LiDAR 0201 Cloud Computing

We has solutions for producing fully corrected and geo-referenced multibeam point clouds in real-time. This ability is interested to Mobile Laser Mapping System users to generate similarly corrected and geo-referenced point clouds on-the-fly for laser systems interfaced to GNSS and INS sensors.

While mobile platforms were already used in the land survey industry to collect the data, the idea of a REAL-TIME laser scanning system are to produce a DTM on-the-fly that is fully corrected for height, motion, position and timing as acquisition proceeds, consequently saving a great deal of post-processing time.

We added support for REAL-TIME laser scanning in 2016. We are now able to interface to most of the laser scanning systems being used in the land survey industry (Quanergy). As with multibeam, We are able to acquire data from multiple laser scanning systems simultaneously to produce a homogenous point cloud on-the-fly.


The accuracy of some modern laser scanning systems is extremely high. Many systems are able to measure ranges to the centimeter level over distances of more than 150 meters. As with any survey, required final positioning accuracy dictates the quality of systems employed. For final positioning of the highest order, accurate range measurements must be complemented by using GNSS positioning systems corrected with VRS-RTK and inertial navigation systems (INS) of the highest rank. Employing quality sensors, REAL-TIME laser scanning can be performed at speeds of 80 km/h. High end INS even allows data acquisition for limited time periods through tunnels and in other conditions where GNSS positioning is periodically problematic.

With our new SoC we are able to compute and store more than 500.000 points per second without any problem. As a result the user has a nearly finished end product straight after the survey was executed. The final end result can be enhanced by importing trajectory data from the Inertial Navigation System or INS, thereby improving particularly the height component to the millimeter level.

The resultant fully geo-referenced point cloud is available to 3rd party systems for further processing, e.g. Automated LIDAR Object Detection & Classification using Artificial Intelligence.

A Mobile Laser Mapping System is ideal for scanning roads, urbanized areas, mines, stockpiles etc. in a very short time. But laser systems are also extremely useful in the marine environment, where lasers can be combined with multibeam to measure above and below water simultaneously. This application is ideal for scanning canals, ship channels and rivers. The once arduous task of surveying the underside of bridges is now accomplished in double quick time with a few vessel runs to map in the entire bridge.

Our integrated platform are an isolated, resource controlled, and portable runtime environment which runs on a host machine or virtual machine. An application or process which runs in a environment is packaged with all the required dependencies and configuration files; It’s given the illusion that there are no other processes running outside of execution box. Everything the application depends on to run successfully also lives inside this template.

The integrated platform is the vessel by which images are packaged and delivered. This automated process produces images (effectively templates) which may then be run anywhere—on premises, in the cloud, or on a personal machine.

Dedicated GPU Servers.

Resource-intensive applications with a large number of parallel tasks — such as image processing, bioinformatics, point cloud and big data — typically run very slowly on a conventional CPU. A graphical processing unit (GPU) processes the same tasks more rapidly, thanks to its massive parallel architecture. While originally designed to handle computation
only for computer graphics, GPUs have since been adapted with programming languages, such as CUDA, to perform computations in all types of applications. GPU Servers Provide Faster Processing for Complex Computations.

Global, high-capacity network.

Secure and robust network provides exceptional performance to customers across 5 continents. Network efficiency and stability is achieved through ongoing monitoring, optimization and quality arrangements with carriers worldwide.

You can download the next flyer with our NEW Solution of LiDAR 0201 Cloud Computing:


New Generation UAV (MTOW 24KG) - LiDAR is HERE

High Perfomance UAV Plataform with Aerospace military and industry class quality. Position System GPS and Inertial Navigaton System High Precision (centimeter).

NEXT GENERATIOn UAV. We has solutions for producing fully corrected and geo-referenced multibeam point clouds in real-time. The idea of a REAL-TIME laser scanning system are to produce a DTM on-the-fly that is fully corrected for height, motion, position and timing as acquisition proceeds, consequently saving a great deal of post-processing time.





SLAM Mobile Mapping is the professional indoor/outdoor mobile mapping system able to make your 3D survey activity efficacy and powerful.

SLAM Mobile Mappingis light, portable and easy to use. It doesn’t need trolleys, it doesn’t require GPS/GNSS sensors or frequent calibration stops, and it is equipped with a powerful control unit. By using a backpack (not indispensable) you make your SLAM Mobile Mapping experience easy and not tiring.

SLAM Mobile Mapping can be used almost anywhere (especially where a static scanner is impossible or difficult to use and when you need a quick 3D view of big areas) and it is revolutionary in underground sites.

Automatically get your position without using control points or GPS/GNSS.

Check and vizualize in real time the differences respect to a previous surveying




Mapping Software Solution for all your geodata

Supporting a variety of import formats, which form the start of any project. Providing incredibly powerful drawing and calculation tools, allowing handling of all data types and transforming them into a complete project plan. A lot of standard export formats ensure the compatibility with all other types of soft- and hardware.

Providing solutions for various industries in an all-in-one package makes truly “360° Compatible”.

Data sets coming from total stations, GPS instruments, laser scanners, mobile mappers, UAV and drones, single and multi beam systems and other CAD and GIS software packages can be handled and processed with ease.


Process all GEODATA information with the SoC On-Board Procesor including a high performance 6th and 7th Generation Intel® Core™ i7 processor, and share your results via serial or WiFi connection. Test your algorithms live at the multicopter and get the results immediately. With the SoC On-Board Procesor you can immediately start enjoying endless opportunities provided by this powerful board.


Online Profesional Storage

The online professional backup space for your images, data company´s jobs in a dedicated data center. Make your data safe from environmental disasters or virus attacks such as ransomware/cryptolocker on a secure remote space, perform automated or planned copying, with synchronization, retention of multiple backups, AES 256-bit encryption, incremental and differential backups with FTP and FTPS support, access by unlimited clients, and plans from 50 GB to the space in TB that your company needs.



Automated LIDAR Object Detection & Classification using Artificial Intelligence

Capturing Real Enviroments Through automated LIDAR (Light Detection And Ranging ) data processing, Artificial Intelligence and fully automated Detection and Deep Learning Classification resulting in Advanced 3D Perception.

Collecting large amounts of data is important for both testing and situation analysis as well as supplying the training data needs of deep learning. The way it has been build, complimented with powerful algorithms, is able to process large amounts of LIDAR generated point cloud data. The data collection is part of the base platform.

The Deep Learning capabilities of fuses all the essential data to accelerate the training and verification of the data gathered from sensor technology. The ecosystem has all the functions to provide an automated DETECTION and automated CLASSIFICATION environment, making sure you end up with usable computer vision output to make the right decisions.

Relevant objects on the collected data have to be labeled precisely in order for the AI platform to learn all the classes reliably. The annotation and classifications functions  makes multisensor data annotation many times faster than the manual method.

Artificial Intelligence object recognition tool.

Integrating artificial intelligence, software object recognition tool allows to manage a point cloud in a much simpler way. Automatically detecting clusters of points, and recognizing any object's geometry. Classify any objects 70% faster and focus on the most important aspects of your projects.


ADAS AI & Deep Learning - Automated LiDAR:

Automatic Harbor monitoring: Surveillance and observation of ships and boats at port using advanced SLAM algorithms for perception, with a full panoramic view during night and day.

UAV Security using advanced SLAM algorithms for perception.

Camera Hyperspectral VIS, NIR, VNIR, SWIR, MWIR and LWIR

Visible light (380 - 800 nm)

We offers several hyperspectral cameras in the visible (380 nm – 800 nm) range. The camera models vary in terms of spectral -, spatial resolution, spectral response, imaging speed, and configuration options. Customized spectral cameras are available; please consult us for the optimum solution for your application.

Visible + near infrared light (400 - 1 000 nm)

we offers several hyperspectral cameras in the visible – near infrared VNIR (350 – 1 000 nm) range. The camera models vary in terms of spectral -, spatial resolution, spectral response, imaging speed, and configuration options. Customized spectral cameras are available; please consult us for the optimum solution for your application.

Near infrared (900 - 1 700 nm)

Near infrared 900 – 1 700 nm spectral cameras are ideal for industrial measurements, including applications such as moisture profiling, chemical sorting, etc. Our cameras offer high spatial resolution, distortion free image, and high frame rate up to 400 images per second. Please consult us for the optimum solution for your application.

Short-wavelength infrared (1 000 - 2 500 nm)

High-speed hyperspectral camera in the SWIR range (1000 – 2500 nm) has more spatial pixels (384) and still achieves much faster image rates up to 400 frames per second using CameraLink connection. With its temperature stabilized optics, it provides the stability and sensitivity required in today’s most challenging near-infrared chemical imaging applications, from pharmaceutical quality assurance to food and agriculture analysis.

Mid-wavelength infrared (3 - 5 µm)

High-end MWIR is designed for steel production and black plastic recycling applications.

Long-wavelength infrared (8 - 12.4 µm)

High-end LWIR cameras are designed for chemical imaging in the thermal “fingerprint” infrared range, for industrial, environmental and defense applications.


Multi Sensor Gyro-Stabilised Gimbal.

  • Ultimate stability at 30x optical zoom
  • Supreme image quality with 1080 HD sensor
  • Global shutter sensor for exceptional image clarity
  • Industry leading surveillance range with unique 60mm IR lens


Custom Solutions

If our off-the-shelf solutions do not precisely meet your requirements, our dedicated team of project managers, support staff, scientists, algorithm developers, software, hardware and test engineers stand ready to work with you to precisely meet your application objectives.



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3D LiDAR Sensor 360º and State Solid

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This compact and rugged sensor comes at a breakthrough price and was designed to meet the demands of the most challenging real-world applications. Multiple laser beams and Time-of-Flight (TOF) range measurment result in 3D point clouds for spatial sensing. This is the first cost-effective, high-definition TOF LiDAR sensor enabling ubiquitous use of smart sensing in harsh environments. The sensor operates reliably under any lighting condition and works in any weather condition, include rain, snow and dust.

3D-sensing LiDAR sensor enables new applications in the security, industrial automation, transportation and mapping markets that have not been commercially feasible due to the high cost of existing LiDAR sensors. Smart sensing solutions can be applied to a variety of platforms (e.g., vehicles, robots, production tools, monitoring stations) to enable rapid 3D detection, measurement, tracking, identification and classification of items, as well as triggering actions based on real-time scenario analysis powered by advanced perception software. Homes, buildings and land can be made more secure and managed intelligently through LiDAR-based surveillance and smart detection. Factories, warehouses and distribution centers can be run more efficiently and safely. Vehicle accidents due to blind spots, poor visibility, changes in traffic flow, and distraction can be virtually eliminated through the use of LiDAR in Advanced Driver Assist Systems (ADAS) and autonomous vehicles (AV). Highly detailed and accurate 3D maps can be created to improve navigation and survey land via terrestrial and aerial mapping.

Solid State LiDAR contains no moving parts en either macro or micro scales. This enables highest level of performance, longevity and cost efficiency with increasingly smaller footprints that requiere less power.





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