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a-GEO Matrix III Rover Set with Laser and AR stakeout
The a-GEO Matrix III Rover Set is a complete RTK GNSS field solution for surveyors, construction crews, engineers, GIS teams and mapping professionals who need accurate positioning with more flexibility than a standard rover. It combines the Matrix III GNSS receiver with a rugged S60III data collector and SurPro 6.0 field software for point collection, stakeout, CAD-based work and engineering measurement.
With a 100 m laser, AR real-scene stakeout, 5MP camera support and IMU tilt compensation up to 120°, the Matrix III helps users measure difficult points without always placing the pole directly on the target. This is useful around walls, fences, slopes, traffic areas, stockpiles and other locations where conventional pole positioning slows the job down.
a-GEO Matrix III Rover Set Highlights
| Receiver Type | RTK GNSS rover with laser, AR stakeout and IMU tilt |
|---|---|
| Laser Surveying | 0.05 m to 100 m laser measurement range |
| IMU Tilt | 0° to 120° tilt compensation with 400 Hz update rate |
| GNSS Tracking | 1408 channels with GPS, GLONASS, BeiDou, Galileo, QZSS, IRNSS and SBAS |
| Camera Support | 5MP laser-assisted camera and 5MP AR camera |
| Field Controller | S60III rugged Android data collector with SurPro 6.0 software |
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Description
a-GEO Matrix III Rover Set with Laser and AR stakeout Product Review
a-GEO Matrix III Rover Set
The a-GEO Matrix III Rover Set is built for professional RTK GNSS work where speed, accuracy and practical field usability matter. It is suitable for land surveying, construction layout, infrastructure projects, GIS data collection, utility mapping, earthworks, terrain measurement and engineering control tasks.
This rover set includes the a-GEO Matrix III GNSS receiver, the rugged S60III data collector and SurPro 6.0 Android field software. Together, they give field teams a complete workflow for setting up projects, connecting to corrections, collecting points, staking out designs, working with CAD data and exporting survey results.
Laser measurement for hard-to-reach points
The Matrix III includes a long-range laser with a measurement range from 0.05 m to 100 m. In real fieldwork, this helps when the point is difficult, unsafe or slow to occupy with a GNSS pole. Building corners, walls, fenced areas, drainage edges, stockpiles, slopes and busy work zones can often be measured more efficiently by aiming the laser instead of standing directly over the target.
For construction workers and surveyors, this can reduce awkward pole positions and make everyday measurement tasks easier. Instead of spending time trying to hold the pole in the perfect place, the operator can use the laser-assisted workflow to capture the required point from a more practical position.
AR stakeout for clearer site guidance
AR real-scene stakeout helps users move toward design points with visual guidance on the controller screen. This makes stakeout easier to understand, especially for teams who do not want to rely only on numerical offsets and direction values.
For construction layout, road work, utilities, earthworks and site preparation, AR stakeout can help operators find the correct location faster. The workflow is especially useful when many points need to be marked on site and the user wants a clearer connection between the digital design and the real ground situation.
IMU tilt compensation up to 120°
The a-GEO Matrix III supports IMU tilt compensation from 0° to 120°. This allows users to collect and stake points without constantly levelling the pole perfectly. The IMU is calibration-free, initializes quickly and is designed to work without being affected by magnetic interference in normal field use.
Tilt compensation is useful around fences, walls, parked machinery, vegetation, excavations and other obstacles where keeping the pole vertical is difficult. For surveyors, engineers and construction crews, this means faster point collection and a more comfortable workflow during long days outside.
Multi-constellation GNSS performance
The Matrix III uses a 1408-channel GNSS board and tracks GPS, GLONASS, BeiDou, Galileo, QZSS, IRNSS and SBAS signals. This wide satellite support helps maintain reliable positioning in different environments, including open construction sites, urban projects, infrastructure corridors and mapping jobs where satellite visibility can change throughout the day.
For RTK work, the receiver supports both single-base and network RTK workflows. It is specified with RTK accuracy of 8 mm + 1 ppm horizontally and 15 mm + 1 ppm vertically for baselines under 30 km, and network RTK accuracy of 8 mm + 0.5 ppm horizontally and 15 mm + 0.5 ppm vertically.
Camera-assisted positioning
The receiver includes a 5MP laser-assisted camera and a 5MP AR camera with an 84° field of view. The camera support helps the operator aim at target features more clearly when using laser measurement and provides the visual basis for AR stakeout.
This is helpful when measuring building details, site features, hard surfaces, edges and other objects where a normal GNSS pole setup is not the fastest option. The camera-assisted workflow makes the measurement process easier to follow and helps reduce blind aiming in more complex environments.
Complete rover workflow with SurPro 6.0
The a-GEO Matrix III Rover Set is supplied for use with SurPro 6.0 field software. SurPro supports common GNSS field tasks such as point survey, detail survey, control point survey, point stakeout, line stakeout, DSM stakeout, road design stakeout and coordinate tools.
For users working with design files, SurPro also includes CAD functions such as graphic display, drawing tools, DXF and DWG import, DXF export, layer management and CAD-based stakeout. This makes the set practical for surveyors and construction teams who need to move between office design data and field layout work.
Rugged S60III data collector
The included S60III controller is designed for outdoor GNSS work. It runs Android 12, uses a Qualcomm octa-core processor, includes a 5.5 inch 1080P display and has a physical QWERTY keypad for field input. The 9000 mAh battery and rugged housing make it suitable for long working days on construction sites, survey projects and mapping jobs.
The controller supports Bluetooth, dual-band Wi-Fi, 4G, USB Type-C and NFC. This gives users the connectivity needed for receiver control, data transfer and correction workflows in the field.
Built for professional field conditions
The Matrix III receiver has a magnesium alloy body, weighs less than 0.8 kg and is rated IP67 for dust and water protection. It is specified to survive a 2 m pole drop onto concrete and operates from -40°C to +75°C. These specifications make it suitable for demanding outdoor use in surveying, construction and engineering environments.
The receiver includes a 7000 mAh battery with up to 12 hours of rover operation, up to 7 hours in base mode and up to 15 hours in static mode. It also includes 64 GB internal storage with cyclic storage support, which is useful for long projects and raw observation data collection.
Flexible RTK connectivity
The Matrix III supports multiple correction workflows. It includes an internal UHF transceiver, a multi-band 4G modem, Wi-Fi and Bluetooth 5.2. This allows users to work with local base stations, radio correction links, NTRIP networks and controller-based RTK setups.
Supported differential formats include RTCM2x, RTCM3x, CMR, CMR+ and sCMRx. Output formats include RINEX and NMEA-0183, making the receiver suitable for a wide range of professional GNSS, GIS and engineering workflows.
Who is the a-GEO Matrix III Rover Set for?
The a-GEO Matrix III Rover Set is a strong option for users who need more than a basic RTK rover. It is especially useful for surveyors, construction workers, drone pilots, GIS teams and engineers who regularly work around obstacles, stake out design points, collect site features or need a flexible GNSS setup for changing field conditions.
- Land surveying and topographic measurement
- Construction layout and site preparation
- Road, railway and infrastructure stakeout
- Utility mapping and GIS asset collection
- Earthworks, terrain and stockpile measurement
- Engineering measurement and control point work
Buying from Global GPS Systems
When you buy the a-GEO Matrix III Rover Set from Global GPS Systems, you get support from a specialist supplier that works with GNSS receivers, RTK correction workflows, data collectors, field software and professional surveying equipment every day. This is useful when you need help choosing the right setup, connecting to correction services or preparing a complete field workflow for your team.
Datasheets & Manuals
Datasheets and manuals
Specifications
a-GEO Matrix III Rover Set Specifications
Product Overview
| Product Name | a-GEO Matrix III Rover Set |
|---|---|
| Product Type | Professional RTK GNSS rover set with laser, AR stakeout, camera support and IMU tilt compensation |
| Main Receiver | a-GEO Matrix III GNSS RTK receiver |
| Controller | S60III rugged Android data collector |
| Field Software | SurPro 6.0 Android field surveying software |
| Primary Applications | Land surveying, topographic measurement, construction layout, engineering measurement, GIS data collection, utility mapping, road stakeout, infrastructure work, CAD-based field stakeout and hard-to-reach point measurement |
Key Features
| Laser Measurement | Integrated long-range laser for measuring points that are difficult, unsafe or impractical to occupy with a pole |
|---|---|
| Laser Range | 0.05 m to 100 m |
| AR Stakeout | AR real-scene stakeout guidance for visual navigation to design points |
| IMU Tilt Compensation | 0° to 120° tilt compensation |
| Camera System | 5 MP laser-assisted camera and 5 MP AR camera |
| GNSS Engine | 1408-channel multi-constellation GNSS board |
| Communication Options | Internal UHF, 4G modem, Wi-Fi and Bluetooth |
| Receiver Protection | IP67 dustproof and waterproof receiver housing |
| Receiver Drop Resistance | Survives a 2 m pole drop onto concrete |
GNSS Performance
| GNSS Channels | 1408 channels |
|---|---|
| GPS Signals | L1C/A, L1C, L2C, L2P(Y), L5 |
| GLONASS Signals | G1, G2, G3 |
| BeiDou / BDS Signals | B1I, B2I, B3I, B1C, B2a, B2b |
| Galileo Signals | E1, E5a, E5b, E6 |
| QZSS Signals | L1C/A, L1C, L2C, L5, L6 |
| SBAS Signals | L1C/A; supports WAAS, EGNOS, MSAS, GAGAN and SDCM depending on region and configuration |
| IRNSS Signal | L5 |
| Cold Start | <60 s |
| Hot Start | <15 s |
| Positioning Output Rate | 1 Hz to 50 Hz |
| Signal Reacquisition | <1 s |
| RTK Initialization Time | <10 s; product page also lists <5 s for RTK initialization |
| Initialization Reliability | >99.99% |
| Time Accuracy | 20 ns |
| PPP Technology | Supports advanced PPP technology, including BDS PPP and Galileo HAS support where available |
Positioning Accuracy
| Code Differential GNSS Accuracy | Horizontal: 0.25 m + 1 ppm RMS; Vertical: 0.50 m + 1 ppm RMS |
|---|---|
| SBAS Differential Positioning Accuracy | Typically <5 m 3DRMS |
| Static GNSS Surveying Accuracy | Horizontal: 2.5 mm + 0.5 ppm RMS; Vertical: 5 mm + 0.5 ppm RMS |
| RTK Surveying Accuracy | Single baseline <30 km: Horizontal: 8 mm + 1 ppm RMS; Vertical: 15 mm + 1 ppm RMS |
| Network RTK Accuracy | Horizontal: 8 mm + 0.5 ppm RMS; Vertical: 15 mm + 0.5 ppm RMS |
| Laser Measurement Accuracy | ±2 mm ± 100 × 10-6 × D, where D is the measuring distance in millimetres |
| Laser Measurement Range | 0.05 m to 100 m |
Laser, Camera and AR System
| Laser Module | Integrated long-range laser measurement module |
|---|---|
| Laser Distance | 0.05 m to 100 m |
| Laser-Assisted Camera | 5 MP high-definition camera for auxiliary laser measurement and aiming |
| AR Camera | 5 MP high-definition camera for live-scene stakeout |
| Camera Field of View | 84° |
| AR Stakeout | Real-scene visual stakeout guidance for locating design points in the field |
| Low-Light Targeting Support | Large-aperture camera support for laser targeting in low-light conditions down to approximately 500 lux |
IMU and Tilt Compensation
| IMU Sensor | Supported |
|---|---|
| IMU Type | Calibration-free IMU, designed to resist magnetic interference |
| IMU Initialization | 4D IMU initialization in approximately 3 seconds |
| Tilt Compensation Range | Up to 120° |
| IMU Accuracy | 2.5 cm within 120° |
| IMU Update Rate | 400 Hz |
Receiver Physical Specifications
| Receiver Housing Material | Magnesium alloy |
|---|---|
| Receiver Dimensions | 129 mm × 129 mm × 99 mm |
| Receiver Weight | Approximately 0.8 kg |
| Operating Temperature | -40°C to +75°C |
| Storage Temperature | -55°C to +85°C |
| Ingress Protection | IP67 dustproof and waterproof; protected from 30 minutes immersion to a depth of 1 m |
| Shock Resistance | Survives a 2 m pole drop onto concrete |
| Vibration | MIL-STD-810G |
| Humidity | 100% humidity; listed as condensing / non-condensing depending on source |
Receiver Power
| Internal Battery | 7000 mAh, 7.4 V lithium-ion battery |
|---|---|
| External Power Input | 9 V to 24 V DC external power input through 5-pin LEMO port |
| Charging | USB Type-C fast charging supported |
| Battery Life – Rover Mode | Up to 12 hours |
| Battery Life – Base Mode | Up to 7 hours |
| Battery Life – Static Mode | Up to 15 hours |
Receiver Communications and Interfaces
| I/O Interfaces | 5-pin LEMO port, USB Type-C port, Nano-SIM slot and UHF antenna interface |
|---|---|
| LEMO Port Functions | Power supply, RS232 serial port control and external radio communication |
| USB Port | USB Type-C for data download and charging |
| SIM Card Slot | Nano-SIM supported |
| Internal UHF Radio | 1.5 W transmit power; receiver and transmitter support |
| UHF Frequency Band | 410 MHz to 470 MHz; frequency setting supported |
| UHF Protocols | TrimTalk450S, AlphaTalk15, SOUTH, Satel, PCC-EOT |
| Cellular Modem | Integrated full-frequency multi-band 4G modem |
| Cellular Network Support | WCDMA, CDMA2000, TDD-LTE and FDD-LTE |
| Wi-Fi | 802.11 b/g; access point and client mode; hotspot correction transmission supported |
| Bluetooth | Bluetooth 5.2 Classic / BLE proprietary dual-mode |
Data Formats and Storage
| Differential Data Formats | RTCM2x, RTCM3x, CMR, CMR+ and sCMRx |
|---|---|
| Output Data Formats | RINEX and NMEA-0183 outputs |
| Internal Storage | 64 GB internal memory |
| Storage Function | Cyclic storage supported |
| Observation Data Capacity | Product literature lists up to almost 4 years of raw observation data based on a 5-second sampling interval; some manufacturer listings state over 1 year based on the same interval |
Receiver User Interaction
| Receiver Operating System | Intelligent Linux operating system |
|---|---|
| Supported Controllers | Android devices with supported field software |
| Buttons | Power key |
| Indicators | Power indicator, data link indicator, satellite indicator and Bluetooth indicator |
| Voice Prompts | Intelligent voice prompts |
| Web Configuration | WEB UI configuration supported |
S60III Data Collector Specifications
| Operating System | Android 12 with GMS support |
|---|---|
| Processor | Qualcomm SDM 662 octa-core, 2.0 GHz |
| RAM | 4 GB SDRAM |
| Internal Storage | 64 GB flash memory |
| Memory Card Support | MicroSDHC up to 128 GB |
| Display | 5.5 inch LTPS LCD capacitive multi-touch display |
| Display Resolution | 1920 × 1080 pixels, HD+ |
| Pixel Density | 401 ppi |
| Display Brightness | 500 nits |
| Display Glass | Gorilla Glass |
| Keypad | Physical QWERTY keypad |
| Controller Battery | 9000 mAh lithium-ion battery |
| Controller Operating Time | Up to 22 hours |
| Controller Charging Time | Approximately 4 hours typical |
| Controller Dimensions | 228 mm × 96 mm × 21 mm |
| Controller Weight | 420 g with battery |
| Controller Operating Temperature | -20°C to +65°C |
| Controller Storage Temperature | -30°C to +70°C |
| Controller Protection Rating | IP68 |
| Controller Drop Resistance | 1.2 m fall onto concrete |
| Controller Wi-Fi | 802.11 a/b/g/n/ac, access point mode, 2.4 GHz / 5 GHz |
| Controller Bluetooth | Bluetooth 5.0 |
| Controller USB | USB Type-C with OTG support |
| Controller NFC | Supported |
| Controller Rear Camera | 13 MP rear camera with auto-focus and flash |
| Controller Certifications | CE and FCC |
SurPro 6.0 Field Software
| Software Platform | Android field surveying software |
|---|---|
| Supported Workflows | GNSS survey, engineering measurement, construction layout, GIS collection and stakeout workflows |
| Project Management | Project setup, project management and coordinate system settings |
| GNSS Device Configuration | Rover, base and static GNSS configuration workflows |
| Survey Functions | Point survey, detail survey and control point survey |
| Stakeout Functions | Point stakeout, line stakeout, DSM stakeout and road design stakeout |
| CAD Functions | CAD graphic display, drawing tools, DXF/DWG import and DXF export |
| Coding | Code library management for field coding and mapping |
| Calculation Tools | Coordinate converter, angle converter, perimeter and area tools, and calculator |
| Visual Field Workflow | Supports drawing construction while taking measurements for immediate visual confirmation of collected survey data |
Correction and Survey Workflows
| RTK Rover Operation | Supported |
|---|---|
| Network RTK / NTRIP | Supported through cellular, Wi-Fi and compatible correction workflows |
| Base / Rover Workflow | Supported when used with suitable base station equipment and radio/correction configuration |
| Static Surveying | Supported |
| SBAS Differential Positioning | Supported where available |
| Code Differential GNSS | Supported |
| Laser-Assisted Coordinate Measurement | Supported for hard-to-reach points, building details, obstructed points, slopes, fences, walls and site features |
| Tilted-Pole Surveying | Supported with IMU tilt compensation up to 120° |
Recommended Users and Industries
| Land Surveyors | Topographic surveys, boundary-related field measurement, control point work and detail collection |
|---|---|
| Construction Teams | Site layout, stakeout, earthworks, building corners, roadworks and design checks |
| Civil Engineers | Engineering measurement, infrastructure work, road design stakeout and field verification |
| GIS and Mapping Professionals | Asset collection, utility mapping, field coding and coordinate data capture |
| Infrastructure and Road Crews | Road, railway, corridor, utility and construction alignment stakeout |
| Hard-to-Reach Point Measurement | Suitable for points near walls, fences, slopes, ditches, traffic areas, stockpiles, machinery or obstacles where direct pole occupation is difficult |
Package / Included Items
| Item | Quantity | Notes |
|---|---|---|
| a-GEO Matrix III GNSS RTK Receiver | 1 | Main rover receiver with laser, AR camera, laser-assisted camera, IMU and GNSS board |
| S60III Data Collector | 1 | Rugged Android field controller |
| SurPro 6.0 Field Software | 1 | Android field surveying software workflow for GNSS measurement and stakeout |
| RTK Rover Accessories | Configuration dependent | Poles, brackets, chargers, cases, cables, antennas and other accessories may vary by package configuration and supplier region |
Specifications and package contents may vary by configuration, region or manufacturer update. Always check the current configuration before ordering.
FAQ
a-GEO Matrix III Rover Set FAQ
Product Overview
What is the a-GEO Matrix III Rover Set?
The a-GEO Matrix III Rover Set is a professional RTK GNSS rover package for accurate field positioning, surveying, construction layout, engineering measurement, GIS data collection and mapping. It combines the a-GEO Matrix III GNSS receiver with a rugged S60III data collector and SurPro 6.0 field software workflow.
Who is the a-GEO Matrix III Rover Set designed for?
It is designed for land surveyors, construction teams, civil engineers, GIS professionals, mapping crews and other geospatial users who need reliable RTK positioning, fast point collection and practical stakeout tools in the field.
What makes the Matrix III different from a standard RTK GNSS receiver?
The Matrix III combines traditional RTK GNSS positioning with 100 m laser measurement, AR real-scene stakeout, a 5MP auxiliary camera and IMU tilt compensation up to 120°. This makes it more flexible for measuring difficult, obstructed or hard-to-reach points.
Is this a rover-only set or a base and rover set?
This product is a rover set. It is intended for use as an RTK rover with correction data from a compatible base station, NTRIP network or other supported RTK correction source.
What field software is used with the rover set?
The set is designed for use with SurPro 6.0 Android field software. SurPro supports common surveying and engineering workflows such as point measurement, stakeout, CAD-based work, line stakeout, road design stakeout and coordinate tools.
Laser, Camera and AR Stakeout
How far can the Matrix III laser measure?
The Matrix III laser has a specified measurement range from 0.05 m to 100 m, making it useful for measuring points that are difficult or unsafe to reach directly with a survey pole.
What is the laser measurement function used for?
The laser function helps measure hard-to-reach points such as building corners, walls, fenced areas, ditches, slopes, traffic areas, stockpiles and other locations where placing the pole directly on the target is difficult.
Does the Matrix III support AR real-scene stakeout?
Yes. The Matrix III supports AR real-scene stakeout, allowing the operator to see visual guidance on the controller screen and navigate more directly to the point that needs to be marked.
How does AR stakeout help in construction layout?
AR stakeout helps connect the digital design with the real site view. This can make it easier to find stakeout points for building layout, road work, utilities, earthworks and site preparation without repeatedly moving the pole back and forth.
Does the Matrix III have a camera?
Yes. The receiver includes a 5MP laser-assisted camera and a 5MP AR camera. These cameras support visual targeting, laser-assisted coordinate positioning and AR stakeout guidance.
What is the 5MP auxiliary camera used for?
The 5MP auxiliary camera helps the operator aim at the correct target feature during laser-assisted measurement, especially when working around obstacles or in complex field environments.
GNSS Accuracy and Field Performance
Which GNSS constellations does the Matrix III track?
The Matrix III tracks GPS, GLONASS, BeiDou, Galileo, QZSS, IRNSS and SBAS signals. This multi-constellation tracking helps maintain reliable positioning across a wide range of field conditions.
How many GNSS channels does the Matrix III have?
The Matrix III uses a 1408-channel GNSS board for multi-constellation and multi-frequency satellite tracking.
What RTK accuracy can the Matrix III achieve?
Under specified RTK conditions, the Matrix III is listed with horizontal accuracy of 8 mm + 1 ppm and vertical accuracy of 15 mm + 1 ppm for single-baseline RTK. Actual results depend on satellite visibility, correction quality, environment, setup and field procedure.
Does the Matrix III support IMU tilt measurement?
Yes. The Matrix III supports IMU tilt compensation from 0° to 120°, allowing users to measure and stake points without constantly keeping the pole perfectly vertical.
Does the IMU need calibration?
The Matrix III uses a calibration-free IMU design with fast initialization. This helps reduce setup time and makes field measurement more efficient.
Can the Matrix III be used for hard-to-reach points?
Yes. The combination of long-range laser measurement, camera-assisted targeting and IMU tilt compensation makes the Matrix III useful for points near walls, fences, slopes, ditches, traffic areas and other difficult locations.
Connectivity, Durability and Workflow
What RTK correction options does the Matrix III support?
The receiver supports multiple correction workflows through internal UHF, 4G cellular connectivity, Wi-Fi and Bluetooth. It can be used with compatible base stations, radio corrections or network RTK services depending on the field setup.
Does the Matrix III have an internal UHF radio?
Yes. The Matrix III includes an internal UHF radio and supports common radio protocols, allowing it to work in suitable base-rover radio setups.
Can the Matrix III use a SIM card?
Yes. The receiver includes a Nano-SIM card slot and an integrated 4G modem for cellular-based correction workflows where network coverage and correction services are available.
What data formats does the Matrix III support?
The receiver supports common GNSS data formats including RTCM, CMR, CMR+, sCMRx, RINEX and NMEA output formats, making it suitable for a range of surveying and data-processing workflows.
How much internal storage does the receiver have?
The Matrix III has 64 GB of internal memory with cyclic storage support, providing space for long-term observation data and field records.
How rugged is the Matrix III receiver?
The receiver has a magnesium alloy housing, IP67 dust and water protection, and is specified to survive a 2 m pole drop onto concrete. It is built for demanding outdoor surveying and construction environments.
How long does the receiver battery last?
The Matrix III is specified for up to 12 hours in rover mode, 7 hours in base mode and 15 hours in static mode. Battery life can vary depending on radio use, cellular use, temperature and field settings.
Additional information
| GNSS feature | GNSS with Camera, GNSS with IMU |
|---|
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