SURVEYING & MAPPING

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

<p>The post Launchpad: Lidar systems, PNT platforms and UAVs first appeared on GPS World.</p>

TIMING

Image: Furuno

Global Timing Module
Supports L1 and L5 GNSS signals

GT-100 is compatible with all GNSS constellations. The GT-100 realizes high robustness and standard of time accuracy and stability. The GT-100 features advanced multipath mitigation, anti-jamming and anti-spoofing as well as short-term holdover, ensuring superior performance even if L1 or L5 are jammed. The module delivers nanosecond precision for 5G wireless systems, radio communications systems, smart power grids and grand master clocks. Along with the GT-100, GT-9001 and GT-90 achieve a level of time stability of 4.5ns (1σ) and offer superior features and performance.
Furuno, furuno.com

Image: UTStarcom

PTP Grandmaster
Designed for mobile networks

The SyncRing XGM30E precision time protocol (PTP) grandmaster is designed for mobile networks and other applications requiring accurate time and frequency synchronization. It is an addition to the SyncRing line of network synchronization equipment. The SyncRing XGM30E is an indoor PTP grandmaster offering echo time accuracy of more than ±40 ns, which can meet the stringent timing requirements of demanding applications, including 4G and 5G networks. The clock complies with the PTP IEEE 1588-2008 standard, supporting major ITU-T frequency and phase and time profiles. SyncRing XGM30E supports synchronous Ethernet (SyncE) output on all service interfaces for accurate frequency synchronization, and SyncE input for enhanced time holdover operation during GNSS outages. The grandmaster includes an indoor rack-mount design and power supply redundancy with AC or DC built-in options and has flexible management options. The SyncRing XGM30E is available now.
UTStarcom, utstar.com

Image: Huber+Suhner

Copper-Free Data System
For precise timing synchronization for high-performance networks

The GNSS and Power over Fiber GPSoF System receives, transmits and expands GNSS timing signals for the purpose of timing synchronization in data centers, central offices, distributed antenna systems or enterprise applications. It enables greater distances between the radio frequency source and the receiver system. It is also immune to RFI, EMI and EMP, contains remote control and monitoring via a web interface, and supports infrastructure installation due to direct GNSS signal evaluation.
Huber+Suhner, hubersuhner.com

Image: ADVA

M-Code Device
With advanced timing for military applications

The OSA 5422 grandmaster clock meets key requirements of military networks by providing advanced positioning, navigation and timing (PNT) capabilities and improved resilience. The OSA 5422 grandmaster clock is integrated with a highly reliable M-code receiver, which meets stringent frequency and phase synchronization needs. The device is equipped with multi-band, multi-constellation GNSS receivers for when M-code is not available. The OSA 5422 also has long holdover and precision time protocol backup, which enables it to maintain accurate timing even in the event of M-code disruption. The OSA 5422 supports legacy interfaces such as BITS and IRIG and features eight field-upgradable 10G bit/s ports and 1G bit/s interfaces. The device is suitable for most demanding military edge applications.
ADVA, adva.com; Brandywine Communications, brandywinecomm.com

AUTONOMOUS

Image: CHC Navigation

GNSS RTK Steering System
Suitable for agriculture applications

The NX510 SE Auto-Steer is an automated steering system that retrofits several types of new and old farm tractors and other vehicles. It can be connected to local real-time kinematic (RTK) networks or GNSS RTK base stations. NX510 SE is a guidance controller powered by multiple corrections sources and five satellite constellations: GPS, GLONASS, Galileo, BeiDou and QZSS. It has a built-in 4G and UHF modem that connects to all industry-standard differential GPS and RTK corrections to achieve centimeter-accuracy steering. NX510 SE contains GNSS and inertial navigation system terrain compensation technology, which maintains high accuracy in challenging environments and terrain. This makes NX510 SE suitable for ditching, planting and harvesting applications. In addition, AgNav multilingual software, operating on a 10.1 in industrial display, supports multiple guideline patterns that include AB line, A+ line, circle line, irregular curve and headland turn.
CHC Navigation, chcnav.com

Image: Trimble

Module for Rail Monitoring
For automated and semi-automated rail monitoring

The T4D Rail Module enables simple data collection and reduces office work required to automate movement detection for rail monitoring projects. The T4D software offers four main elements for automated monitoring: sensor management and data integration for GNSS; total station, geotechnical, vibration and environmental sensors; geodetic processing and adjustments for accurate results; analysis and visualization through several tools that provide real-time updates to support in-depth analysis and data presentation; and alarming and reporting. The T4D Rail module enables integration of rail as-builts collected with the Trimble GEDO system or with a track measuring bar paired with the Trimble Access Gauge Survey app. It also can automate calculations for track geometry parameters, generate analysis charts, and trigger alarms. The T4D software is offered in five editions to fit various project requirements. The editions include T4D Access, T4D Field, T4D Intermediate, T4D Geotechnical and T4D Advanced. T4D Access and T4D Advanced are the two editions that support the add-on Rail Module.
Trimble Geospatial, geospatial.trimble.com

Image: Airobotics

C-UAV Device
Anti-UAV protection device

The Iron Drone system is an advanced counter-UAV device, designed to defend against hostile drones in complex environments with minimal damage. Iron Drone is an automated intercepting system designed to eliminate small drones without using GPS or radio frequency jamming. The Iron Drone system is launched from a designated pod and flies autonomously towards targets under radar guidance. It identifies the target using computer vision capabilities. The intercepting UAV follows the target then uses a net and a parachute to incapacitate it, capture it and lower it to the ground.
Airobotics, airoboticsdrones.com

Image: Rohde & Schwarz

Drone-based analyzer
For UAV inspections

EVSD1000 VHF/UHF nav/drone analyzer provides highly accurate UAV inspection of terrestrial navigation and communications systems. The EVSD1000 VHF/UHF nav/drone analyzer is a signal-level and modulation analyzer for medium-sized UAVs. It features measurements of instrument landing systems, ground-based augmentation systems and VHF omnirange ground stations. The mechanical and electrical design is optimized for UAV-based, real-time measurements of terrestrial navigation systems with up to 100 measurement data sets per second. The analyzer provides high-precision signal analysis in the frequency range from 70 MHz to 410 MHz. This also includes the needed measurement repeatability to ensure that results from UAV measurements can be compared to flight and to ground inspections in line with ICAO standards. The EVSD1000 VHF/UHF nav/drone analyzer reduces runway blocking times, provides necessary measurement repeatability and offers measurement precision and GNSS time and location stamps. While streaming measurement data during a drone flight via the data link to a PC on the ground, the analyzer can also buffer data internally to ensure no results are lost if the data link is lost.
Rohde & Schwarz, rohde-schwarz.com

SURVEYING & MAPPING

Image: SiLC

Coherent Vision Solution
Suitable for advanced products

The Eyeonic Vision System is a frequency-modulated continuous wave lidar solution, which delivers high levels of vision perception to identify and avoid objects with low latency. At the core of the system is a fully integrated silicon photonics chip. It provides more definition and precision than legacy lidar solutions, with roughly 10 milli-degree of angular resolution coupled with millimeter-level precision. These features enable this solution to measure the shape and distance of objects with high-precision and at a large distance. The system combines the Eyeonic Vision Sensor and a digital processing solution based on a powerful field-programmable gate array. The flexible architecture enables synchronization of multiple vision sensors for unlimited points per second. The compact, powerful, vision solution is suitable for autonomous vehicles, smart cameras, robotics and other advanced products. It is available now. Pricing varies depending on configuration.
SiLC Technologies, silc.com

Image: SBG Systems

GNSS-Aided INS
Easily integrated with lidar or other third-party sensors

Quanta Plus is a GNSS-aided inertial navigation system (INS). The device combines a MEMS inertial measurement unit (IMU) with a resilient GNSS receiver to get reliable position and attitude, as well as providing real-time kinematic (RTK) fixes. Quanta Plus includes motion profiles, which enable users to optimize the sensor parameters to suit different use cases. The built-in precise time protocol server ensures sub-microsecond synchronization with external devices such as lidar. The device also has a built-in datalogger, Ethernet interface for easy integration, and a web configuration interface for simple setup and control. The INS can be integrated with Qinertia, SBG System’s post-processing software. Qinertia improves the performance of acquired data during a mission using reliable RTK corrections from a wide range of continuously operating reference station networks, or by importing base-station data during the process. Quanta Plus also improves the accuracy of the position and attitude using forward and backward processing and by integrating a tight coupling between GNSS and IMU data.
SBG Systems, sbg-systems.com

Image: Inertial Labs

Survey Laser
Suitable for remote-sensing applications

The Resepi Hesai XT32 laser is designed for accurate remote-sensing applications. It can be used with commercially available lidar scanners, including Velodyne, Quanergy, Ouster, RIEGL, LIVOX and Hesai, as well as with UAVs. Resepi is completely modular, so users have full control for customization. The remote-sensing device uses a GPS-aided inertial navigation system with a NovAtel RTK/PPK single- or dual-antenna GNSS receiver, integrated with a Linux-based processing platform. It also comes with a 2 TB USB memory drive and has an embedded Wi-Fi cellular modem. Resepi has 3 cm to 5 cm point-cloud accuracy and can reach heights of more than 200 m above ground level. It is compatible with most UAV models; however, it is typically used with DJI M300, DJI M210 or DJI M600 models. The device is suitable for scanning and mapping, precision agriculture with lidar, simultaneous localization and mapping algorithm development, utility inspection and construction site monitoring. Resepi-supported software includes Hexagon NovAtel, PCPainter and PCMaster.
Inertial Labs, inertiallabs.com

Image: CHC Navigation

IMU-RTK GNSS Receiver
Provides robust and accurate positioning

The i90 GNSS receiver combines a GNSS real-time kinematic (RTK) engine, a high-end inertial measurement unit (IMU) sensor and advanced GNSS tracking capabilities to increase RTK availability and reliability. The embedded 624-channel GNSS receiver is compatible with GPS, GLONASS, Galileo and BeiDou signals. The i90 GNSS combines high-end connectivity modules: Bluetooth, Wi-Fi, NFC, 4G and a UHF radio modem. The internal UHF radio modem allows long-distance base-to-rover surveying up to 5 km. The built-in IMU ensures interference-free and automatic pole-tilt compensation in real time. An accuracy of 3 cm is achieved with pole-tilt range of up to 30°. The i90 GNSS receiver is suitable for construction and land surveying projects.
CHC Navigation, chcnav.com

Image: CHCNAV

Field Application
For Android devices

LandStar8 is designed to be flexible and user-friendly for surveying and mapping tasks. It is versatile, modular and customizable for topographic tasks such as surveying, stake out, cadastral, mapping and geographic information systems (GIS). Building on the legacy of LandStar7, the LandStar8 provides features such as a refined user interface, streamlined workflows, faster operation, and integrated cloud services. Cloud connectivity is built in for backup, data storage or remote technical support. LandStar8 has a simple and intuitive layout with large map windows and sharp graphics. Users can hide features they rarely use and display only those they need. They also can copy coordinate settings, control and staking points from another handheld controller by scanning a QR code. Projects can be edited and sorted by history and attributes. Custom coordinate systems, geoid models and coding libraries can be updated at any time by using resource packages. LandStar8 also features a terrain calibration wizard designed for non-expert users.
CHCNAV, chcnav.com

Image: Position Partners

Survey Rover
For accurate, survey-grade aerial mapping and photogrammetry

SmartSurveyor facilitates accurate, survey-grade aerial mapping and photogrammetry without the need for a connection between a camera shutter and a GNSS receiver. The fully compact, handheld aerial mapping survey rover is compatible with DJI Mavix 2 and 3 series and Phantom 4 Pro UAVs. The design is dissimilar from other UAV mapping systems in that it works from a UAV or smartphone and with two or more ground control points (GCPs) while using an ultra-matching technique. Once SmartSurveyor captures data, all photos and the GNSS file are uploaded to a PC and analyzed through the Agisoft UltraMatch workflow to confirm their accuracy before they are exported. Data can be managed in the cloud or on a local PC using software designed by MapSender. Additionally, this mapping tool works in tandem with the AllDayRTK subscription GNSS network service so that collected data can be uploaded to Tokara to remotely manage a project.

Position Partners, positionpartners.com

OEM

NB-IoT Industrial Module
Complete with GNSS geo-location capabilities

Image: STMicroelectronics

The ST87M01 is a fully programmable, certified LTE Cat NB2 NB-IoT industrial module that covers worldwide cellular frequency bands and integrates advanced security features. The ST87M01 is an integrated native GNSS receiver with multi-constellation access, which ensures enhanced and accurate localization. The module has a diminutive 10.6 mm x 12.8 mm land grid array footprint, making it suitable for applications where a small form factor is key. The STM8701 offers flexibility for product developers, presenting a fully programmable internet of things (IoT) platform enabling users to embed their own code into the module for simple applications. A variety of protocol stacks are available to handle popular IoT use cases. It targets wide-ranging IoT applications that require ultra-reliable low-power wide-area network connectivity and has ultra-low power consumption with less than 2 µA in low-power mode and transmit output power up to +23 dBm. Suitable applications for the module include smart metering, smart grid, smart building, smart city and smart infrastructure applications, as well as industrial condition monitoring and factory automation, smart agriculture and environmental monitoring. The module also can be combined with a separate host microcontroller, permitting many more use cases.
STMicroelectronics, st.com

Image: Quectel

GNSS Module
Designed for battery-operated, ultra-low power GNSS devices

The LC76G module is a compact, single-band, ultra-low power GNSS module that features fast and accurate location performance. The module can concurrently receive and process signals from the GPS, GLONASS, BeiDou, Galileo and QZSS constellations. The LC76G has an internal surface acoustic wave filter and integrated low-noise amplifier, which can be connected directly to a passive patch antenna and provides filtering against unwanted interference. With a compact size of 10.1 mm × 9.7 mm × 2.4 mm, the footprint of the LC76G is compatible with other industry solutions, as well as Quectel’s legacy L76 and L76-LB modules. The LC67G is designed for battery-operated, ultra-low power GNSS devices, such as wearable personal trackers, wildlife and livestock tracking, toll tags, portable container trackers, as well as several traditional markets such as shared mobility and low-cost asset trackers.
Quectel Wireless Solutions, quectel.com

The INS-DH-OEM. (Photo: Inertial Labs)

Inertial Navigation System
Incorporates NovAtel and Honeywell technology

The INS-DH-OEM utilizes a dual-antenna NovAtel GNSS receiver and a Honeywell HG4930-CA51 inertial measurement unit (IMU). The INS-DH-OEM contains Inertial Labs’ on-board sensor-fusion filter, navigation and guidance algorithms, and calibration software. The INS-DH-OEM has three axes, a full operational temperature range, advanced MEMS accelerometers and new-generation tactical-grade MEMS gyroscopes to provide accurate position, velocity, heading, pitch and roll. It is small and lightweight, measuring 85.5 mm x 67.5 mm x 52.0 mm and weighing 280 g. The dual-antenna NovAtel GNSS receiver is operational with GPS, GLONASS, Galileo, BeiDou and QZSS constellations. The INS-DH-OEM is compatible with most commercially available lidars including Velodyne, Riegl and Faro. The algorithms are suitable for different dynamic motions of vessels, ships, helicopters, UAVs, gimbals and land vehicles.
Inertial Labs, inertiallabs.com

Image: MSO

Speed Sensor
Multi-use sensor for workflow

The Speed Wedge MKII is a true-ground speed sensor and active motion detector for moving objects, based on radar doppler technology. This sensor is suitable for use in indoor and off-highway vehicles, conveyor belts, material flow and open channel water surface flow. The sensor contains a dead-reckoning system component for inertial measurement units and integrated management systems (IMS) in GPS/GNSS-denied environments such as in tunnels and underground mining operations. It also features sensor fusion with GNSS and IMS improving positioning accuracy, quality and reliability. Speed Wedge MKII deploys a radar front-end with planar antennas continuously emitting electro-magnetic waves at 24 GHz. It is designed for contactless measurement of speed and distance travelled independent on wheel/drive slip. For demanding applications Speed Wedge MKII is sealed and potted in a rugged encasing. Speed Wedge MKII is available in variants with pulse, serial RS232 and CAN-Bus output. High-speed up to 200 km/h is available.
MSO, mso-technik.de/home-en.html

Image: Orolia

GNSS Simulations Software
For simulation and testing needs

Skydel GNSS simulation software can now generate more than 500 simulated satellite signals. This platform is suitable for GNSS users, experts and manufacturers, as well as users needing a low-Earth-orbit-capable simulation system. Skydel contains a feature that includes multi-constellation and multi-frequency signal generation, remote control from user-defined scripts, and integrated interference generation. In addition to generating a high channel and satellite count, Skydel also can produce navigation warfare signals without any additional hardware.
Orolia, orolia.com

Image: Mikroe

Compact Add-On Board
Provides access to L-band GNSS corrections

LBand RTK Click is a compact add-on featuring the NEO-D9S-00B, a professional-grade, satellite data receiver for L-band corrections from u-blox. Operating in a frequency range from 1,525 MHz to 1,559 MHz, the NEO-D9S-00B decodes the satellite transmission and outputs a correction stream. This enables a high-precision GNSS receiver to reach accuracies down to centimeter-level. An independent stream of correction data, delivered over L-band signals, ensures high availability of position output. LBand RTK Click also uses several mikroBUS pins. In addition, LBand RTK Click contains an SMA antenna for connecting a Mikroe-brand antenna. This antenna easily allows positioning in space, supporting GNSS L-band frequencies. LBand RTK Click implements advanced security features such as signature and anti-jamming mechanisms. It also can be integrated with other GNSS receivers from the u-blox F9 platform.
Mikroe, mikroe.com

<p>The post Launchpad: GNSS receivers, timing modules, survey applications first appeared on GPS World.</p>

SURVEYING & MAPPING

GPSMAP 64csx handheld GPS receiver (Image: Gamin)

Handheld GPS 
With navigation sensors and camera

The GPSMAP 64csx handheld GPS receiver comes with multi-GNSS support, TopoActive mapping, barometric altimeter, three-axis compass, and wireless connectivity via Bluetooth and ANT+ technology. It also has an 8 MP autofocus camera. The GPSMAP 64csx is built to withstand rugged terrain and is water-resistant. The highly sensitive receiver and quad helix antenna provide support from GPS, GLONASS and Galileo. Preloaded TopoActive maps include waterways, natural features, buildings and international boundaries. It is compatible with smartphones so users can receive email and text messages and share location data with others.
Garmin, garmin.com

Venus Laser RTK receiver (Image: ComNav)

GNSS Receiver
Millimeter-level laser enables rodless surveying

The Venus Laser RTK receiver comes with an inertial measurement unit. It can be used in its traditional mode with a range pole, or in laser mode without a pole, enabling GNSS surveying beyond typical limitations. In traditional mode, it has tilt compensation of up to 60° with an accuracy of 2.5 cm; in laser mode, it has the same tilt compensation but an accuracy of 5.5 cm. The receiver is powered by a SinoGNSS K8 high-precision module capable of up to 1,590 channels. It can survey using GPS, BDS-2, BDS-3, GLONASS, Galileo, QZSS and SBAS constellations. Other features include Bluetooth connectivity, more than 20 hours of battery life, and ruggedness (it is dust and waterproof and is designed to survive a two-meter drop).
ComNav Technology Ltd., comnavtech.com

Leica iCON gps 160 (Image: Leica Geosystems)

Smart Antenna
With features to increase productivity on the construction site

The Leica iCON gps 160 is a next-generation construction smart antenna designed to increase productivity in stakeout and measurement applications on the jobsite. It features a large color display with clear navigation for quick and easy setup without additional hardware. It is optionally available with an inertial measurement unit (IMU) for tilt-compensation functionality up to 20°. It seamlessly integrates with all Leica iCON construction instruments and controllers as well as the iCON field software for precise, real-time verification.
Leica Geosystems, leica-geosystems.com

The Xsens Vision Navigator (Image: Movella)

GNSS inertial navigation
Integrates position inputs from three high-accuracy sources

The Xsens Vision Navigator integrates position inputs from three high-accuracy sources including dual-antenna real-time kinematic (RTK) GNSS receivers; an inertial measurement unit (IMU) incorporating a three-axis accelerometer, a gyroscope and magnetometer; and a visual inertial odometry system. It can optionally accept input from an external wheel-speed sensor. The positioning sensor achieves centimeter-level accuracy when operating in GNSS mode with an RTK fix. When GNSS signals are not available, the product alone achieves accuracy of 2% of travel distance, or 0.75% when supplemented by wheel speed. Xsens Vision Navigator is suitable for outdoor positioning applications such as material handling equipment, commercial and specialist vehicles, last-mile delivery, inspection equipment and UAVs, agricultural equipment, mining equipment and utility robots.
Movella, movella.com

SILC Eyeonic Vision System (Image: SiLC)

Coherent Vision Solution
Delivers high levels of vision perception

The Eyeonic Vision System is a frequency-modulated continuous wave lidar solution, which delivers high levels of vision perception to identify and avoid objects with low latency. At the core of the Eyeonic Vision System is a fully integrated silicon photonics chip. It provides more definition and precision than legacy lidar solutions, with roughly 10 milli-degree of angular resolution coupled with millimeter-level precision. These features enable this solution to measure the shape and distance of objects with high-precision and at a large distance. The system combines the Eyeonic Vision Sensor and a digital processing solution based on a powerful field-programmable gate array. The flexible architecture enables synchronization of multiple vision sensors for unlimited points per second.
SiLC, silc.com

OEM

The SYN4778 (Image: Synaptics)

Integrated Circuit
Designed for the internet of things

The SYN4778 is a small, low-power GNSS integrated circuit designed to extend battery life, reduce product size, and enhance performance of advanced location-based services for internet of things (IoT) devices — wearables, mobile accessories, asset trackers, UAVS and transportation devices. It includes advanced multipath interference mitigation using L5-band signals from GPS, Galileo, BeiDou, NAVIC, SBAS and QZSS. The chip also uses the L1 satellite band to reduce both the time to first fix, and the power consumed, improving the end-user experience and enabling product developers to add additional functionality and features to their IoT devices.
Synaptics, synpatics.com

Boreas D70 (Image: Advanced Navigation)

Gyroscope
Provides high-accuracy inertial navigation

The Boreas D70 is a fiber-optic gyroscope (FOG) inertial navigation system (INS), part of the Boreas digital FOG series. The technology is suited to surveying, mapping and navigation across subsea, marine, land and air applications. It also could be adopted for vehicular applications, including autonomous vehicles and aircraft where weight and size are at a premium. The Boreas D70 combines closed-loop DFOG and accelerometer technologies with a dual-antenna real-time kinematic (RTK) GNSS receiver. These are coupled with an artificial-intelligence-based fusion algorithm to deliver accurate and precise navigation.
Advanced Navigation, advancednavigation.com

The u-blox NEO-F10T (Image: u-blox)

Timing Module
Dual-band and secure for 5G communications

The u-blox NEO-F10T offers nanosecond-level timing accuracy, meeting the stringent timing requirements for 5G communications. It is compliant with the u-blox NEO form factor (12.2 mm x 16 mm), allowing space-constrained designs to be realized without the need to compromise on size. The NEO-F10T is the successor to the NEO-M8T module, providing an easy upgrade path to dual-band timing technology. This allows NEO-M8T users to access nanosecond-level timing accuracy and enhanced security. u-blox’s dual-band technology mitigates ionospheric errors and greatly reduces timing error, without the need for an external GNSS correction service.
u-blox, u-blox.com

TRANSPORTATION

SafePilot P3 (Image: Trelleborg)

Maritime Systems
Provides data on vessel positioning

The SafePilot P3 navigation system provides real-time data on vessel positioning and movement in tight waterways. It uses motion sensors and two GNSS antennas to measure the position and heading of vessels in three dimensions, minimizing time and difficulty associated with piloting procedures. SafePilot P3 has a backup battery to maintain functionality in the event of a power outage. This navigation system improves situational awareness while navigating waterways and ports globally, and also enhances communication between the captain, pilot, tug operators and canal personnel while vessels are transiting a canal and approaching a port.
Trelleborg, trelleborg.com

FusionEngine software (Image: Point One Navigation)

Positioning Engine
Assures functional safety of ASIL-B

FusionEngine software, which is rated for automotive safety integrity level (ASIL), is now compatible with STMicroelectronics’ Teseo ASIL Precise Positioning GNSS chipset TeseoAPP. This assures functional safety of ASIL-B, a requirement for Level 3+ advanced driver assistance systems (ADAS). It can be integrated into several different host processors to enable high-level ADAS and autonomous driving systems. The combination of TeseoAPP’s receiver and the STA5365S external RF front-end provides dual-band measurement data for all visible GNSS satellites to the main host processor into which
FusionEngine is integrated.
Point One Navigation, pointonenav.com

Ghost Autonomy Engine (Image: Ghost)

Autonomous driving software
for level 4 driver assistance

The Ghost Autonomy Engine achieves the reliability required to bridge the gap between driver assistance capabilities L2 or L2+, and self-driving that does not rely on a human backup (L4). The software provides a stereo-vision neural network that delivers per-pixel depth in real time. It is capable of detecting and segmenting key features in a scene without needing to classify or recognize them. The physics-based perception system can handle the long tail of obstacles on the road, even those never seen before.
Ghost, ghostautonomy.com

Vista-X120 Plus (Image: Cepton)

Lidar
Provides 3D perception

The Vista-X120 Plus is a slim automotive lidar device for real-time adaptive 3D perception for advanced driver assistance. Its software-definable region of interest enables higher dynamic perception capabilities, while an adjustable central field of view with increased angular resolution improves accuracy in detection and classification of objects when driving. The region of interest is also configurable in real time in both horizontal and vertical directions. The Vista-X120 Plus is compact at 140 mm x 30 mm, improving OEM integration and placement options without disrupting vehicle appearance.
Cepton, cepton.com

IIM-42653 and IIM-42652-I sensor platforms (Image: TDK Corporation)

Sensor Platforms
Targets industrial and navigation applications

The IIM-42653 and IIM-42652-I sensor platforms consist of 6-axis IMUs, which target industrial and navigation applications requiring high force sensitive resistor (FSR) performance or inertial navigation software. The IIM-42653 platform — a robust, low-noise, low-power, 6-axis IMU — is capable of a gyro-programmable output of 4,000 dps and an accelerometer-programmable output of 32 g. These features make the IIM-42653 suitable for industrial-grade or high-end automated guided vehicles, automated mobile robots and unmanned aerial vehicles. The IIM-42652-I platform offers hardware authentication and can be integrated with TRACK dead-reckoning software from Trusted Positioning. TRACK filters GNSS multipath errors and provides a continuous navigation solution when GNSS signals are unavailable.
TDK Corporation, invensense.tdk.com

VO Max 4T (Image: Autel Robotics)

Flight Platform
For enterprise and professional applications

The EVO Max 4T autonomous flight platform provides omnidirectional obstacle avoidance and tri-anti-interference capability to ensure flight safety and stability in high-interference environments. It is equipped with three high-quality cameras including a 48 MP telephoto camera, a 50 MP wide-angle camera and an infrared camera. The platform has a range of navigation and data-acquisition functions, including 3D flight routes, PinPoint Mode, Team Work, Polygon Mission, Waypoint Mission and Oblique Photography. EVO NEST is a base for automatic take-off, landing, charging and mission planning for EVO series UAVs. It is designed for all-weather operation and can be easily transported.
Autel Robotics, autelrobotics.com

<p>The post Launchpad: Autonomy, GNSS receivers, handheld mapping first appeared on GPS World.</p>

Image: SiLC

SiLC Technologies has launched the Eyeonic Vision System. This system is a frequency-modulated continuous wave lidar solution, which delivers high levels of vision perception to identify and avoid objects with low latency.

At the core of the Eyeonic Vision System is SiLC’s fully integrated silicon photonics chip. It provides more definition and precision than legacy lidar solutions, with roughly 10 milli-degree of angular resolution coupled with millimeter-level precision. These features enable this solution to measure the shape and distance of objects with high-precision and at a large distance.

The system combines the Eyeonic Vision Sensor and a digital processing solution based on a powerful field-programmable gate array. The flexible architecture enables synchronization of multiple vision sensors for unlimited points per second.

SiLC demonstrated the Eyeonic Vision System at CES 2023. It was named by the CES award committee as an honoree for the CES Innovation Award.

The compact, powerful, vision solution is suitable for autonomous vehicles, smart cameras, robotics and other advanced products. It is available now. Pricing varies depending on configuration.

<p>The post SiLC launches coherent vision solution first appeared on GPS World.</p>