GPS World

Tag: Inertial Labs

  • Launchpad: Inertial sensors, ground control targets

    Launchpad: Inertial sensors, ground control targets

    A roundup of recent products in the GNSS and inertial positioning industry from the December 2020 issue of GPS World magazine.

    OEM

    Inertial system

    Ready for UAVs, robotics

    Photo: Inertial Labs
    Photo: Inertial Labs

    The INS-DU is a high-performance strapdown inertial navigation system (INS) that determines position, velocity and absolute orientation of a platform it is mounted to. Its dual-antenna u-blox receiver provides 1-cm real-time kinematic (RTK) position from RTCM 3 RTK corrections and supports multiple GNSS constellations. Designed for UAVs, land vehicles and marine vessels, the INS-DU uses a range of aiding data to deliver a highly accurate solution for GNSS-denied environments. It uses a miniAHRS with 3-axes each of precision magnetometers, accelerometers and gyroscopes to provide orientation. It contains algorithms for the motion of robots, autonomous vehicles and antennas.

    Inertial Labs, inertiallabs.com

    Space modules

    Hardened for extremes

    Photo: Sensonor
    Photo: Sensonor

    The high-accuracy tactical-grade STIM277H gyro module and STIM377H inertial measurement unit (IMU) were designed to meet space segment needs. Both have hermetic aluminum enclosures, and all parts are tested for fine and gross leak to conform to MIL-STD-883J, Class H. While a commercial off-the-shelf (COTS) product, Sensonor has carried out extensive radiation characterizations. The design is tested for a 20+ years operating life through high-temperature operating life (HTOL) testing. Backwardly compatible with Sensonor’s other IMU and gyro modules, STIM277H and STIM377H are designed for satellite attitude and orbit control systems (AOCS), launchers, portable target acquisition systems, UAV payloads, land navigation systems, turret stabilization, missile stability and GNSS-supported navigation systems.

    Sensonor, sensonor.com

    OEM boards

    Optimized for low-power consumption

    Photo: Septentrio
    Photo: Septentrio

    The AsteRx-m3 family features GPS/GNSS OEM boards optimized for power consumption and ease of integration. An easy-to-integrate design enables short set-up times and faster time-to-market. The AsteRx-m3 offers multi-frequency, multi-constellation positioning combined with Septentrio’s GNSS+ technology while optimizing power. The AsteRx-m3 Pro rover receiver tracks signals from all available GNSS constellations on three frequencies, and operates both in single- and dual-antenna modes. The AsteRx-m3 ProBase is designed to operate as a reference station for RTK and PPP-RTK networks. The AsteRx-m3 Pro+ is a full-feature OEM receiver board flexible enough to fit into any application and to be used either as a rover or a base station in a single- or dual-antenna mode.

    Septentrio, septentrio.com

    GNSS anti-jam units

    Fight RF interference

    Photo:
    Photo:

    New anti-jamming antennas available are the QR200 GPS dual-frequency L1/L2 anti-jamming antenna, the QR201 GNSS multi-frequency band anti-jamming antenna, and the QR202 GNSS multi-frequency band anti-jamming antenna with additional L-band reception (1520–1560 MHz). All models provide robust GPS or GNSS navigation and block intentional jamming and unintentional RF interference timing or 3D positioning. All three are lightweight (230 grams for the QR1xx series and 500 grams for the QR2xx series) with low power consumption (1–1.5W typically, depending on configuration), and can be mounted on any platform (cars, poles, drones, etc.).

    Quantum Reversal, quantumreversal.com

    Positioning sensor

    Centimeter-accurate positioning

    Photo: FixPosition
    Photo: FixPosition

    The Vision-RTK positioning sensor is a compact centimeter-accurate solution with high reliability and availability in challenging environments. The module integrates two real-time kinematic (RTK) GNSS receivers and visual inertial navigation. Its sensor-fusion algorithm is based on deep integration of GNSS, camera and inertial sensors. Real-time sensor fusion provides centimeter-accurate absolute positioning in any outdoor environment.

    Fixposition, fixposition.com

    SURVEYING

    Ground control targets

    Designed for UAV lidar surveys

    Photo: RouteScene
    Photo: RouteScene

    Deploying ground control targets on accurately surveyed ground control points (GCP) assures that a UAV lidar survey has been properly executed. UAV lidar surveys are typically undertaken in remote, rural and sometimes hazardous locations where no fixed points are available, such as solid surfaces or concrete features. Routescene’s GCPs are raised from the ground using a mini tripod. A built-in bubble level enables accurate leveling and removes the need for a tribrach. Robustly engineered, the targets stay in position during adverse and windy conditions, reducing the risk of repositioning during a survey. They are covered with highly retro-reflective material to provide high-intensity returns. As a result, the targets are easily identifiable and can be automatically extracted from the geo-referenced point cloud.

    Routescene, routescene.com

    Rugged tablet

    Handheld computing with GNSs

    Photo: Panasonic
    Photo: Panasonic

    The Toughbook A3 Android tablet is aimed at the mobile workforce. It has an outdoor viewable screen and patented rain-touch functionality. With a 10.1-inch screen and 6-foot drop rating, the A3 enables users across industries to tackle tough jobs and critical applications. The Qualcomm SDM660 chipset, which supports BeiDou, Galileo, GLONASS, GPS, BeiDou QZSS and SBAS. 4G LTE Band 14 EM7511 multi carrier mobile broadband with GPS. The tablet has a powerful octa-core processor, an optional integrated barcode reader, an insertable smart card reader and an insertable stylus. The A3 has a 5-foot drop rating and IP65 certification for dust and water resistance.

    Panasonic, panasonic.com

    UAV

    Autopilot

    Avionics for advanced control of unmanned systems

    Photo: Embention
    Photo: Embention

    Veronte Autopilot 1X is a miniaturized avionics system for advanced control of unmanned systems. The control system embeds a suite of sensors and processors with datalink radio, with reduced size and weight. The control system Veronte Autopilot 1X adds fully autonomous control capabilities to any unmanned system for complete operation. The Veronte control system is fully configurable for payload, platform layout, control phases and control channels. It uses real-time kinematic (RTK) positioning and provides cloud connectivity, sense-and-avoid support, electromagnetic interference and vibration isolation.

    Embention, embention.com

    Commercial drone

    Offers centimeter-level accuracy

    Photo: Auterion
    Photo: Auterion

    The Astro commercial drone platform is equipped with Freefly’s multi-band, real-time kinematic (RTK) system, which provides centimeter-level precision with a u-blox F9P GNSS module. The drone is equipped with a 60-megapixel Sony camera. A customized version of Skynode powers each Astro, providing LTE connectivity, an onboard Linux mission computer, and seamless connectivity to Auterion Mission Control and Cloud Suite. The Auterion ecosystem provides robust, secure and scalable drone planning, flight and compliance management solution.

    Freefly, freeflysystems.com

    TRANSPORTATION

    Guidance system

    For pilots in aerial applications

    Photo: Insero
    Photo: Insero

    The guidance system AgPilotX for aerial applicators uses three wireless components: a GPS/GNSS lightbar, a hub and an Apple iPad. The smart components run off their own computer, communicating to each other wirelessly. The AgPilotX Smart Lightbar has onboard GPS+GLONASS as well as a GNSS antenna, so there is no need to run an antenna up to the aircraft canopy. The Lightbar logs the data, while a hub connects the switches (swath advance, swath decrement, spray on/off) and peripherals, and an iPad runs the interface software through an Apple App. All logs are saved as unique jobs and can be returned to at any time. The lightbar is not dependent upon the iPad to operate and will continue to work the active job even if you start using a different App or even shut the Apple device completely off.

    Insero, inserosolutions.com

    Antennas

    High accuracy for autonomous vehicles, robotics

    The Colosseum X XAHP.50 antenna. (Photo: Taoglas)
    The Colosseum X XAHP.50 antenna. (Photo: Taoglas)

    Two new active, multiband GNSS antennas are engineered for applications that require critical high-accuracy positioning and timing, including autonomous driving and precision agriculture. The MagmaX2 AA.200 is designed for space- and weight-constrained applications, such as robotic lawnmowers. Embedded versions are also available. It is a low-profile active multiband GNSS magnetic mount antenna for use across most major constellations including GPS (L1/L2/L5), GLONASS (G1/G2/G5), Galileo (E1/E5a/E5b) and BeiDou(B1/B2). The Colosseum X XAHP.50 is a geodetic-quality small-dome antenna suitable for a vehicle roof mount or pole mount. It is engineered to operate with high-precision capabilities on the full GNSS spectrum. Sub meter positional accuracy better than 55 cm is achievable, even without the use of RTK correctional services.

    Taoglas, taoglas.com

  • Inertial Labs launches Kernel-100 IMU with MEMS sensors

    Inertial Labs launches Kernel-100 IMU with MEMS sensors

    Photo: Inertial Labs
    Photo: Inertial Labs

    Inertial Labs is offering a new industrial-grade inertial measurement unit (IMU) for aerospace and defense applications, among others.

    The Kernel-100 is a compact, self-contained strapdown IMU that measures linear acceleration and angular rates with three-axis MEMS accelerometers and three-axis MEMS gyroscopes.

    The Kernel-100 is fully calibrated, temperature compensated, mathematically aligned to an orthogonal coordinate system. It contains up to 2 deg/hr bias in-run stability gyroscopes and 10 μg bias in-run stability accelerometers with extremely low noise and high repeatability.

    The Kernel-100 is a fully integrated inertial solution that includes the newest MEMS sensor technologies. With seamless integration, the Kernel-100 inertial system is a cost-effective high performance yet compact and low-power IMU, the company said. The Kernel-100 is easy to integrate in a wide range of higher order systems while consuming very little space and power.

    With continuous built-in test (BIT), configurable communications protocols, electromagnetic interference protection, and flexible input power requirements, the Kernel-100 is built to be used in a wide variety of environments and integrated system applications.

    Built for air, marine and land environments, the Kernel-100 can be integrated into motion reference units, attitude and heading reference systems, and GPS-aided inertial navigation systems. As a result, the Kernel-100 is suitable for a wide variety of applications such as autonomous vehicles, antenna and line-of-sight stabilizations systems, and buoy or boat motion monitoring.

    Inertial Labs provides innovative solutions to commerce, industry and government for defense and aerospace.

  • Inertial Labs releases INS-DU GPS-aided unit for high-accuracy positioning

    Inertial Labs releases INS-DU GPS-aided unit for high-accuracy positioning

    The new INS-DU delivers high-accuracy RTK positioning for air, land and marine applications

    Photo: Inertial Labs
    Photo: Inertial Labs

    Inertial Labs has released a new GPS-aided inertial navigation system (INS). The INS-DU is a high-performance strapdown system that determines position, velocity and absolute orientation to any platform it is mounted to.

    The INS-DU has a dual-antenna u-blox GNSS receiver that provides 1-cm real-time kinematic (RTK) position from RTCM 3 RTK corrections and supports a wide range of GNSS constellations.

    Designed for UAVs, land vehicles and marine vessels, the INS-DU is an effective, low-cost solution that uses a range of aiding data for different applications. With highly accurate navigation in GNSS-denied environments, the INS-DU delivers a cost-effective GNSS-denied solution, according to Inertial Labs.

    One of the key elements to the success of the INS-DU is its use of the miniAHRS, which utilizes 3-axes each of precision magnetometers, accelerometers and gyroscopes to provide orientation of the device under measure. It contains cutting-edge algorithms for the motion of robots, unmanned and autonomous vehicles, and antennas.

    MiniAHRS mini fluxgate magnetometers have an advantage over commonly used magneto-inductive or magneto-resistive alternatives and have been a trusted North reference for more than 70 years.

    The INS-DU provides a full navigation solution for both GNSS and GNSS-denied environments. With custom interfaces and a power consumption of two and a half of a Watts, the INS-DU is a versatile solution fit for a wide variety of users with power consumption restrictions.

    In addition, the INS-DU contains our on-board sensor-fusion filter, state-of-the-art navigation, and guidance algorithms and calibration software.

  • Inertial Labs releases 2-axis, 3-axis gyroscopes

    Inertial Labs releases 2-axis, 3-axis gyroscopes

    Inertial Labs' TAG-200 two-axis and TAG-300 three-axis gyroscopes are designed for use in harsh environments. (Photo: Inertial Labs)
    Inertial Labs’ TAG-200 two-axis and TAG-300 three-axis gyroscopes are designed for use in harsh environments. (Photo: Inertial Labs)

    Inertial Labs has released its TAG-200 two-axis and TAG-300 three-axis gyroscopes, developed for electro-optical systems, gimbals, line-of-sight, and pan and tilt platforms for stabilization and pointing applications.

    According to the company, TAG-200 and TAG-300 utilize advanced performance, tactical-grade MEMS sensitive elements, of which size, power consumption, reliability and performance are ideal for accomplishing complex tasks requiring accurate stabilization of assorted platforms.

    The gyroscopes, designed for use in harsh environments, can withstand extreme shock and vibration in accordance with MIL-STD-810 ground mobile use, Inertial Labs added. In addition, they are fully digitized, include built-in test functionalities and have no moving parts.

    Key advantages of the dual TAG-200 and triple TAG-300 axis gyroscopes include low noise, low latency, wide bandwidth, high data rate, low bias drift, low VRE, high MTBF and ITAR-free, Inertial Labs said. The gyroscopes are factory calibrated over operational temperature range with low non-orthogonality and misalignment between sensitive elements. They’re also QA/QC tested and supplied with individual calibration and acceptance test certificates.

    Inertial Labs, based in Paeonian Springs, Virginia, manufactures orientation and navigation sensor solutions.