Author: Jesse Khalil

  • GMV improves airport navigation performance

    GMV improves airport navigation performance

    Image: GMV
    Image: GMV

    The European Organization for the Safety of Air Navigation (EuroControl) has awarded GMV a contract for the evolution of AUGUR, a free service for pilots, airspace users and air navigation service providers.

    AUGUR is a web-based service that makes it possible to predict the availability of the GPS and receiver autonomous integrity monitoring (RAIM) navigation solution for a wide range of air operations. The RAIM processing algorithm, which is standardized and incorporated into most aeronautical GPS receivers, allows operators to check the integrity of GPS satellite signals by exploiting the redundancy of measurements offered by the current constellation.

    Although only four satellites in view are needed to calculate the position and time of the aircraft, the current GPS constellation has 31 active satellites, meaning that the receivers are getting signals from more than four satellites much of the time. The RAIM technique takes advantage of these additional measurements to check the integrity of the satellites and ensure the position obtained is correct within the alarm limits established for each operation.

    Within the framework of the new project, GMV will lead all phases related to the development of the new AUGUR services, including the definition of requirements, design, implementation, verification, validation and software deployment. Throughout the process of designing, developing and validating the new version, GMV will also continue to provide the current services, ensuring that they are not interrupted. The new version will be available in May 2025.

    The improvements made to the AUGUR include RAIM GPS availability displayed on a map and the integration of the planned Navigation Integrity Category (NIC), which measures the quality of the aircraft navigation position transmitted via automatic dependent surveillance–broadcast (ADS-B).  It also issues space weather warnings such as solar flares, geomagnetic storms and coronal mass ejections (CME) and has options to import or export geographic data in industry-standard formats.

  • Topcon boosts support for Get Kids into Survey project

    Topcon boosts support for Get Kids into Survey project

    Topcon Ninja Wildcat, one of the sponsored characters featured in the Get Kids into Survey campaign. (Image: Topcon)
    Topcon Ninja Wildcat, one of the sponsored characters featured in the Get Kids into Survey campaign. (Image: Topcon)

    Topcon Positioning Systems has expanded its support for the Get Kids into Survey (GKiS) project, now serving as the exclusive sponsor of the Global Brand Ambassador Hub. This new platform will offer a comprehensive range of resources to the project’s Brand Ambassadors, a worldwide community of volunteers who visit schools to advocate for surveying as a career and introduce students to the surveying and geospatial industries.

    Get Kids into Survey originated in 2017 and was initiated by cofounder Elaine Ball through the creation of a poster that surveyors could use to explain the profession to children. Since its inception, the project has continued to highlight the work of surveyors for young audiences, backed by an industry keenly aware of the necessity to attract the next generation of surveyors.

    The Hub will allow GKiS to develop and host resources for the global network of ambassadors and aims to increase participation in career fairs, workshops and educational activities across more than 30 countries.

    By sponsoring a homework project with GKiS, Topcon will also have its own unique GKiS cartoon character, Yumi the Wildcat Survey Ninja. Yumi will be the face of the Topcon brand to young aspiring surveyors and be given her own Character Spotlight on the GKiS blog.

    Research conducted by Topcon has shown that nearly a third of construction managers throughout Europe have identified skill shortages as a major challenge in their projects.
    According to Topcon, this shortage stems from a combination of experienced employees leaving the industry and a lack of recruits. Programs such as GKiS represent just one example of the outreach and educational initiatives designed to address and reverse this trend.

    “The GKiS project is about lifting the lid on the geospatial and survey industries for young people, and showing that they are exciting, future-gazing and technology-driven careers,” said Elaine Ball, co-founder of GKiS.

  • 1Spatial secures contract for geospatial services in Belgium

    1Spatial secures contract for geospatial services in Belgium

    Image: 1Spatial
    Image: 1Spatial

    1Spatial, a location master data management (LMDM) software and solutions provider, has secured a three-year contract with a leading Distribution System Operator for electricity and gas networks in Belgium. 1Sparial plans to support the utility company in developing a digital twin for its distribution network, with a focus on enhancing the quality and precision of its geospatial data.

    The contract is for geospatial data processing services. 1Spatial’s 1Integrate will be used for data quality control, validation and geospatial data production services.

    The project will allow the utility company to efficiently manage distribution networks and make connections and repairs while ensuring safety.

    The total contract value to 1Spatial is €9 million, of which 1Spatial will deliver €4.1 million including €0.3 million in term software license revenue. 1Spatial will utilize partners to deliver the balance of the work, with a total value of €4.9 million, over the three-year duration of the contract.

  • Trimble, DroneDeploy collaborate on UAV mapping

    Trimble, DroneDeploy collaborate on UAV mapping

    Image: Trimble Applanix
    Image: Trimble Applanix

    Trimble has collaborated with DroneDeploy to integrate the Trimble Applanix POSPac Cloud post-processed kinematic (PPK) GNSS positioning service into DroneDeploy’s UAV mapping and data collection platform. The partnership aims to provide DroneDeploy users with centimeter-level accuracy and a more efficient workflow for reality capture projects.

    The integration uses Trimble  Applanix POSPac Cloud PPK service and CenterPoint RTX post-processing to achieve high-accuracy positioning based on dual-frequency observables logged by UAVs. The collaboration marks a significant advancement in drone mapping technology by eliminating the need for base stations and simplifying operational workflows.

    Trimble’s RTX services offer real-time and post-processed centimeter-level accuracy globally and provide corrections via satellite or cellular/IP. The technology is designed to streamline the mapping process for UAV operators by offering an automated setup, a fixed global datum and reduced field time.

    DroneDeploy’s platform, which is enhanced with Trimble’s Applanix POSPac Cloud PPK and RTX, aims to improve the accuracy of 3D reality capture models, opening up new possibilities for UAV operations in construction, topography and other industries.

  • Aerodyne Group promotes cross-border UAV delivery service

    Aerodyne Group promotes cross-border UAV delivery service

    Aerodyne Group, a UAV-based enterprise solutions provider, and Singapore-based DroneDash Technologies have partnered to initiate cross-border UAV delivery services. The collaboration is designed to advance logistics and supply chain capabilities between Malaysia and Singapore and enhance operational efficiency by offering a delivery solution that is five times faster than traditional sea freight.

    Under the partnership, UAVs will navigate through regulatory landscapes to secure necessary permits for establishing shore-to-shore operations along the Malaysia-Singapore corridor. The initiative focuses on safe navigation through congested maritime and aerial paths by offering a navigation system supported by satellite communications and 5G roaming.

    Commercial operations are expected to begin in the third quarter of 2024 with UAVs capable of carrying up to 30 kg, reaching speeds of 150 km/h within a four-hour flight span.

    The service is designed for critical deliveries such as urgent documents, high-value electronics, medical supplies and perishable foods. The UAV has features to enhance cross-border logistics, including real-time tracking and advanced security protocols, including 256-bit encryption and blockchain technology for logistical oversight.

  • Inertial Labs, E38 collaborate for UAV-lidar integration

    Inertial Labs, E38 collaborate for UAV-lidar integration

    Image: Inertial Labs
    Image: Inertial Labs

    Inertial Labs has entered a strategic partnership with E38 to integrate Inertial Labs’ RESEPI lidar payload into E38’s advanced E455 UAV. The technology is ideal for professional surveying, mapping and inspection services.

    RESEPI is a sensor-fusion platform designed for accuracy-focused remote sensing applications. It leverages a high-performance Inertial Labs inertial navigation system (INS) and a high-accuracy single or dual-antenna GNSS receiver integrated with a Linux-based processing core and data-logging software. The lidar system will seamlessly integrate with the E455 drone, which aims to improve its capabilities to capture high-resolution, 3D spatial data across various environments. The technology can be used in construction, agriculture and environmental monitoring by offering detailed and accurate data.

    The E455 is a fixed-wing vertical takeoff and landing (VTOL) UAV designed to operate on battery power with a maximum takeoff weight of up to 29.5 kg. It features a removable payload bay with an open architecture at the center of gravity to provide maximum utility and flexibility for a variety of mission requirements. Capable of flying for over two hours or carrying payloads of almost 7 kg, the E455 is ideal for extensive surveying and mapping missions with the integrated RESEPI Payload Lidar system.

    Combining the E455 drone’s robust flight capabilities with the high-precision lidar technology of the RESEPI payload will enable users to gather detailed topographic data in challenging terrains and under diverse conditions.

  • Mosaic, Movella improve mobile mapping and geospatial analysis

    Mosaic, Movella improve mobile mapping and geospatial analysis

    Image: Mosaic/ Movella
    Image: Mosaic/ Movella

    Mosaic and Movella have collaborated to combine the Mosaic 51 and Mosaic X camera systems with Movella’s Xsens Vision Navigator (XVN). The collaboration aims to bolster GIS platform integration and allow for extensive and precise 3D reconstruction. It uses inertial measuring unit (IMU) data generated by XVN and directly connects to the OBD port. The integration is ideal for precise mapping and surveying applications.

    The XVN, which is fully integrated with Mosaic cameras, offers centimeter-level accuracy using real-time kinematic (RTK) and incorporates orientation information to eliminate the need for additional post-processing steps to achieve precise positioning. The seamless georeferencing of stitched images, including the embedding of orientation data, is automatically executed as part of the stitching process.

    The Mosaic 51 system can capture up to 12K resolution in challenging environments. The Mosaic X extends these capabilities and integrates seamlessly with photogrammetry technologies for comprehensive mobile mapping.

    Movella’s Vision Navigator stands out as a dual RTK GNSS/INS and vision-enabled navigation unit, adept at tracking accurate 3D position, velocity and orientation in challenging outdoor and GNSS-denied environments. The solution is supported by innovative Visual Inertial Odometry technology.

  • Launchpad: Lidar systems, PNT platforms and UAVs

    Launchpad: Lidar systems, PNT platforms and UAVs

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


    SURVEYING & MAPPING

    ComNav Technology

    Handheld GIS Data Collection Solution
    For outdoor operations

    The handheld P6H solution is designed for GIS data collection and outdoor operations. Featuring a GNSS high-precision positioning module, rugged IP67-rated design, and 6-inch sunlight-readable display, the P6H offers positioning accuracy in harsh environments.
    Equipped with a SinoGNSS self-developed high-precision K8 board and antenna, it can track all running and planned constellations with 1,590 channels, including GPS, BeiDou, GLONASS, Galileo, QZAA, IRNSS, and SBAS.

    The P6H offers users centimeter- or decimeter-level accuracy. Its IP67 rating protects against dust and water to enhance its efficiency and durability in tough environments.

    The device comes equipped with Survey Master and robust GIS functions, which allow users to take measurements of geographic elements and store the results as attribute data for subsequent analysis, calculation, and visualization. It also includes a mock location function for users to accurately share Survey Master’s position with P6H. The location data can then be accessed on a third-party GIS software.

    It is also compatible with common GIS software such as ArcGIS Collector, Mapit GIS, and QGIS. Additionally, the P6H features an 8-core 2.0 GHz processor, up to 128 GB of storage and up to 6 GB of RAM to offer users smooth software operation and efficient data processing.

    PH6, which features a high-precision GNSS module and antenna, also incorporates 4G LTE, Wi-Fi, and Bluetooth to improve its data transmission and sharing capabilities.

    ComNav Technology, comnavtech.com

    YellowScan

    Bathymetric Lidar System
    Maps underwater topography

    YellowScan Navigator is a bathymetric lidar system designed for surveyors to map underwater topography in rivers, ponds, and coastal areas.

    The system features a laser scanner developed in-house over the course of five years and has been heavily tested to achieve optimal performance. The compact system can map waterbeds with a depth of up to 3 m and can reach a depth of 18 m in perfectly clear water conditions, according to the company. It can be flown up to 100 m above the water surface and provides measurements with an accuracy of 3 cm. Additionally, a camera is embedded for true-color data visualization.

    YellowScan, yellowscan.com

    DJI

    3D Model Editing Software
    For aerial surveying, transportation, and emergency responses

    DJI Modify is an intelligent 3D model editing software. It can be seamlessly integrated with DJI’s enterprise UAVs and 3D modeling and mapping software, DJI Terra. When integrated with these products, the software can be used for aerial surveying, transportation, and emergency responses.

    DJI Modify paired with DJI Terra offers users an end-to-end solution from modeling to model editing. Once DJI Modify has been enabled, DJI Terra files for model editing are automatically generated, including pre-identified objects and pre-processing of the model. It is designed to make repairing common 3D model defects seamless and efficient. As of early 2024, DJI Modify will only support repairing models built by DJI Terra.

    DJI Modify allows for model files to be quickly imported and exported to the DJI Terra and other third-party software. Its intelligent auto-repair editing supports flattening, editing textures, repairing water surfaces, removing floating parts, and filling holes. Edits can be made using one-click repairs or manually by selecting custom polygons, areas or meshes.

    The software’s smoother model display technology allows high- and low-quality models to be viewed and edited in a single interface. Changes made can be synchronized across both models and previewed immediately, which allows users to address model editing issues in real-time.

    DJI, store.dji.com


    OEM

    Oxford Technical Solutions (OxTS)

    GNSS/IMU
    Uninterrupted position, orientation, and dynamics

    RT3000 v4 GNSS inertial measurement unit (IMU) combines two survey-grade GNSS receivers with OxTS’ IMU10 inertial technology. The RT3000 v4 offers uninterrupted position, orientation and dynamics in challenging environments.

    The IMU will reach the desired specification within three minutes of low dynamic movements, which reduces the time and space required for high dynamic maneuvers before each data collection.

    Users can customize the INS with optional features and software integrations to create the ideal INS for individualized projects, including lidar surveying and mapping or positioning in GNSS-denied or challenged environments.

    Oxford Technical Solutions (OxTS), oxts.com

    SiLC Technologies

    Precision Lidar Technology
    Provides vision capabilities in challenging environments

    The Eyeonic Vision System Mini (Eyeonic Mini) supports sub-millimeter resolution in a reduced size. The system integrates a full multi-channel FMCW lidar on a single silicone photonic chip and an integrated FMCW lidar system-on-chip (SoC).

    The Eyeonic Vision Chip combines crucial photonics functions into a coherent vision sensor. The system’s accuracy stems from a 4-channel FMCW LiDAR chip — supported by Indie Semiconductor Surya SoC technology — to provide robots with sub-millimeter depth precision from distances exceeding 10 m.

    The technology offers enhanced precision and can be used in automation, including warehouse logistics and artificial intelligence (AI) machine vision applications. Palletizing robots equipped with the Eyeonic Mini can view and interact with pallets, which aims to optimize package placement and truck loading with greater efficiency and safety.

    SiLC Technologies, silc.com

    SiTime Corporation

    PNT Platform
    Used in critical defense operations

    The Endura Epoch Platform provides robust and resilient positioning, navigation, and timing (PNT) services critical in defense operations.
    The MEMS oven-controlled oscillator (OCXO) can boost the resilience of PNT systems and other equipment, including radars, field and airborne radios, satcom terminals, and avionics against spoofing, jamming and other disruptions in GPS signals.

    Based on the Epoch Platform, the Endura Epoch MEMS OCXOs are designed to meet the challenging shock and vibration conditions found in aerospace and defense. These devices are manufactured using semiconductor processes that deliver the reliability and quality expected from silicon devices. The same level of reliability cannot be achieved by quartz crystal OCXOs, specifically in extreme conditions.

    The Endura Epoch MEMS OCXOs, compared to quartz crystal OCXOs, includes various features and benefits, including programmable frequencies from 10 to 220 MHz; a 20,000 g shock survivability rating; up to 20 times better frequency stability over temperature; up to three times better Allan deviation, a measure of short-term frequency stability; surface-mountable, small footprint and low height 9.0 x 7.0 x 3.6 mm; low weight of 0.35 g; 420 mW steady state power.

    SiTime Corporation, sitime.com

    Murata

    IMU
    With an XYZ-axis gyroscope and accelerometer

    The SCH16T-K01 is an inertial measurement unit (IMU) featuring a XYZ-axis gyroscope and a XYZ-axis accelerometer, for a total of six degrees of freedom.

    The SCH16T-K01 includes a sophisticated gyro with typical bias instability of 0.5 dph and up to 0.3 mdps/√Hz noise density. The accelerometer has a dynamic range of up to 26 g, which provides resistance against saturation and vibration.

    The component’s output is internally cross-axis compensated, which eliminates the need for extensive calibration. Through the integration of these features, the SCH16T-K01 can deliver accurate measurements in machine control and guidance without field calibrations.

    It is suited for industrial applications such as construction and agricultural machines, material handling equipment, marine instrumentation, robotics, and UAVs.

    Murata, murata.com

    ANELLO Photonics

    3-Axis Optical Gyroscope IMU
    For GPS-denied environments

    The ANELLO X3, a 3-axis optical gyroscope inertial measurement unit (IMU), is designed for GPS-denied and challenging environments.

    The IMU leverages ANELLO SiPhOG (Silicon Photonics Optical Gyroscope) technology and serves as a light, low-power tri-axial optical gyroscope offering high accuracy, performance, and reliability for autonomous applications.

    The ANELLO X3 can be used in a variety of applications, including autonomous commercial and defense applications involving robots, UAVs, electric vertical take-off and landing (eVTOL) aircraft and various maritime and land vehicle applications, including high-accuracy surveying and mapping.

    ANELLO Photonics, anellophotonics.com


    MOBILE

    Septentrio

    Smart Antenna
    Centimeter-level RTK positioning

    The AntaRx smart antenna is designed for machine automation and control in construction, precision agriculture, and logistics. It is enclosed in a rugged and compact housing for simplified installation and can handle high levels of shocks and vibrations, making it ideal for harsh industrial environments such as construction and mining.

    The multi-frequency receiver offers centimeter-level real-time kinematic (RTK) positioning and can be used in inertial navigation system (INS) integration, dual antenna mode, and 4G cellular communication. It is available in several configurations, including as a GNSS smart antenna or a GNSS/INS smart antenna system and can be integrated as an inertial measurement unit (IMU).

    The receiver technology integrates the company’s GNSS+ algorithms, including advanced multipath mitigation, which offers uninterrupted operation in challenging conditions such as near high structures or machinery.

    Septentrio, septentrio.com

    SatLab Geosolutions

    Handheld Scanner
    With SLAM technology

    The Lixel X1 is a powerful 3D scanner that combines lidar, visible-light and motion cameras, and high-precision inertial sensing using SatLab’s simultaneous localization and mapping (SLAM) technology.

    Data and scene reconstruction can be previewed in real time and can be exported immediately after scanning without the need for post-processing, which aims to simplify workflows and enhance efficiency.

    The system enables scans to be resumed from breakpoints, which allows surveys to be broken up into convenient segments. It provides up to 60 minutes of continuous operation and can be easily mounted to UAVs and other mobile mapping platforms.

    SatLab Geosolutions, satlab.com

    Antenova

    Ceramic Antenna
    For connectivity on L1 GNSS signals

    Admotus is a surface-mount ceramic antenna designed for connectivity on L1 GNSS signals on all constellations, including GPS-L1 at 1575.42 MHz; GLONASS L1, 1602MHz; Galileo L1, 1575.42 MHz; BeiDou (B1); and QZSS. It offers comparable performance to a small patch antenna on a small ground plane.

    The ceramic antenna has an ultra-low profile measuring a mere 1.0 x 0.5 x 0.5 mm, requires 7 x 15 mm clearance area and offers improved performance on small PCB sizes.

    Admotus offers a peak gain of 0.9 dBi with an average gain of –2.6 dB and offers maximum return loss of –11.5 dB and a maximum VSWR of 1.8:1. A companion evaluation PCB is also available for internal analysis.

    It is suitable for all GNSS positioning applications in the L1 band (1559 – 1609 MHz) such as wearable devices for fitness and medical monitoring, small portable tracking devices used to track keys, pets, bikes, UAVs, agricultural robotics, and telematics devices.

    Antenova, antenova.com

    Juniper Systems

    Rugged Tablet
    For mobile field workers

    The Mesa 4 Rugged Tablet features a 7-inch display and runs on Windows 11. It is designed to provide powerful rugged computing and data collection to mobile field workers.

    The Mesa 4 comes with a new Intel N200 processor. It offers up to three times the CPU performance of the Mesa 3 and has an increased RAM size and speed to enhance its processing power. Mesa 4 has an IP68 rating, MIL-STD-810H certification and ergonomic design for all-day carrying.

    Juniper Systems, junipersys.com


    UAV

    RuggON

    UAV Ground Control System
    On an 8-inch rugged tablet

    The Ground Control System (GCS) for UAVs is centered around RuggON’s LUNA 3 8-inch rugged tablet. It is designed to provide real-time control, telemetry, and satellite positioning for connected UAVs.

    GCS is designed to provide users more control over a variety of UAVs by using the LUNA 3 rugged tablet, which has a large and high-definition screen to provide video feedback during operations. The system is also certified to provide GNSS positioning and tracking services.

    Featuring a low-latency video software decoder, GCS allows for real-time high-resolution video viewing and data collection. Engineered to withstand dust, shock, and water, the control system can withstand challenging environments.

    The LUNA 3 8-inch rugged tablet stands as a powerful and efficient model within its class, powered by an Intel Core i5 processor (1145G7E) with Intel Iris Xe graphics and the Windows operating system. Its sunlight-readable display supports night and stealth modes, which is cruicial for law enforcement and military applications. The tablet offers touchscreen functionality for enhanced operator convenience, complemented by ethernet and optional Wi-Fi 6, and 4G LTE connectivity.

    RuggON, rugon.com

    Aeromao

    VTOSL
    Bridging the gap between land and sea

    The VT-Naut, vertical takeoff and short landing (VTOSL) is a versatile aerial solution designed for a variety of applications, including high-precision mapping and surveying for inspection, scouting, observation, and agriculture.

    The VT-Naut can land on water, which makes it ideal for shipboard or coastal operations, and opens new ways for users to collect and observe data. It has a long-range telemetry link of 30 km and a flight endurance of up to 90 minutes. Its compact and robust body design provides durability and resilience in harsh environments.

    The VT-Naut UAV system offers a cost-effective alternative to full VTOL platforms, particularly for users who require extensive surveying capabilities and have some flexibility in landing site selection. The system eliminates the extra costs associated with acquiring and operating a VTOL multirotor drone.

    Aeromao, aeromao.com

    Nearthlab

    Folding UAV
    For challenging environments

    The AIDrone UAV is designed for a variety of applications, from infrastructure inspections and renewables to defense and public safety.
    The UAV features a high-performance payload, fitted with a 64MP EO/IR camera mounted on a dual-axis gimbal that can support vertical rotation of up to 200°. AIDrone can spot millimeter-sized cracks and detect subtle temperature changes in challenging environments.

    AIDrone uses Nearthlab’s vision-based autonomous flight technology to operate autonomously — in zero-light and GPS-denied environments — both indoors and outdoors.

    It weighs around 4 lbs and has a foldable structure. AIDrone is designed for intelligence, surveillance, and reconnaissance (ISR) purposes, which makes it ideal for crisis management scenarios such as wildfire response and law enforcement.

    Nearthlab, nearthlab.com

    Krattworks

    ISR UAV
    With jamming resistant-radio

    The Ghost Dragon intelligence, surveillance, and reconnaissance (ISR) UAV offers higher resistance against jamming and spoofing. The UAV is equipped with a thermal and visual light camera and jamming-resistant radio. Its wide frequency hopping radio is used to provide a jamming-resistant video and telemetry link, which makes it difficult to detect the UAV and interfere with the mission.

    The Ghost Dragon ISR uses a dual-band GNSS module that operates on both L1 and L5 bands, which allows for flight operations even in challenging environments. The UAV can operate in radio silence mode in the presence of GNSS and store reconnaissance data on an encrypted SD card to view after the UAV has landed. The video and target location information streamed to the operator is also georeferenced.

    The UAV can be redirected, flown back to base, or handed to another operator at a different ground control station at any time.

    Krattworks, krattworks.com

  • Seen & Heard: Deep sea coral reefs and lava in Iceland

    Seen & Heard: Deep sea coral reefs and lava in Iceland

    “Seen & Heard” is a monthly feature of GPS World magazine, traveling the world to capture interesting and unusual news stories involving the GNSS/PNT industry.


    Photo: NOAA Ocean Exploration
    Photo: NOAA Ocean Exploration

    Exploring the Largest Deep-Sea Coral Reef

    Scientists have mapped the largest deep-sea coral reef, stretching hundreds of miles off the U.S. Atlantic Coast. While researchers have known since the 1960s that some corals were present off the Atlantic Coast, the reef’s size remained a mystery until new underwater mapping technology made it possible to construct 3D images of the ocean floor. The National Oceanic and Atmospheric Administration (NOAA) and a team of scientists recently published maps of the reef in the journal Geomatics. The reef extends for about 310 miles from Florida to South Carolina. The total area is nearly three times the size of Yellowstone National Park.

    Photo: ESA
    Photo: ESA

    Lava in Iceland

    Grindavík, a tiny town in Iceland, stands on the brink of volcanic lava flow in images captured by the European Space Agency (ESA). The lava originates beneath the Svartsengi volcano system — roughly 2.5 miles north of the town — which erupted on December 18 and January 14. ESA’s Sentinel2 satellite revealed the glow of the lava flow’s heat, not far from houses and other infrastructure within Grindavík. The town, with just 3,800 residents, has faced constant evacuations, as well as mini-earthquakes as a result, The Guardian reported.

    Photo: Maris Maskalans / iStock / Getty Images Plus / Getty Images
    Photo: Maris Maskalans / iStock / Getty Images Plus / Getty Images

    Lidar Reveals Lost Cities in the Amazon

    In the Amazon rainforest, archeologists have discovered a vast and highly complex system of ancient cities dating back nearly 3,000 years. Located in Ecuador’s Upano Valley, the structures lie in the eastern foothills of the Andes mountains, according to a study published in the journal Science. After more than 20 years of research, the ancient urban centers were only discovered when the Ecuadorean government employed lidar technology. Researchers from France, Germany, Ecuador and Puerto Rico conducted a lidar survey that covered roughly 300 km2, which revealed a landscape full of organized human activities, including more than 6,000 rectangular earthen platforms, as well as agricultural terraces and drainage systems. According to the study, these structures formed at least 15 distinct settlements, which were connected by a system of wide, straight roads.

    Photo: nickalbi / iStock / Getty Images Plus / Getty Images
    Photo: nickalbi / iStock / Getty Images Plus / Getty Images

    Tracking Cattle from Space

    Australian scientists are attempting to track 1,000 cattle and buffalo using artificial intelligence (AI), and GPS satellites, reported euronews.next. An estimated 22,000 cattle and buffalo roam free in a remote area of Arnhem Land, Australia, though the exact number is unknown. Scientists are now collaborating with stockmen and indigenous rangers in a four-year program that involves monitoring feral animals from space. Titled SpaceCows, the remote herd management system is backed by the Australian government’s Smart Farming Partnership initiative. Local rangers and stockmen are chasing and catching animals to attach solar-powered tags with GPS receivers.

  • Topcon upgrades TSS network

    Topcon upgrades TSS network

    Photo:Topcon Positioning Systems’ U.S.-based Topcon Solutions Store (TSS) network now offers the Topcon Layout Navigator (LN) combined with HP SitePrint. The integration aims to advance construction automation and efficiency for a wide range of professionals including general contractors and mechanical, electrical and plumbing (MEP) contractors.

    Integrating Topcon’s LN-150 with HP SitePrint’s autonomous robotic unit that prints site layout plans directly on construction floors aims to advance construction technology. The solution is designed to streamline the site layout process, which is to save time and cost by replacing manual layout methods with digital precision.

    The LN-150 supports Wi-Fi and long-range Bluetooth communication. It is also compatible with cloud-based workflows to offer precise 3D layout capabilities that are increasingly vital due to labor shortages.

    TSS now offers the solution across its 20-state network. Click here to learn more.

  • Stonex launches hybrid mobile mapping solution

    Stonex launches hybrid mobile mapping solution

    Image: StoneX
    Image: StoneX

    Stonex has launched the X70GO SLAM laser scanner designed for fast and efficient large-area surveys. It combines mobile scanning with a stationary mode to scan with high resolution to enhance overall surveying capabilities.

    X70GO is a real-time 3D model reconstruction device that integrates an inertial navigation module, high-performance computer and storage system. It is equipped with a 360° rotating head, which, combined with the SLAM algorithm, can generate high-precision point cloud data. The built-in 512GB memory disk stores survey results and the dismountable handle has a 1.5-hour battery life.

    A 12MP RGB camera offers texture information, while a visual camera aims to enhance the real-time preview with the GOapp. Mapping results can be generated immediately inside the scanner. Users can then color the points and improve their accuracy during post-processing with GOpost software.

    The system comes with a hybrid scanning capability. The X-Whizz mode combines the advantages of SLAM mode with the resolution of a static scan, which eliminates the need for multiple scan stations. Users can move around the scene to collect the entire 3D point cloud without time-consuming cloud-to-cloud alignment.

    The technology incorporated in the new scanner is designed to provide extended range, a higher number of points per second and advanced onboard processing algorithms. The SLAM laser scanner is well-suited for challenging and demanding environments and can be used in a variety of applications, including BIM, industrial sites, real estate, heritage preservation, tunnels and mining.

    Users can add an RTK module to set a point cloud in a global coordinate system. This can support the addition of GNSS information to lidar and inertial measurement unit (IMU) in the SLAM algorithm. In situations with limited GPS connectivity – such as indoors or in challenging environments – the system will rely on lidar and the IMU for positioning purposes.

  • Inertial Labs enhances remote sensing payload

    Inertial Labs enhances remote sensing payload

    Image: Inertial Labs
    Image: Inertial Labs

    Inertial Labs has launched the RESEPI lidar Gen-II remote sensing payload instrument. It comes in three modes to cater to users’ individual operational needs: aerial mode for comprehensive airborne data collection, mobile mode for dynamic vehicular data collection and a versatile handheld/backpack that aims to provide portability and ease of use for ground personnel.

    The RESEPI lidar Gen-II has a 175% increase in computing power, designed to speed up processing and enhance efficiency during complex tasks. Its memory capacity has been increased by 700%, which allows for extensive data handling and improved system performance. The system’s 50% increase in storage capacity aims to facilitate longer durations of data collection without frequent offloads.

    The Gen-II features seamless integration capabilities with UAVs and other platforms. The system’s sensor-agnostic design allows for external sensors to be easily integrated, including lidar and cameras. It can also compute point clouds, trajectories and solutions in real time, which is critical in time-sensitive missions.  The system can be used in a variety of applications including mapping, inspection, autonomous, navigation and robotics.