GPS World

Tag: MALE UAS

  • Launchpad: Professional UAVs, Android mapping, video telematics

    Launchpad: Professional UAVs, Android mapping, video telematics

    A roundup of recent products in the GNSS and inertial positioning industry from the May 2022 issue of GPS World magazine.

    SURVEYING

    Measurement Workflows

    Field-to-office inspection with survey-grade accuracy

    Photo: Trimble
    Photo: Trimble

    Trimble Access field software now connects with Infotech’s Appia service to streamline the workflow from survey to construction. Aimed at the inspection process for civil infrastructure projects, the software provides high-accuracy measurement workflows for daily work reports and inspection reporting for engineering, construction and public agencies. By streamlining the connection between data collected by Trimble GNSS rovers and simultaneously syncing Trimble Access, Infotech Mobile Inspector and Infotech Appia, inspectors can now complete their daily work reports more efficiently in the field and reduce errors. With manual processes removed, inspectors can more accurately represent infrastructure assets.

    Trimble Geospatial, geospatial.trimble.com; Infotech, infotechinc.com

    GNSS Receiver

    For surveying, mapping and construction professionals

    Photo: CHCNav
    Photo: CHCNav

    The i83 GNSS receiver is powered by a multi-band GNSS receiver, iStar technology, and a calibration-free, high-end inertial measurement unit (IMU) for faster and reliable field GNSS surveying. The third-generation high-gain antenna with advanced CHCNAV iStar algorithm improves GNSS satellite signal tracking efficiency by more than 30%. The i83 GNSS receiver features 1,408 GNSS channels for high performance across GPS, GLONASS, BeiDou, Galileo and QZSS constellations. Its onboard GNSS technology delivers centimeter-level positioning, maintains reliable fixed real-time kinematic (RTK) accuracy, and collects points faster than previous models, even in demanding conditions. The i83 receiver’s built-in IMU automatically compensates for pole tilt. In less than 5 seconds, the 200-Hz inertial module is initialized to ensure survey-grade accuracy over a pole-tilt range of up to 30 degrees. Productivity is dramatically increased, RTK usability greatly improved, and potential human error reduced, whether you are an engineer, site foreman or surveyor.

    CHC Navigation, chcnav.com

    Survey Software

    Simplifies surveying with both GPS and total station

    Photo: Carlson Software
    Photo: Carlson Software

    SurvPC Hybrid+ is a module for SurvCE version 6 software that enables surveying with mixed brands of GNSS receivers and total stations. SurvCE is a data-collection software package from Carlson Software. SurvPC Hybrid+ provides driver support for numerous devices, allowing the surveyor to interface with both types. Features include Follow Me, Smart Lock, Smart Staking, Cross Check, Backup Tracking, Hybrid-Resection, Auto-Localize, and Easy Setup Wizard.

    Carlson Software, carlsonsw.com

    Data-Collection Software

    Runs on Android devices

    Photo: eSurvey
    Photo: eSurvey

    SurPad 4.2 is designed to help surveyors work efficiently at all types of land surveying and road engineering projects in the field. It runs on eSurvey handhelds, Android smartphones and tablets, and third-party Android devices. It integrates with professional receiver control, point collection, stakeout, geographic information system (GIS) data collection, road measurement, road design, cross-section measurement and railway stakeout. SurPad 4.2 provides multiple operation and communication systems, has mapping and CAD functions, and has a coordinate system. It also includes a survey mode encompassing topo, control, quick point and COGO civil engineering programs.

    eSurvey, esurvey-gnss.com

    Total-Station Pole

    Provides tilt-compensation for surveyors

    Photo: Leica Geosystems
    Photo: Leica Geosystems

    The Leica AP20 AutoPole provides tilt compensation, automatic pole-height readings and unique target identification for automated total stations. It combines an intelligent sensor module with the AP Reflector Pole and operates with existing Leica Geosystems’ automated total stations to create a solution for autonomous workflows. Tilt compensation decreases measurement time and increases flexibility and safety on site by enabling measurement of points in inaccessible or risky locations. By updating the pole height automatically in the field software, the system ensures that the height on record is always correct.

    Leica Geosystems, leica-geosystems.com

    MAPPING

    Data Management Platform

    Provides validation in the cloud

    Photo: NV5 Geospatial
    Photo: NV5 Geospatial

    INSITE Data Reviewer moves geospatial data validation to the cloud, giving key stakeholders the ability to collaborate in real time. The third module in the INSITE Lifecycle suite of products, INSITE Data Reviewer provides reviewers real-time access to aerial imagery, lidar data and geographic information system (GIS) layers via the cloud to standardize quality control. This increases data validation speed and reduces costs of geospatial projects. The INSITE Lifecycle suite combines Project Tracker, Data Delivery and Data Reviewer modules through which users can see their projects executed on a map, from data acquisition through processing.

    NV5 Geospatial, nv5geospatial.com

    Android Mapping

    Asset locations can be captured from a distance

    Photo: Eos Positioning Systems
    Photo: Eos Positioning Systems

    Eos Laser Mapping for ArcGIS is now available on Android devices. It allows mobile crews to capture high-accuracy laser offsets directly into ArcGIS Field Maps with Arrow Series GNSS receivers. The solution combines technology from geographic information system (GIS) provider Esri, laser rangefinders from Laser Tech, and Eos’ own Arrow Series GNSS receivers. The release supports three workflows: standard laser offset (range-azimuth), range-range (range-intersect) and range-backsight (a total station-like method).

    Eos Positioning Systems, eos-gnss.com

    OEM

    Accelerometer

    For navigation systems on land and at sea

    Photo: Honeywell
    Photo: Honeywell

    The MV60 micro-electromechanical system (MEMS) accelerometer delivers high performance and reliability in a small, rugged and low-cost package. The MV60 measures the acceleration experienced by an object during movement and is designed for use in inertial measurement units and navigation systems deployed on land, air and sea vehicles to measure velocity. It has a compact footprint of 1.2 square inches and shock survivability of up to 5,000 g. It also offers bandwidth of greater than 300 Hz — important for environmentally demanding missions.

    Honeywell, honeywell.com

    CLAS Support

    Receivers support Japan’s cm-level augmentation service

    Photo: Septentrio
    Photo: Septentrio

    Three multi-frequency GNSS receivers now support the Centimeter-Level Augmentation Service (CLAS), receiving the L6 signal that transmits high-accuracy corrections from Japan’s QZSS constellation. The mosaic-CLAS receiver is in a small form-factor suitable for high-volume industrial applications. The AsteRx-m3 CLAS OEM board combines PPP-RTK CLAS with dual-antenna heading functionality. The AsteRx SB3 CLAS features a ruggedized IP68 enclosure to protect it in harsh environments.

    Septentrio, septentrio.com

    UAV

    Long-Endurance Prototype

    Designed to check basic aircraft systems

    Photo: UAVOS
    Photo: UAVOS

    The S1-V300 medium-altitude long-endurance (MALE) unmanned aerial system (UAS) prototype is based on the Saker MALE UAS design that achieved operational capability in 2020. The prototype features a new design and a more powerful heavy fuel engine with 260 HP, offering greater speed, payload and endurance of 28 hours with a range of 4,020 km. The aircraft features unique UAVOS avionics solutions and a redundant flight control system that will enable complex missions, including overland and maritime intelligence, surveillance and reconnaissance (ISR) missions. The improved S1-V300 prototype is equipped with both line-of-sight and beyond-visual-line-of-sight (BVLOS) datalink systems for over-the-horizon operations. It can be integrated with multiple ISR sensors, including electro-optical infrared cameras and a synthetic aperture radar that offers all-weather, day/night performance for a wide-area search capability.

    UAVOS, uavos.com

    Professional UAVs

    Dragonfish Lite and Pro now available in United States

    Photo: Autel Robotics
    Photo: Autel Robotics

    The rugged Dragonfish UAVs are capable of vertical takeoff and landing (VTOL) with both multi-rotor and winged flight, with an endurance of up to 180 minutes. They are suitable for professional applications such as energy, mining, defense and surveillance. Maximum winged flight speed is 30 m/s (108 km/h, 67 mph), and maximum video transmission range is 30 km (18.6 miles) with a base station. The aircraft can make a smart decision to either land or return to base in case of issues such as loss of GPS signal, loss of operator communications, or low battery power. The tilt-rotor system will automatically transition to multi-rotor mode if adverse conditions cause fixed-winged flight to stall or become unsustainable. The Dragonfish battery, barometer, positioning system, compass and inertial measurement unit all have backup modules to ensure flight safety.

    Autel Robotics, autelrobotics.com

    TRANSPORTATION

    Video Telematics

    Enhanced experience for fleet operators

    Photo: Geotab
    Photo: Geotab

    The SureCam connected dash camera system now features a method for capturing video footage from SureCam cameras using Geotab’s telematics device and rule-based system. This results in a seamless display of video within the MyGeotab platform. The enhanced SureCam fleet video solution leverages Geotab’s numerous data-based rules, such as improper seat belt usage and speeding. It also uses G-force triggered alerts that detect unsafe driving behaviors and automatically captures video footage that can be reviewed later. A new Video Request feature in GeoTab enables fleet managers to preview and download additional SureCam video, enabling them to investigate call-ins and other minor incidents that may not have been triggered by an event-based rule.

    Geotab, geotab.com; SureCam, surecam.com

    Asset Tracker

    Module enables NB-IoT on-the-fly

    Photo: Telit
    Photo: Telit

    Momentum IoT’s long-life Eagle 1 tracker works without external power for more than six months after a single charge. The device switches on-the-fly between narrowband internet of things (NB-IoT) and LTE Cat-M. The Eagle 1 leverages Telit’s dual-mode ME310G1 module, which delivers low power consumption in a small footprint. The Eagle 1 detects movement with a built-in accelerometer. Using movement and signals from its GPS receiver to determine vehicle trip starts and stops, the device can go into hibernation mode during periods when the vehicle is not in use, further reducing power consumption. Applications include garbage and storage bins, portable toilets, roll-off containers, message-boards, coolers, and other equipment typically stationed in non-powered, remote places for extended periods.

    Momentum IoT, momentumiot.com; Telit, telit.com

  • UAVOS announces S1-V300 MALE unmanned platform prototype

    UAVOS announces S1-V300 MALE unmanned platform prototype

    UAVOS has successfully completed the S1-V300 medium-altitude long-endurance (MALE) unmanned aerial system (UAS) prototype designed to check basic aircraft systems.

    The advanced UAS model is based on the Saker MALE UAS design that achieved operational capability in 2020. The S1-V300 MALE UAS prototype is an upgrade to the unmanned system and features a new design and a more powerful heavy fuel engine with 260 HP offering greater speed, payload, and endurance of 28 hours with a range of 4,020 km.

    Work performed under UAVOS’ MALE UAS program using its proven Saker aircraft capabilities has enabled it to create a new-generation S1-V300 MALE unmanned platform. The aircraft features unique UAVOS avionics solutions and a redundant flight control system that will enable complex missions.

    The S1-V300 UAS will be able to support a variety of overland and maritime intelligence, surveillance and reconnaissance (ISR) missions. The improved S1-V300 prototype is equipped with both line-of-sight (LOS) and beyond-visual-line-of-sight (BVLOS) datalink systems for over-the-horizon operations. Additionally, the aircraft can be integrated with multiple ISR sensors, including electro-optical infrared (EO/IR) cameras and a synthetic aperture radar (SAR) that offers all-weather, day/night performance for a wide-area search capability.

    The S1-V300 MALE UAS next-generation capabilities combined with medium-altitude persistence make it a suitable platform to add with long-range radar, signals intelligence (SIGINT) payloads,  communication-relay payloads, and counter electronic-warfare systems. Additional retrofits include stronger wings and extra hard points for carrying an external payload of 300 kg.

    The S1-V300 has fully autonomous operation capability. It is equipped with automatic taxi-takeoff and landing systems, satellite communication for extended range, and fully redundant avionics. It is designed to operate in harsh environments and is adapted to perform in extremely hostile, dry and dusty ambient air. The aircraft features a 8.7-meters-long fuselage and a 18.7 meters wingspan, is capable of flying at 220 km/h, and has an endurance of more than 28 hours.

    The S1-V300 MALE prototype. (Photo UAVOS)
    The S1-V300 MALE prototype. (Photo UAVOS)
  • UAVOS and King Abdulaziz City collaborate on flight control system

    UAVOS and King Abdulaziz City collaborate on flight control system

    Photo: UAVOS
    Photo: UAVOS

    UAVOS company is collaborating with King Abdulaziz City for Science and Technology (KACST), Saudi Arabia, on scientific research and development of a new Flight Control System (FCS). The FCS is designed to fit and leverage multi-mission, multi-domain UAV platforms.

    Together, the research and development (R&D) partners have created a Saker-1B Medium Altitude Long Endurance (MALE) UAS (unmanned aerial system). The specifications of the UAV system has been confirmed by more than 500 hours of day and night test missions under various weather conditions.

    A total of 1,000 hours of take-off and landing test missions were successfully performed, with the long-endurance flights lasting up to 19 hours. The UAV is equipped with a satellite communication data link for beyond-visual-line-of-sight (BVLOS) operation.

    Watch the Saker-1B in action:

    UAVOS and KACST have been jointly developing Flight Control System capability for UAS for 10 years. R&D partners have completed performing the flight tests of their UAS in Saudi Arabia to verify easy and fully autonomous online and offline operation of the unmanned aircraft from takeoff to landing.

    These test missions followed various other successful operational exercises performed in the last few months. The Saker-1B MALE UAS has been proven to operate in harsh desert with long-endurance, high-altitude and high-speed flights. High performance of satellite data link for command and control was demonstrated.

    Due to availability of the current UAVOS autopilot technology, the UAS received sustainability to jamming attacks and advanced data security.

    The Saker-1B performed a series of heavy weight landing tests with the maximum weight (MTOW) 2,500 pounds (1,100 kilograms). A number of different payloads were tested in surveillance experimental missions to confirm overall system performance and its readiness for real applications.

    The UAS uses a direct radio link when flying within line of sight, switching seamlessly to a satellite link when flying BVLOS.

    The Saker-1B MALE is an advanced unmanned aerial system with fully autonomous operation capability. It is equipped with automatic taxi-takeoff and landing systems, satellite communication for extended range, and fully redundant avionics.

    The UAV is designed to operate in harsh environments and is adapted to perform in an extremely hostile, dry and dusty ambient air. The UAS is capable of flying for more than 19 hours at an altitude of up to 16,500 feet (5000 м) with a range 1600 miles (2600 km).

    “We’re excited to work with KACST, a world-class organization in science and technology, fostering innovation and promoting a knowledge-based society in the Kingdom of Saudi Arabia,” said UAVOS CEO and Lead Developer Aliaksei Stratsilatau. “Our ultimate goal of the scientific research and development partnership is to make UAV technologies, which can turn vision into the UAV of tomorrow. For 10 years in partnering with KACST, we hold to a singular and enduring mission: to make breakthrough technologies for the unmanned system industry,”Aliaksei Stratsilatau added.