonomous movement and maneuvering.

    Learn more about MIKROE.

    Photo: Systork
    Photo: Systork

    RTK Positioning Module
    Supports all GNSS constellations

    The Linnet mosaic-X5 is a multi-band module featuring the Mosaic-X5 receiver by Septentrio. It receives signals from all major constellations and can be used both directly on the rover and as a base station. The system can achieve centimeter-level positioning accuracy and attain precise positioning even in low-coverage zones and harsh vibrations and shocks.

    The mosaic-X5 module is a 448 channels all-in-view receiver that supports all GNSS constellations, SBAS and QZSS, as well as built-in on-module support for other L-band correction services. The Linnet Mosaic-X5 features anti-jamming protection and anti-spoofing built-in and embedded spectrum analyzer.

    The module can be used in a variety of applications, including tracking, surveying, autonomous navigation, ground robotics, precision agriculture and machine control.

    Learn more about Systork.

    Photo: AEVEX
    Photo: AEVEX

    Dual-GPS-Aided INS
    Completely autonomous

    Geo-hNAV is a rugged, hybrid dual-GPS-aided INS. It offers consistent position and attitude measurement accuracy whether the platform is static or moving. The Geo-hNAV combines the Geo-iNAV INS with the Geo-Pointer dual-antenna heading system.

    For stationary or slowly moving platforms, precise heading is derived from GPS measurements using two GPS antennas rigidly mounted on the platform, separated by a typical distance of 1 to 3 meters. In dynamic conditions, the combination of GPS and IMU seeks to provide enhanced position, velocity and attitude measurements. The system can be used for geo-positioning onboard sensors on static, low and high dynamic platforms such as aerostats, boats and tanks.

    Learn more about AEVEX.

    Photo: Hemisphere GNSS
    Photo: Hemisphere GNSS

    Smart Antenna
    Equipped for harsh environments

    The C631 is a multi-GNSS, multi-frequency smart antenna. The C631 provides robust performance and high precision in a compact and rugged package. With multiple wireless communication ports and an open GNSS interface, the C631 can be used in a variety of operating modes.

    C631 can be used as a precise base station sending RTK to existing rover networks. Users can turn the C631 into a lightweight rover by connecting it to a base via UHF radio or Wi-Fi network. The built-in web user interface can be used to control and manage the receiver status and operation and upgrade the C631 with new firmware and activations.

    Atlas is a global correction service that can be added as a subscription to the C631. Atlas delivers worldwide centimeter-level correction data over L-band communication satellites.

    Learn more about Hemisphere GNSS.


    MOBILE

    Photo: Quectel Wireless Solutions
    Photo: Quectel Wireless Solutions

    5G/GNSS Antennas
    For IoT devices

    The YEGB000Q1A and YEGN000Q1A active GNSS L1 and L5 antennas are designed to tap into L1 and L5 frequency bands for advanced navigation applications. These antennas, operating within the 1164-1189 MHz and 1559-1606 MHz frequency bands, are designed to support a variety of installation methods, catering to diverse application needs with options for screw mount, adhesive mount, magnetic mount and various cable connections.

    The antennas are part of a broader release that includes the YEMN016AA and YEMN017AA 5G 5-in-1 combination antennas, which also feature GNSS capabilities.

    These GNSS antennas are crucial for applications that require high levels of navigation accuracy, such as autonomous vehicles, UAV delivery systems and precision farming.

    Learn more about Quectel Wireless Solutions.

    Photo: Calian
    Photo: Calian

    Smart GNSS Antenna
    Minimizes RF impairments

    The TW5387 industrial-grade smart GNSS antenna integrates the Quectel ST TESEO V GNSS receiver chipset onto the Calian compact smart GNSS antenna platform. It is designed to offer dual-band GNSS, eXtended filtering, low phase center variation, low signal-to-noise ratio and dual feed and patch for strong multi-path rejection.

    The TW5387 comes with RTK rover capability and a built-in IMU for sensor fusion. It is designed to minimize RF impairments that affect the performance of the GNSS receiver and provide GNSS coordinates to the host system over a robust digital interface for noise resilience.

    TW5387 is suited for automotive, UAV, robotics and defense applications that require high precision location and timing. TW5387 is compatible with N-RTK correction services such as Point One Navigation’s Polaris and Swift Navigation’s Skylark. It tracks GPS, Galileo, BeiDou and L1/L5 band operation and is housed in an industrial-grade IP69K enclosure.

    Learn more about Calian.

    Photo: Pasternack
    Photo: Pasternack

    Multi-Band Antenna
    Designed for surveying

    The PEANGPS1005 is an active GPS/GNSS multi band L1/L2/L5 antenna with 47.5 dBi overall gain. It is IP69K rated, light weight and designed for surveying. This GPS/GNSS antenna is suited for harsh operating environments where stability and reliability of GPS/GNSS signal is required.

    This antenna operates in the 1.164-1.3GHz and 1.525-1.615GHz bands, meeting GPS L1/L2/L5, GALILEO E1/E6/E5a/E5b and GLONASS L1/L2/L3 requirements. The PEANGPS1005 antenna has an integrated LNA with 2 dB noise figure and LNA gain of 40 dB.

    The antenna has an axial ratio of 3 dB and can track visible satellites under extreme conditions, which is ideal for UAV navigation, autonomous tracking or GIS surveying.

    Learn more about Pasternack.


    MACHINE CONTROL

    Photo: Topcon Positioning Systems
    Photo: Topcon Positioning Systems

    Paving and Mining Solution
    Meets DOT smoothness standards 

    The MC-Max asphalt paving and MC-Max milling solutions offer modularity, simplified configurations and advanced feature sets to increase productivity in asphalt paving and cold milling applications.

    The MC-Max Asphalt Paving and MC-Max Milling systems, which are made up of , total stations, displays and other high-precision sensors, are built with the new MC-X machine control platform. Users can choose from entry-level 2D systems that follow a reference, such as a string or a curb, or automated solutions that track a paver or miller in 3D.

    Contractors can pave and mill at variable depths while meeting smoothness standards mandated by the U.S. Department of Transportation (DOT) smoothness standards. The solutions also include MC-X licensing options. The technology is compatible with OEM CAN-based systems and has expanded to include compatibility with additional aftermarket systems.

    It is equipped with Topcon Virtual Ski intelligence software designed to simplify workflows in specific resurfacing applications, such as rural roads where there are fewer fixed points or intersections to match up to.

    Learn more about Topcon Positioning Systems.


    UAV

    Photo: FlytBase
    Photo: FlytBase

    Reality Capture Platform
    Generates detailed 2D and 3D models

    This UAV reality capture platform collects data through FlytBase UAVs and generates detailed 2D and 3D models on SkyeBrowse, a UAV reality capture platform.

    The platform uses SkyeBrowse’s videogrammetry technology to quicly convert UAV video footage into 2D maps and 3D models, making it ideal for emergency response scenarios where rapid documentation is critical. The platform integrates seamlessly with beyond visual line of sight (BVLOS) systems, enhancing both the speed and quality of data-driven strategies in critical operations.

    Learn more about FlytBase.

    Photo: Event 38 Unmanned Systems
    Photo: Event 38 Unmanned Systems

    VOTL UAV
    Now featuring a 360-degree camera option

    The E400 fixed-wing VTOL ISR UAV now features a 360° camera option. Partnering with NextVision, the Event 38 UAV now offers a range of EO/IR Gimbal camera options for seamless integration with the E400 platform.

    NextVision’s gimballed EO/IR cameras capture visual and thermal imagery and video. The UAV provides live streaming directly to ground stations for continuous monitoring capabilities.

    The 360° EO/IR camera integrated onto the E400 ISR can be used for search-and-rescue missions, suspect pursuit, emergency management and disaster response. The E400 ISR, built with a military-grade carbon fiber frame, offers durability for rugged field applications and allows for extended flight durations without the need for frequent recharging. It is suited for surveillance and security applications. It features electric propulsion and minimal noise emissions for discreet flight operations.

    Learn more about Event 38 Unmanned Systems.

    Photo: Kongsberg Geospatial
    Photo: Kongsberg Geospatial

    Enhanced BVLOS System
    Offers situational awareness to UAS operators

    IRIS Terminal now features Echodyne radar technology designed to enhance Beyond Visual Line of Sight (BVLOS) operations for unmanned aerial systems (UAS) in Advanced Air Mobility (AAM) applications.

    The integration seeks to provide situational awareness to UAS operators by visualizing all airspace movement, cooperative and noncooperative, to ensure safe and reliable UAS operations.

    IRIS Terminal, now in its second generation, has been adapted from its defense origins to the enterprise UAS sector for visualizing airspace traffic, as well as controlling uncrewed systems in its GCS format. Airspace traffic is visualized inside IRIS Terminal’s multiple viewing configurations, along with features such as detect-and-avoid (DAA) sensor footprints, terrain awareness and potential conflict warnings.

    Learn more about Kongsberg Geospatial.

    Photo: Sony
    Photo: Sony

    Upgraded UAV
    With integrated lidar technology

    The Inertial Labs’ RESEPI lidar remote sensing payload instrument GEN-II has been integrated into Sony’s Airpeak UAV.

    The partnership seeks to enhance Airpeak’s ability to produce detailed aerial maps and 3D models.

    Tailored for professionals, the lidar system integrated into Sony’s Airpeak UAV will significantly enhance workflow efficiency and data accuracy, particularly in sectors such as construction, agriculture, and filmmaking, according to Inertial Labs. The system allows for extensive data handling and facilitates longer durations of data collection without frequent offloads. The UAV can be used for surveying, mapping and cinematic videography.

    Learn more about Sony.

  • Rohde & Schwarz, XipLink partner for intelligent multi-orbit networking

    Rohde & Schwarz, XipLink partner for intelligent multi-orbit networking

    Photo: ipoque
    Photo: ipoque

    ipoque, a Rohde & Schwarz company and provider of deep packet inspection (DPI) software for networking and cybersecurity solution providers, has entered a technology partnership with XipLink, a global technology that provides optimized, secure and intelligent multi-path hybrid networking.

    Under the partnership, ipoque will integrate its DPI technology, R&SPACE 2, into the XipLink operating system (XipOS) to create the XipLink Application Classification Engine (XipACE). This technology is designed to deliver advanced application visibility for multi-orbit networking.

    Layer 7 visibility for multi-orbit networking

    Using standards-based space communications protocol specifications (SCPS) protocol acceleration, link bonding, Layer 2 switching and Layer 3 routing, XipLink offers intelligent multi-orbit networking that ensures network performance and quality of service QoS across satellite, cellular and wireless networks. Embedding the next-gen DPI software R&SPACE 2 introduces traffic visibility up to Layer 7 and beyond, powering the traffic aggregation and optimization algorithms used by XipLink.

    R&SPACE 2 combines behavioral, statistical and heuristic analysis with metadata extraction to identify protocols, applications and application attributes in real time.

    “Our breakthrough AI-based encrypted traffic intelligence, which includes machine learning and deep learning techniques, and high-dimensional data analysis, brings traffic awareness to the next level by identifying any type of IP traffic, despite encryption, obfuscation and anonymization,” said Martin Mieth, P.hD., vice president of engineering at ipoque.

    Offers high-performance networks

    By integrating R&SPACE 2, XipACE can augment quality of service (QoS) management, traffic analytics, steering decisions, load balancing and dynamic link bonding. R&SPACE 2 also features an extensive feature and plug-in set, such as first packet classification, customizability of app signatures or tethering detection.

    Insights from R&SPACE 2 allow XipOS to support network diversity and resilience, from offloading traffic from congested pathways to tapping into GEO satellites to alleviate latency issues. At the policy level, it enables application prioritization and SLA compliance.

    As more and more applications require high bandwidth and low latency, the granular traffic analytics offered by R&SPACE 2 can help users optimize their networks and improve resource efficiency. These insights seek to lay the foundation for autonomous and self-healing networks through data-driven decision-making.

    The technology is designed for mobile, satellite, maritime, government and defense sectors, as well as modem OEMs.

  • Launchpad: Rotating lasers, antennas and upgraded UAVs

    Launchpad: Rotating lasers, antennas and upgraded UAVs

    A roundup of recent products in the GNSS and inertial positioning industry from the April 2024 issue of GPS World magazine.


    SURVEYING & MAPPING


    Photo:

    Rotating Laser
    Built for challenging worksites

    The Zone40 T one-button rotating laser is designed for all types of grading and leveling jobs. It seeks to address the industry’s need for efficient and accurate alignment solutions.
    Its one-touch operation is designed to simplify and increase efficient workflows in a variety of jobs such as grading, paving, excavating, surveying, layout and more. It is ideal for contractors, crew chiefs, supervisors and trade professionals.

    GeoMax products are tested and proven to endure the toughest conditions. With an IP67 environmental rating, the Zone40 T accurately delivers in dust, water, wind and extreme temperatures.
    GeoMax Positioning, geomax-positioning.com

    Photo:

    Hydrographic Surveying Solution
    With advanced inertial sensors

    The Seapath 385 navigation system is designed to enhance precision in hydrographic surveying by using advanced navigation algorithms and integrating a range of satellite signals, including GPS, GLONASS, Galileo, BeiDou and QZSS, alongside geostationary satellite signals. The Seapath 385 system combines raw inertial sensor data from Kongsberg Discovery’s high-performance motion gyro compass (MGC) or motion reference unit (MRU) with GNSS data and corrections from real-time kinematics (RTK), precise-point positioning (PPP) or Differential Global Navigation Satellite System (DGNSS). The integration offers a robust and accurate navigation solution ideal for hydrographic surveying.

    The system’s dead reckoning capabilities are attributed to its advanced inertial sensors and updated navigation algorithms. It uses GNSS antennas for both positioning and heading determination designed to add an extra layer of robustness to the system. The Seapath 385 also introduces a new post-processing format that consolidates all necessary data and system configurations into a single file, which allows for centimeter-level position accuracy through either satellite orbit and clock data or data logged from base stations.

    Designed for ease of installation and continuous, reliable operation, the Seapath 385 is a modular system with a processing unit that handles all critical computations independently of the user interface on the HMI Unit. This feature offers precise measurements with a data rate of up to 200 Hz at multiple monitoring points, which makes it an ideal solution for accommodating sensors or systems that depend on motion or position data throughout the vessel.
    Kongsberg Discovery, Kongsberg.com

    Teledyne Geospatial

    Marine-Grade Sensor
    Compatible with USVs

    The Optech CL-360 Marine is a 360° long-range laser scanner. It combines a scan speed of 250 lines per second with 2 mm range resolution, a plug-and-play solution and an IP67 marine-grade sensor.The system can be seamlessly integrated with multibeam systems and the CARIS Ping-To-Chart workflow, which allows for full above-and-below-water image capture with survey-grade accuracy in a single workflow.It is ideal for mapping coastal infrastructure and is designed to be used on an uncrewed surface vessel (USV) that provides survey grade range and accuracy.
    Teledyne Geospatial, teledyneimaging.com

    Photo:

    GNSS Receiver
    Designed for centimeter-level and RTK accuracy

    The HiPer CR is a compact and lightweight GNSS receiver designed for centimeter-level and RTK accuracy for professionals in a wide range of applications in surveying, construction, engineering, forestry and mining. It joins a portfolio of fuller-featured receivers, including the HiPer HR and VR.

    The HiPer CR tracks the GPS, GLONASS, Galileo, BeiDou and QZSS constellations. It can be used in a variety of configurations, including as a network RTK rover, in base and rover setups and in integrated hybrid use with a robotic total station.

    When used as a network rover with Topnet Live — the company’s global GNSS correction service — the HiPer CR will have access to high-quality data corrections to increase efficiency and productivity. Users also can select to use the receiver as part of a hybrid positioning system, which allows users to use a robotic total station for prism measurements. Users also can switch to GNSS measurement with the HiPer CR for obstructed areas such as warehouses, trailers, or buildings.
    Topcon Positioning Systems, topconpositioning.com

     

    Image: CHCNAV

    Handheld SLAM laser scanner
    For in the field and indoors

    The RS10 is a handheld SLAM lidar laser scanner integrated with a full real-time kinematics (RTK) GNSS receiver.
    Designed to improve efficiency across a wide range of mapping and surveying applications, the RS10 seeks to provide professionals with a versatile, all-in-one tool for capturing 3D geospatial data in both outdoor and indoor environments.

    The RS10 integrates a GNSS smart antenna for RTK positioning accuracy even in challenging environments. It delivers 5 cm measurement accuracy by fusing high-precision lidar, RTK, laser and visual SLAM using three HD cameras.
    The RS10 uses a powerful onboard processor for real-time georeferenced point cloud generation in the field. Users can receive instant feedback, which allows them to adjust while scanning. Large sites up to 13,000 square meters can be mapped in real time.

    The integration of high-precision GNSS and SLAM technologies eliminates the need for traditional loop closure, which often complicates the data collection process for handheld scanners. Users can freely scan target areas without having to return to previous locations, which can streamline field data capture and significantly reduce time spent in the field.
    CHC Navigation, chcnav.com

    Photo:

    Airborne lidar sensor
    With scan pattern reconfigurability

    The Leica TerrainMapper-3 airborne lidar sensor features a new scan pattern reconfigurability to support a variety of applications and requirements in a single system.

    The system offers three scan patterns, which allow users to customize the sensor’s performance to fit specific applications. Its circle scan patterns are designed to improve 3D modeling of urban areas or steep terrains. The ellipse scan patterns use data capture for more traditional mapping applications. Skew ellipse scan patterns are aimed at improving point density for infrastructures and corridor mapping applications.

    The sensor has a high scan speed rate and a 60° adjustable field of view to maximize data collection with fewer flight lines. The TerrainMapper-3 is complemented by the Leica MFC150 4-band camera, which operates with the same 60° field of view coverage as the lidar for exact data consistency.

    The device’s reduced beam divergence offers more accurate results, while its new multiple pulses in air (MPiA) handling is designed to deliver more consistent data acquisition, even in steep terrain.
    The system introduces possibilities for real-time full waveform recording at a maximum pulse rate to open opportunities for advanced and automated point classification.
    Leica Geosystems, leica-geosystems.com

    Photo: Trimble Geospatial

    Mobile Mapping Solution
    Mounted on vehicles or trains

    The Trimble MX90 mobile mapping system integrates advanced Trimble GNSS and inertial technology with Trimble field and office software. It offers users a comprehensive field-to-finish mobile mapping solution designed for robust workflows for data capture, processing and analysis.

    The MX90, mounted on vehicles or trains, captures detailed laser scans and imagery —panoramic and multi-angle. This data, collected at highway speeds, undergoes rapid processing to produce deliverables for feature detection and inspections.

    The mobile mapping system includes immersive 360° panoramic and targeted cameras to capture high-resolution imagery of various details, such as small or distant road and rail signs, telecommunications towers or cracks and holes in roads.

    Additionally, it offers high-density colorized point clouds with rich and accurate color projections. These dense point clouds, along with high-resolution imagery — panoramic and planar — and accurate trajectories, provide the basis for a wide range of deliverables, including street scenes, road and rail asset details, elevation models, volume calculations, 3D city models and as-built surveys.

    It features a high-end inertial measurement unit (IMU) combined with IN-Fusion+ data processing technology to achieve high-quality data in challenging GNSS environments. The MX90 also comes with reliable office software solutions to support multiple use cases and applications, such as road inspection workflows and integration into cloud-based applications for efficient data sharing.
    Trimble Geospatial, geospatial.trimble.com

    Photo:

    Collaborative Mapping Tool
    With spatial analysis features

    Felt 2.0 is a collaborative mapping tool with powerful data transformation tools. Now with spatial analysis features, users can manipulate and analyze geographic data. It has web-based collaboration features designed to make mapping workflows interactive and accessible across organizations.
    The software uses artificial intelligence (AI) to deliver faster workflows for geographic information systems (GIS) professionals. Users can utilize Felt’s Upload Anything capabilities to visualize any file format. The system will read, understand and deliver an internet-fast visualization to the users’ workspace. The software is available for download on tablets and other mobile devices.
    Felt, felt.com

    Image: savvy navvy

    Automatic Identification System
    Available on Android, IOS, PC and Mac

    The Over the Horizon (OHA) automatic identification system (AIS) is the newest update to the savvy navvy app. The update uses a phone’s internet connection to stream other vessels’ locations in real-time directly to the app to improve safety on the water.

    Traditional AIS received from the transceiver on the boat has a range of a few miles, whereas OHA is designed to show vessels further afield. While OHA does require an internet connection, users do not need additional hardware to see information on vessel movements.

    OHA AIS allows users to see vessels directly on the chart with small and large vessel crafts defined by different colors. Users can also check how crowded an anchorage might be — either from onboard or while planning routes at home.

    The savvy navvy application highlights when no position has been received for more than 30 seconds, which marks the positional variance area around each vessel and allows users to be extra vigilant when navigating.
    Available on Android, IOS, PC and Mac, the savvy navvy app can be used on multiple devices and is available in both free and “premium” options with enhanced access and functionalities.
    savvy navvy, savvy-navvy.com


    UAV

    Photo:

    Real-Time Command and Control System
    Supports BVLOS

    VigilantHalo is a software-based platform designed for real-time command and control of uncrewed airspace. The system supports a wide range of missions from air traffic control (ATC) to beyond visual line-of-sight (BVLOS) operations and counter-uncrewed aerial systems (C-UAS).
    VigilantHalo combines radar and multi-sensor surveillance technology into a comprehensive situational awareness solution. It is designed for disaster response and critical infrastructure defense and can be customized for specific mission requirements. The system’s flexibility allows deployment across cloud, mobile or fixed-site installations, which aims to address the evolving threats in national security and the National Airspace System (NAS).

    The system features integrated data processing, a fusion tracker and a communications system that enables operators to monitor and manage air traffic under various conditions. It leverages weather analytics from the National Oceanic and Atmospheric Administration (NOAA) and other sources to assess flight paths and identify safety risks. VigilantHalo uses a custom sensor data processor (SDP) that integrates data from different sensors and surveillance feeds into a unified display tailored to specific missions such as ATC, BVLOS, air defense and more.
    BlueHalo, bluehalo.com

    Photo:

    Dynamic Channel Switching
    Improves communication in the field

    The Skydio X10D UAV features dynamic channel switching to monitor signal interference and move to a clearer channel. This aims to improve wireless transmission signal quality during flights to ensure troops maintain communication with the UAV to accomplish their mission.
    Dynamic channel switching allows the X10D to provide adaptable communications between the drone and its accompanying controller in situations where the airspace is congested or under electronic warfare conditions. This feature ensures that reliable command and control is maintained and real-time data feeds are available even in challenging conditions.

    The X10D is designed for intelligence, surveillance and reconnaissance (ISR) applications critical to defense and government agencies. It delivers advanced sensor technology, autonomous navigation and a modular, open architecture for military needs.

    Skydio’s onboard AI and autonomy for small unmanned aircraft systems (sUAS) offers obstacle avoidance in zero-light environments and autonomous flight. Skydio X10D delivers enhanced compliance with federal standards, including the Robotics and Autonomous Systems – Air (RAS-A) Interoperability Profile (IoP) and an open, modular platform that supports third-party applications. RAS-A compliance and open MAVLINK protocol enable the use of third-party and government-owned flight application software.
    Skydio, skydio.com

    Photo:

    Lidar Sensor
    Integrates with UAVs

    The JoLiDAR-1000 is a new lidar sensor for UAVs. It aims to improve applications in GIS, surveying, and precision inspections of power lines. The JoLiDAR-1000 incorporates advanced lidar technology to improve measurement accuracy for UAV applications.

    The sensor features a 1,000 m medium-range laser scanner, using RTK and inertial measurement unit (IMU) fusion technology and laser scanning for enhanced measurement precision. It achieves a measurement accuracy of 5 mm, a repetition accuracy of 10 mm and a line scanning speed ranging from 10 lines to 300 lines per second. It has a 100° field of view and an angular resolution of 0.001 to precisely detect objects at extended distances.

    Designed with compact dimensions and weighing only 1.9 kg, the JoLiDAR-1000 is portable and integrates seamlessly with various UAV platforms. It incorporates a suite of technologies, including a GNSS high-precision positioning system, IMU, high-speed data acquisition systems, time synchronization systems and a 26MP RGB camera to enhance its data collection capabilities.
    The JoLiDAR-1000 streamlines operational processes by eliminating the need for base station setup and ground control points. It is equipped with high-precision POS solution computation and point cloud fusion capabilities. The sensor is suitable for a wide range of applications such as terrain mapping, power line inspection, mining surveying, coastline measurement, emergency mapping and natural resource surveying.
    JOUAV, jouav.com

    Photo:

    AI Autopilot
    Designed for USVs

    The Voyager AI Autopilot converts newly built or retrofitted unmanned surface vessels (USVs) into fully autonomous craft.
    The Robosys Autopilot module seamlessly integrates with Robosys’ Voyager AI Survey as part of the Voyager AI software suite. It enables remote and autonomous heading and speed control as well as various other mission modes for navigation and vessel control, specifically for hydrographic and oceanic surveying operations.

    The marine autopilot is designed to meet the demands of 3 m to 12 m electric drive surveys. It is easily scalable to full advanced autonomous navigation, which seamlessly integrates with third-party steering, drive and motor control systems to provide optimal vessel functionality for USVs and other craft.
    Robosys Automation, robosysautomation.com


    OEM

    Photo:

    Satellite Positioning Chips
    With AEC-Q100 Grade 2 reliability qualification

    Designed for automotive applications, the AG3335MA satellite positioning chip series has earned AEC-Q100 Grade 2 reliability qualification. The AEC-Q100 is designed to ensure reliability and safety beyond the requirements for consumer electronics.
    The AG3335MA series chips have been certified by a third-party quality management system equipped with an automotive specification laboratory. Achieving Grade 2 certification, these chips are tested for operation in extreme temperatures ranging from -40°C to 105°C, which caters to the demanding environments of automotive applications.
    The AG3335MA features ultra-low power consumption, high endurance and dual-frequency capability. It supports the five major global satellite systems and NavIC to ensure reliable operation in a broad temperature range and challenging weather conditions. Its GNSS receiver measurement engine has a satellite tracking sensitivity of -167 dBm and a cold boot positioning time of 25 seconds. This allows it to receive and process signals from all visible satellites simultaneously, offering increased accuracy in positioning.
    Airoha Technology, airoha.com

    SOM-SMARC Modules
    Powered by Qualcomm

    The Smart Mobility Architecture (SMARC) System on Modules (SoMs) are based on Qualcomm QCS6490 and Qualcomm QCS5430 application processors. These new SMARC modules are the first results of SECO’s strategic collaboration with Qualcomm Technologies, announced in September 2023.
    The SOM-SMARC-QCS6490 is designed to simplify the use of the Qualcomm QCS6490 processor. The chipset offers support for artificial intelligence (AI) and computing, robust performance at low power and expanded interfaces and peripherals catering to diverse industrial use cases.
    The Qualcomm Adreno 643 GPU offers enhanced graphics performance and energy efficiency. It supports FHD+ at 120 fps resolution on primary and secondary displays up to 4k Ultra HD at 60 Hz. The SOM-SMARC-QCS6490 supports Microsoft Windows 11 IoT Enterprise, Yocto Linux and Android, with both commercial (0°C to +60°C) and industrial (-30°C to +85°C) temperature variants available.
    The SOM-SMARC-QCS5430, powered by the Qualcomm QCS5430, is a mid-tier solution that slightly moderates CPU and GPU performance. This system-on-chip (SoC) combines enhanced connectivity, performance and edge AI-powered camera capabilities. It also provides scope for field software-based upgrades of the CPU and GPU by using the processor’s capabilities.
    SECO, seco.com

    Photo:

    INS
    Featuring FOG-based IMU

    The Phins 9 Compact is a high-performance inertial navigation system (INS) designed for all unmanned underwater vehicles. It offers a blend of navigation performance, reliability and size, weight and power (SWAP) efficiency.
    The Phins 9 Compact is built around a high-performance fiber-optic gyroscope (FOG)-based IMU with advanced accelerometers. With compact dimensions, a DVL-aided position accuracy of 0.1% TD, and a power consumption of less than 7 W, it is ideal for compact subsea vehicles in demanding applications with low power requirements.

    The INS aims to redefine the standards of subsea navigation in a wide range of applications, including survey-grade coastal and offshore seabed mapping, inspection repair and maintenance (IRM), defense and more.
    Exail, exail.com


    MOBILE

    Image: Abracon

    GNSS FR Antennas
    Supports a full spectrum of bands

    This series of GNSS RF antennas is designed to elevate location-based services with enhanced accuracy and precision. This new lineup aims to outperform conventional GPS technologies by offering faster signal acquisition, improved tracking capabilities and reduced power consumption.
    The antennas support a full spectrum of bands, including L1, L2, L5, and L-band data correction services. It can be used in a variety of sectors, such as agriculture, surveying, the Internet of Things (IoT), mapping, defense and aviation.
    The technology is designed to meet the rigorous demands for precise location data across various applications. These antennas offer multi-band and multi-constellation support to ensure broad compatibility. With centimeter-level accuracy, these antennas are crucial for aerospace, defense, asset tracking, geolocation, precision agriculture and industrial IoT.
    Abracon, abracon.com

    Image: SparkFun Electronics

    Iridium on the Go
    Magnetic mount antenna

    The 2J7426MPz by 2J antenna is a high-performance magnetic mount antenna that is designed specifically to communicate efficiently with the Iridium satellite communication system. It is manufactured with high-quality polycarbonate (PC) and acrylic-styrene-acrylate terpolymer (ASA), a thermoplastic combination that offers strong resistance to UV, moisture, and heat and enhances mechanical properties.
    The antenna housing is waterproof to IP69 standards and designed to operate in extremely harsh environments, including those with frequent exposure to water, dust and debris. It has a recommended operational and storage temperature of -40°C to +85°C. The magnetic mount allows for easy installation and removal between vehicles or assets, and it is easily converted to an adhesive type for greater flexibility.
    It is delivered with a standard SMA-male connector and a standard 300 cm long coaxial LL100 cable. Iridium has certified the 2J7426MPz antenna for commercial use in connection with the Iridium communications system.
    SparkFun Electronics, sparkfun.com

  • Hexagon | NovAtel upgrades GNSS resilience and integrity technology

    Hexagon | NovAtel upgrades GNSS resilience and integrity technology

    PhotoPhoto: Hexagon | NovAtel
    Photo: Hexagon | NovAtel

    Hexagon | NovAtel has launched the NovAtel Application Suite Version 2.0, now including GNSS Resilience and Integrity Technology (GRIT). The GRIT Monitor application allows users to observe radio frequency (RF) interference through a comprehensive dashboard to make informed decisions to maintain robust positioning.

    GRIT is RF interference detection and mitigation technology available on all OEM7 GNSS receiver products, including individual cards and enclosures such as smart antennas, PwrPak and MarinePak.

    GRIT Monitor is a RF interference software visualization tool to offer a real-time, at-a-glance interface of all relevant data in a single dashboard view.

    It includes positioning and device status overviews to serve as a mitigation assistant that indicates whether interference is detected. It features an interactive spectrum viewer, which shows all constellations and frequency bands (spectrum and waterfall), and a signal matrix indicating the signal quality and interference status by frequency band and constellation.

    The updated suite also introduces improvements to user interface, firmware compatibility and extends support to include MarinePak among other enhancements. The Manage application, previously known as Setup and Monitor, now supports satellite tracking for L-Band and SBAS and offers a global map view of connected receivers.

    Version 2.0 of the NovAtel Application Suite is designed to assist users in maintaining accurate GNSS positioning by quickly identifying and responding to RF interference. This update is targeted at industries that require precise location data, such as aerial mapping, agriculture and autonomous vehicle navigation.

    To access the new GRIT Monitor application, download NovAtel Application Suite Version 2.0 at https://bit.ly/3weNXbi.

  • Hexagon releases ionospheric scintillation firmware

    Hexagon releases ionospheric scintillation firmware

    Image: Hexagon | Novatel
    Image: Hexagon | Novatel

    Hexagon | NovAtel has released its 7.09.01 and 7.09.02 firmware, designed to provide improved precise point positioning (PPP) accuracy and availability for ionospheric scintillation on all OEM7 receiver boards, enclosures and SMART Antennas.

    Ionospheric scintillation refers to rapid fluctuations in GNSS signal strength and phase due to localized irregularities in the electron density of the ionosphere resulting from solar activity. Scintillation adversely affects GNSS positioning particularly around the geomagnetic equator after local sunset.

    Ionospheric activity is increasing as the peak of Solar Cycle 25 is approaching. To mitigate these effects, 7.09.01 and 7.09.02 firmware is designed to offer substantial enhancements to the accuracy and availability of high-precision positioning during ionospheric scintillation.

    Version 7.09.01 is available for agriculture applications replacing Version 7.08.15. Version 7.09.02 is available for all other markets replacing Version 7.09.00.

    Data comparing the performance of 7.09.01 and 7.09.02 to previous firmware versions showed 60% improved TerraStar-C PRO PPP accuracy during periods of ionospheric scintillation and less than 90% uptime with TerraStar-C PRO PPP in scintillation regions.

    Additionally, the 7.09.01 for agriculture includes Precision time protocol (PTP) available on SMART7-I and SMART7-SI for synchronizing accurate GNSS time with other devices on a shared network. Compared to the previously released Version. 7.09.00, the system shows improvements to the time to first fix (TTFF).

    Users can download the firmware updates for specific platforms at https://bit.ly/3Jr8hJi

  • Inertial Labs improves INS solution

    Inertial Labs improves INS solution

    Photo: Inertial labs
    Photo: Inertial labs

    Inertial Labs has integrated the FT Technologies FT743-D-SM Acoustic Resonance air speed sensor into its inertial navigation systems (INS).

    This integration aims to improve the accuracy of horizontal air speed estimation for multi-rotor UAVs, even in GNSS-denied environments. The FT743-D-SM airspeed sensor is a digital anemometer-based solution that can estimate airspeed incoming from any direction using acoustic resonance technology, which is immune to vibration and external acoustic noise. The airspeed magnitude and direction allow the INS to estimate horizontal air speed in the longitudinal and lateral axes.

    The INS receives aiding data from the dual-axis airspeed sensor and experiences significantly less position drift compared to a dead reckoning alternative in GNSS-denied environments, the company said. The system can be used in mission-critical roles in multiple military or defense applications, as well as in civilian applications such as wind energy, marine navigation, UAVs and dynamic positioning systems.

  • Quectel unveils 5G and GNSS antennas

    Quectel unveils 5G and GNSS antennas

    Image: Quectel
    Image: Quectel

    Quectel Wireless Solutions has expanded its antenna portfolio with the introduction of 5G antennas and high-performing GNSS antennas, designed to improve positioning and navigation capabilities for Internet-of-Things (IoT) devices. 

    The YEGB000Q1A and YEGN000Q1A active GNSS L1 and L5 antennas are designed to precisely tap into L1 and L5 frequency bands, which is crucial for advanced navigation applications. These antennas, operating within the 1164-1189MHz and 1559-1606MHz frequency bands, are designed to support a variety of installation methods, catering to diverse application needs with options for screw mount, adhesive mount, magnetic mount and various cable connections. 

    Quectel’s GNSS antennas are part of a broader release that includes the YEMN016AA and YEMN017AA 5G 5-in-1 combination antennas, which also feature GNSS capabilities. 

    These GNSS antennas are crucial for applications that require high levels of navigation accuracy, such as autonomous vehicles, UAV delivery systems and precision farming. 

    In addition to the GNSS-focused antennas, Quectel introduced external 5G antennas, the YECN001J1A and YECT000WBA, designed for omnidirectional high-speed data transmission. They are compatible across 5G NR Sub-6 GHz, 4G, 3G, 2G and LPWA bands, offering flexibility and high efficiency for wireless communication devices. 

    Quectel provides extensive support for its antennas, including custom antenna solutions tailored to users’ specific needs. This support includes design, simulation, testing and manufacturing services to offer optimal integration with Quectel’s wide range of modules for IoT deployments.