Lidar Drone systems

lidar drones include quadcopters, fixed wing drones, UAV helicopters

Lidar sensors currently available on UAVs capture imagery that until recently you needed a large aircraft loaded with electronics and support to operate.The output from these lidar sensors is outstanding.  The pace of development and improvement in the lidar sensors over the past few years has been tremendous and will continue as the technology becomes more in demand and the uses expand. Combining Lidar with quality low cost drones will grow the industry , thus increase manufactures and reduce costs.

What is LiDAR and how does it work?

Light Detection and Ranging (LiDAR) is an active aerial mapping method that uses a sensor that emits continuous pulses of light. These pulses of light typically have wavelengths between 1064 nm and 1550 nm, well outside the spectrum that is visible to humans. These pulses of light bounce off the solid objects inside the surface area. The reflected rays are then received by the same sensor. Using the data on the time it takes for each pulse of light to return to the sensor, a mapping algorithm can determine the size and location of the individual features within the area of interest.

LiDAR is a highly accurate mapping technology. By using multiple pulses of light that have constant speeds, a LiDAR survey can generate models made from very dense point clouds. LiDAR-generated models are typically accurate to 1 meter. With the right equipment and the use of ground control points (GCPs), the accuracy of a LiDAR survey can even be enhanced to about 1 centimeter.

By not being dependent on visible light, LiDAR surveys are also very versatile. A LiDAR survey can be done even at night and can capture features that would otherwise be concealed by larger structures such as trees and building. The light pulses that LiDAR sensors emit can penetrate through vegetation, allowing surveyors to model topography even when it is covered by a thick forest canopy. There have even been studies that used LiDAR technology to map the terrain of the ocean floor.

Compared to photogrammetry, post-processing of LiDAR data is less hardware-intensive and takes a much shorter time. It does not need to process thousands of overlapping images but instead only has to go through arrays of numbered data.

What is LiDAR used for?

The most popular use of LiDAR technology has been in the field of aerial mapping. Agriculture and forestry have benefitted from the ability of LiDAR to penetrate vegetation and generate a model of the underlying topography in heavily forested areas. Mapping of urban environments is also best done with LiDAR as the presence of tall building and structures will obscure aerial images captured by any RGB camera.

The light pulses that a LiDAR sensor emits are not restricted to modeling features at the ground model. Drones with LiDAR sensors can be programmed to fly around buildings or any large structure to generate a 3D model of it. This is a great tool for structural inspection and for monitoring of construction projects. LiDAR can also be used to model small or thin objects such as power lines and railroad tracks, making them useful for corridor inspection jobs for specific industries.

LiDAR technology can be integrated with drones for obstacle avoidance in the same way that it is already being used in driver-less cars. By using pulses of non-visible light, LiDAR can detect obstacles faster than sonar technology and can identify them even in total darkness.

What are the drawbacks of LiDAR?

Up until now the biggest hurdle issue has been cost of the units and their weight . Until recently a LiDAR sensor could cost between $50,000 to $300,000. The sensors also tend to be on the heavy side, requiring the use of a drone with a high payload capacity. You can see how the option just was not a viable one for most enterprise-level applications, setting up a complete drone-based LiDAR surveying system will cost at least $350,000 , but as we explore this technology we see this is on the rapid advancement schedule

LiDAR models are essentially just point clouds. They contain no color information, resulting in highly accurate but rather dull-looking models. They may also be difficult to interpret for audience who are not very familiar with the technology or the survey area. LiDAR models may not be the best option for models meant for advertisement or visual presentation. They most definitely cannot be used for applications requiring visual assessment, such as site inspection and crop health surveying.

About Lidar Sensor Technology

Lidar – Light Detection and Ranging or Lidar is a remote sensing technology where the environment is scanned with a pulsed laser beam and the reflection time of the signal from the object back to the detector is measured.

The Time-of-Flight (ToF) reflection time measurement can be used over distances from one meter up to several kilometers. To increase the range of lidar systems, very short laser pulses in the invisible Near Infrared range are used. These enable a far higher laser power compared to continuous wave lasers, while still complying with eye safety requirements.

During the scanning process, the lidar system will gather individual distance points within an aggregate of points, from which 3D images of the environment can be computed. The laser scanners deflect the laser beam using deflecting mirrors, which enable them to achieve very wide fields of vision

Most of the latest UAV lidar systems can rotate around their own axis and offer 360 degree visibility. Modern devices achieve very high data rates with over one million distance points per second.

How Lidar Sensors Works In Brief

1. Emission of a laser pulse
2. Record of the back scattered signal
3. Distance measurement (time of flight x speed of light)
4. Retrieving plane position and altitude
5. Computation of precise echo position

UAV Lidar Sensor Uses

Lidar Sensors For Drone Collision Avoidance

Within a lidar sensor, a number of independent elements are integrated into a single device and will generate critical ranging data for safe navigation along with precise positioning. Lidar sensors have obstacle detection capabilities over a wide field of view, which make them ideal as part of a sense and avoid solution.  Lidar is the leading technology for automobile collision avoidance and also in driver-less cars.

Lidar Sensors For Ground And Above Ground Imagery

The latest lidar sensors have integrated optical altimeter technology which deliver accurate distance measurements above ground level while meeting size, weight and cost requirements of UAV manufacturers.

Agriculture and forestry use lidar to inspect vegetation such as leaves and crops. Also, the above ground imagery (for example forest canopy) can be removed to view the ground surface area.

Lidar Drones For Structural Inspection

The best lidar sensors  have powerful built-in signal processing, large field of view and multi-segment measurements which generate critical distance data and efficient obstacle detection, which enable safe navigation when performing structural inspections.

Lidar Sensor At Night

Lidar sensors also described as laser scanning will work in low contrast or shadowy situations, even at night.

Lidar UAV Uses In Brief  

• Agriculture and forestry
• Archaeology and cultural heritage documentation
• Corridor mapping: power line, railway track, and pipeline inspection
• Topography in open-cast mining
• Construction site monitoring
• Building and structural inspections
• Surveying of urban environments
• Resource management
• Collision avoidance
• Shoreline and storm surge modeling
• Hydrodynamic modeling
• Digital Elevation Models

ToF 3D Cameras (Flash Lidar)

Now, sometimes you might hear people talk about Flash Lidar.  Time-of-Flight cameras sensors are often referred to as Flash Lidar. But there are big differences in LiDAR and Flash LiDAR technology and its uses.

ToF flash lidar is scannerless, meaning that the entire scene is captured with a single light pulse, as opposed to point-by-point with a rotating laser beam.

Time-of-flight flash lidar cameras capture a whole scene in three dimensions with a dedicated image sensor, and therefore has no need for moving parts.  ToF has so many great uses.  

Lidar Sensors For UAVs

LeddarTech Lidar Sensors

Vu8 Lidar Sensor

$760.00

The LeddarTech Vu8 is a compact solid-state lidar which provides highly accurate multi-target detection over eight independent segments. Detecting targets at up to a 215 meter range and weighting only 75 grams, the Vu8 delivers nearly twice the range for half the volume compared with the Leddar M16 from which it inspires.

The Vu8 uses a fixed laser light source, which significantly increases the sensor’s robustness and cost-efficiency. The Vu8 has a high tolerance to noise and interference.  This means it is unaffected by other sensors’ signal, by lighting conditions including direct sunlight, and it provides reliable detection in various weather conditions including rain and snow.

The Vu8 sensor is particularly suited for navigation and collision avoidance applications in driver-assisted, semi-autonomous and autonomous vehicles, such as drones, trucks, heavy equipment for construction and mining, shuttles, buses and other public transportation vehicles.

Applications such as Advanced Traffic Management System (ATMS) requiring longer ranges as well as wide fields of view will also benefit greatly from the new Vu8 sensor.

Features and Benefits of the Vu8 Lidar Sensor

• Detection range up to  700 feet (215 meters)
• Compact and lightweight (75 grams)
• 8 independent segments with simultaneous acquisition and lateral discrimination capabilities
• 20°, 48° and 100° beam width options, for optimized field of view
• Rapid refresh rate up to 100 Hz
• Immune to ambient light
• No moving parts, for ultimate robustness
• Easy to integrate, includes Leddar Enabler SDK
• Based on the modular LeddarVu platform for flexible integration and customization
• Best cost/performance ratio

LeddarOne Lidar Sensor

This LeddarOne lidar sensor is a full-beam sensor module which is entirely dedicated to a single point measurement which makes it ideal for applications such as level sensing, security and surveillance, drone altimeter and presence detection.

The LeddarOne can be easily integrated into almost any system. The module’s compact size, low power consumption and high accuracy gives developers and integrators great flexibility to enhance their own products.

Features of the LeddarOne Lidar Sensor

• 0 to 40 meter detection range
• Compact and lightweight 0.5 ounces (14 grams)
• Rapid data acquisition time, up to 140 Hz
• Proven reliability, even in harsh conditions
• No moving parts, for ultimate robustness
• Low power consumption
• 3-degree, diffuse beam
• Very compact (2” diameter)
• Immune to ambient light
• Easy to integrate, includes Leddar Enabler SDK
• Best cost/performance ratio

You can read more on the LeddarOne here which, includes full specifications and the many uses for this small compact lidar sensor.

Velodyne Lidar Sensors

Velodyne produce 4 of the best lidar sensors for UAVs with a full line of sensors capable of delivering the most accurate real-time 3D data on the market. Their sensors are developed to create a full 360 degree field of vision environmental view for use in autonomous vehicles, industrial equipment, 3D mapping and surveillance. Velodyne have 3 lidar sensors for UAVs.

HDL-32E Lidar Sensor

The HDL-32E LiDAR sensor is small, lightweight, ruggedly built and features up to 32 lasers across a 40 degree vertical field of view. The HDL-32E measures only 5.7″ high x 3.4″ in diameter, weighs less than 2 kg and was designed to exceed the demands of the most challenging real world autonomous navigation,

• Dual returns
• ± 2 cm accuracy
• 2.86 lbs (1.3 kg) with cabling
• 32 channels
• 80 – 100 meter range
• 700,000 points per second
• 360° horizontal FOV
• +10° to -30° vertical FOV
• Low power consumption
• Rugged design
• Weighs less than 2 kg (4.4 lbs)

Puck VLP-16 Lidar Sensor

Velodyne’s new PUCK™ VLP-16 lidar sensor is the smallest, newest, and most advanced product in Velodyne’s 3D lidar product range. It is more cost-effective than similarly priced sensors and developed with mass production in mind.

It retains the key features of Velodyne’s breakthroughs in lidar: Real-time, 360 degree horizontal FOV, 3D distance and calibrated reflectivity measurements.

• Dual returns
• 16 channels
• 100 meter range
• 300,000 points per second
• 360 degree horizontal FOV
• ± 15° vertical FOV
• Low power consumption
• Protective design
• Weight of 1.82 lbs (830 grams)

Puck Lite Lidar Sensor For UAVs

Velodyne LiDAR’s Puck LITE™ is a lighter weight version of the VLP-16 PUCK for applications that demand a lower weight to meet their requirements. The Puck LITE™ has identical performance to VLP-16 with the only difference in weight of 590 grams (1.3 lbs) versus 830 grams for the VLP-16.https://dd2cd413d5b22b540a2e46932be04826.safeframe.googlesyndication.com/safeframe/1-0-38/html/container.html

No other changes have been made to the Puck LITE™ as it retains its patented 360 degree surround view to capture real-time 3D lidar data which includes distance and calibrated reflectivity measurements.

Here is a terrific video which explains how lidar is being used and what the Velodyne lidar sensors can do.

Puck Hi-Res Lidar Sensor For UAVs

Expanding on Velodyne VLP-16, the Puck Hi-Res is used in applications which require greater resolution in the captured 3D image. Puck Hi-Res retains the VLP-16 Puck’s 360° horizontal field-of-view (FoV) and 100-meter range.

However, the Puck Hi-Res also delivers a 20° vertical FoV for a tighter channel distribution with 1.33° between channels instead of 2.00°,  giving greater details in the 3D image at longer ranges. This will enable the host system to not only detect, but also better discern, objects at these greater distances.

Velodyne Puck Hi-Res Lidar Sensor Features

• 300,000 points per second
• 360° horizontal FOV
• Low power consumption
• Protective design
• Connectors: RJ45  /  M12
• Weight: ~1.3 lbs (590 grams) without cabling and interface box

Riegl  – VUX-1UAV LiDAR Sensor

Laser scanning utilizing high-end unmanned airborne platforms provides the possibility to acquire data in dangerous and/or hard to reach areas, while offering an excellent cost to benefit ratio for numerous applications, e.g., precision farming, forestry, and mining.

For years, Riegl Airborne Laser Scanners have been successfully used in powerful unmanned airborne platforms. With the VUX-1UAV airborne scanner and the RiCOPTER which is Riegls’s remotely piloted aircraft system for Unmanned Laser Scanning (ULS), Riegl have revolutionized the commercial and civil market with its advanced systems.

The Riegl VUX-1UAV (former VUX-1) is a very lightweight and compact lidar laser scanner, meeting the challenges of emerging survey solutions by UAS/UAV/RPAS, both in measurement performance as in system integration.

With regard to the specific restrictions and flight characteristics of UAS, the Riegl VUX-1UAV is designed to be mounted in any orientation and even under limited weight and space conditions.

It is modest in power consumption with the instrument requiring only 1 power supply. The entire data set of an acquisition campaign is stored onto an internal 240 Gigabyte SSD and/or provided as real-time line scan data via the integrated LAN TCP / IP interface.

VUX-1UAV Lidar Sensor Main Features:

• 10 mm survey grade accuracy
• Scan speed up to 200 scans per second
• Measurement rate up to 500,000 measurements per second (@ 550 kHz PRR & 330° FOV)
• Operating flight altitude up to more than 1,000 feet
• Field of view up to 330 degree for practically unrestricted data acquisition
• Regular point pattern, perfectly parallel scan lines
• Cutting edge Riegl technology providing;
  – echo signal digitization
  – online waveform processing
  – multiple-time-around processing
• Multiple target capability – practically unlimited number of targets echoes
• Compact (227 x 180 x 125 mm), lightweight (3.5 kg) and rugged
• Easily mountable on professional UAS / UAV / RPAS
• Mechanical and electrical interface for IMU mounting
• Electrical interfaces for GPS data string and Sync Pulse (1 PPS)
• LAN-TCP/IP interface
• Scan data storage on internal 240 gigabyte SSD memory

VUX-1UAV Lidar Sensor Main Applications

• Agriculture and forestry
• Archaeology and cultural heritage documentation
• Corridor Mapping: power line, railway track and pipeline inspection
• Topography in Open-Cast mining
• Construction-site monitoring
• Surveying of urban environments
• Resource management
  

Routescene – UAV LidarPod

The Routescene UAV LidarPod is a complete turnkey system developed specifically for use on UAVs.  This company worked with the surveying industry and it’s their expertise which is behind the Routescene UAV LidarPod.

Routescene designed a reliable, practical and cost-effective solution for lidar applications. The UAV LidarPod is a robustly engineered and self contained system. It is simple to operate and enables rapid deployment in the field. The turnkey solution includes LidarViewer which is the specialized software to handle the resulting data.

The LidarPod sensor combines the best technology on the market to capture survey grade positional accuracy together with a very high point cloud density.

Points Per Second

The Routescene LidarPod will collect 700,000 points per second, which at an altitude of 40 meters (131 feet) and flying speed of 30 km per hour (18.64 mph) equates to 300 points per square meter. This offers a fantastic richness in the data set which greatly enhances the detail which can be collected.

LidarPod Is Very Light

The Routescene UAV LidarPod total weight is less than 2.5 kg (5.5 lbs). This low weight will enable a 20 minute flight duration, the typical time required to perform a survey, allowing coverage of 1 square km on a single set of batteries.

Quality And Level Of Resilience

The Routescene UAV LidarPod contains all you need to collect precise survey data, quality control the data in real-time and create a very dense and accurate geo-referenced point cloud.  This means everything you need is built into the system including the lidar sensor, GPS / INS, radio telemetry, data storage and power management. No external components are necessary which eliminates the possibility of integration issues and loose connectors.

The internal firmware controls the sensors, parses the raw data and transmits data samples to the Routescene Ground Station; it also manages and monitors power consumption of the LidarPod.

The LidarPod uses the Velodyne HDL-32e lidar sensor mentioned above which delivers unsurpassed image resolution. Highlights of the Velodyne HDL-32e within the LidarPod;

• 32 laser sensors / detector pairs
• Class 1 eye safe
• 905 nm wavelength
• Time of flight distance measurement with intensity
• 700,000 3D points per second

• Maximum Range: 100 meters with range accuracy of < 20 mm
• Field of View: 360 degree vertical and 41 degree horizontal
• Angular resolution (vertical): 1.33 degrees
• Shock: 500 m/sec2 amplitude, 11 msec duration
• Environmental Protection: IP67

Processing Lidar Data

Routescene have developed specialized software called LidarViewer, which enables you to easily import, visualize, and apply filters to the large volume of data you collect in a smart way, enabling the use of GIS and CAD packages thereafter.

LidarPod GPS \ INS

A state of the art integrated Real-Time Kinematic (RTK) GPS and Inertial Navigation System (INS) provides accurate position, velocity, acceleration and orientation under the most demanding conditions. The dual antenna moving baseline Real Time Kinetmatic (RTK) GNSS solution ensures that the LidarPod can achieve the highest accuracy possible for the lowest weight.

The GPS\INS sensor combines temperature calibrated accelerometers, gyroscopes, magnetometers and a pressure sensor with a multi channel RTK GNSS receiver. These are coupled in a sophisticated fusion algorithm to deliver accurate and reliable navigation and orientation.

Triple-frequency GNSS receiver that provides up to 1 cm accuracy positioning and supports all of the current and future satellite navigation systems, including GPS, GLONASS, GALILEO (European Satellite Navigation System) and BeiDou (Chines Satellite Navigation System). It also supports the Omnistar service for hassle free high accuracy positioning.

YellowScan – 3 UAV Lidar Sensors

YellowScan design and develop ultra compact and lightweight lidar 3D laser mapping and aerial remote sensing solutions for drone deployment in industrial & scientific applications.

YellowScan have their own software called “LiveStation” which enables you to monitor in real-time the validity and quality of the data being collected by the YellowScan LiDAR sensors to ensure the survey is going smoothly

Benefit of YellowScan UAV Lidar Sensors

• Scanning Vegetation & Crops: YellowScan’s technology is one of the few to get true distance to vegetation in near real-time. Scan fast growing vegetation  and crops as frequently as needed.
• Optimized Maintenance Operations: Quick, light and easy to mobilize, the whole system (UAV+Lidar) can be carried in car trunk or airplane luggage: ideal for quickly surveying limited sections of the network which has not or can’t  been scanned with large airborne lidar (sections missed, hard-to-access areas, fast growing vegetation sections).
• Security:  YellowScan UAV mapping allows for quick and complete acquisition while eliminating manned airborne or on the ground logistics.

The Yellow Scan Lidar Solutions are aimed towards;

• Small areas (less than 10 square km  or 100 km linear)
• Need to penetrate vegetation
• Hard-to-access zones
• Data needed in near real-time / frequently / regularly
• Accuracy range of 5-50 cm

YellowScan Vx Long Range Lidar Sensor

The Vx is an excellent solution for high flight UAV projects with short-time data processing needs. It is ideal for use in the following sectors;

• Forestry
• Civil engineering
• General topography
• Corridor mapping
• Agriculture
• Mining

The YellowScan Vx Benefits & Specifications

• High range for higher security on uneven landscapes and vegetation
• Survey grade precision and accuracy
• Robust and reliable
• Turn-key and simple to operate
• Fully autonomous, can be mounted quickly on any drone
• Precision : 1 cm
• Accuracy : 2.5 – 5 cm depending on IMU
• Laser scanner frequency : 100 kHz
• Weight : 2.5 – 3 kg battery included (5.5 – 6.6 lbs) depending on IMU
• Power Consumption : 25 Watt
• Autonomy : 1.5 hours
• Size (mm) : L330 x W120 x H150

YellowScan Mapper 2 Drone Lidar Sensor

The YellowScan Mapper lidar sensor is a lightweight turn key surveying solution for drones and other ultra-light aircraft. It’s a small size and ultra-light weight allow it to be mounted on most UAVs.

Yellow Scan Mapper Applications

• Corridor mapping
• Environment works
• Archaeology
• Forestry

Yellow Scan Mapper Lidar Sensor Benefits

• Tested and operated by professionals world wide in various scenarios
• Robust and reliable
• Turn-key and simple to operate
• Open architecture with inter-operable software: fits many applications from research to industrial mapping
• Fully autonomous and can be mounted quickly on any drone

Yellow Scan Mapper Specifications

• Precision: 10 cm
• Absolute accuracy: 15 cm
• Laser scanner frequency: 40 kHz
• Weight: 2.1 kg battery included
• Power consumption: 10 watts
• Autonomy: 2 hours typical
• Size (mm): L172 x W206 x H147

YellowScan Mapper Lidar System Includes

• High-end Attitude and Heading Reference System (AHRS) allowing precision measurement of the attitude
• Dual-frequency GNSS receiver, capable of operating in RTK or PPK positioning mode
• Multi-echo laser scanner
• On-board computer for continuous data acquisition and processing
• Battery (up to 2 hours of autonomy)
• Worldwide technical and operational support

YellowScan Surveyor UAV Lidar Sensor

The YellowScan Surveyor is one of the lightest and most accurate lidar sensor solutions for Civil Engineering & Mining professionals.  This YellowScan Lidar UAV surveying solution  has the highest level of accuracy and density which is also capable of producing real-time geo-referenced point cloud data.

YellowScan Surveyor is a fully integrated system designed for the most demanding of terrains. The YellowScan Surveyor is quick and easily adapted to any drone.

Now, the YellowScan Surveyor does not replace the YellowScan Mapper mentioned above, but complements the YellowScan Mapper with a solution ideally suited for precise topography and demanding requirements for civil engineering and mining applications.

Yellow Scan Mapper Lidar Benefits

• Designed by surveyors for surveyors
• Robust and reliable
• Turnkey, quick and simple to operate
• Fully autonomous and can be quickly mounted on any drone
• Sub-scale decimetric accuracy for highest density level data in demanding survey applications

YellowScan Mapper Lidar Specifications

• Precision: 4 cm
• Absolute accuracy: 5 cm
• Laser scanner frequency: 300 kHz
• Weight: 1.6 kg (3.5 lbs) battery included
• Power consumption: 15 watts
• Autonomy: 2 hours typical
• Size (mm): 100 x 150 x 140

Leica Geosystems Lidar Sensors

Leica Geosystems are renowned for the Imaging and Lidar sensors.   Their Lidar systems offer high accuracy due to their best-in-class performance in pulse and scan rate.

While they have multispectral and imaging sensors which are mounted on UAVs, their Airborne lidar sensors are large and heavy. Leica have 1 airborne lidar sensor which is too heavy for small UAVs.  Their large and heavy lidar sensors for manned aircraft is the Leica SPL100 Single Photo lidar sensor which weighs in at 183.3 lbs (84 kg).

The Leica SPL100 is the single photon LiDAR airborne sensor ideal for large area terrain mapping projects. This system, which is accompanied by an 80 MP RGBN camera, captures 6 million measurements per second and delivers reliable results during day or night, leaf-on or leaf-off conditions and in dense vegetation.

The SPL100 allows you to create the highest density point clouds by collecting 12 – 30 points per sqm (depending on flying height) and penetrate semi-porous obscurations, such as:

• Vegetation
• Ground fog
• Thin clouds.

The information collected with the SPL100 single photon LiDAR is specifically useful for applications that require high point density over large areas, such as:

• Country and state wide mapping
• Disaster risk planning
• Emergency management
• Forest inventory
• Flood mapping
• Control of soil erosion.

Leica SPL100 single photon LiDAR is part of Leica RealTerrain, the latest airborne reality capture solution by Leica Geosystems, combining innovative sensor technology with the intuitive, high-performance, multisensor, processing workflow HxMap.

Highest efficiency
The single photon LiDAR sensor reaches the highest efficiency for large area mapping and acquires data at the lowest cost per data point. Collecting 6 million points per second using 100 output beams makes the SPL100 10 times more efficient than any conventional LiDAR sensor.Fastest processing

The SPL100 runs with the high-performance multisensor LiDAR and imaging post-processing workflow HxMap. This software:

• Features the highest data throughput
• Eliminates the limitations of single workstation processing
• Accelerates data delivery
• Reduces training costs.

Combining the SPL100 and HxMap, Leica RealTerrain offers the technical foundation for even the largest LiDAR mapping projects. In an increasingly connected world where interactions occur beyond borders, it is important to base decisions on reliable and inclusive information that is not being looked at in isolation. The success of making informed decisions starts with the provision of readily available terrain and elevation data. Hence, this is the sensor that seamlessly captures and visualises large terrain areas and ecosystems

Geodetics – Drone Lidar Sensors

Geodetics was founded in 1999 by a team of scientists with the goal of providing precise positioning technologies in the civilian market.

Since that time, Geodetics has grown into a product and integrated solution provider for Positioning, Navigation and Timing systems for a wide range of civilian and defense applications.

Their products and systems have been deployed in mission critical applications including Aerial Refueling, Aerial Combat Training, Intelligence, Surveillance and Reconnaissance, UAVs, Aerostats and Dismounted Soldier tracking.

Geo-MMS SAASM Drone Lidar Sensor

The Geodetics Geo-MMS SAASM is a fully integrated lidar mapping payload for integration with small unmanned vehicles. The Geo-MMS system includes an inertial navigation system, utilizing a SAASM GPS sensor with a path to M-Code, coupled with a lidar sensor.

Raw data from the integrated GPS, IMU and lidar sensors are recorded on the internal data recording device and can be post-processed using Geodetics’ lidar tool software package to directly geo-reference the lidar point clouds.

Geo-MMS SAASM Specifications

• Flexible mounting for different platforms including UAV, UAS, ground vehicles and robots
• Minimized sensor size and weight to meet payload restrictions (5 lbs minimum payload)
• Available with a many IMU’s to support a wide range of application requirement
• Centimeter-level position accuracy (dual-frequency RTK configuration)
• On-board data logging of all sensor and navigation solution data
• User interface to fully control individual and collective GPS, IMU, Laser setting
• Full post-processing support for GPS/IMU/LiDAR with RTD-Post and CYO
• LAS file output

Geo-MMS SAASM Lidar Applications

• Intelligence, Surveillance and Reconnaissance (ISR)
• Situational Awareness
• Sense and avoid
• Asset management
• Coastal surveillance
• Hydrometric mapping
• Critical Oil & Gas infrastructure inspection
• DEM/DSM generation
• Indoor mapping capable (SLAM)

Geo-MMS Drone Lidar Mobile Mapping System

The Geodetics Geo-MMS is a fully integrated lidar mapping payload for integration with small unmanned vehicles. The Geo-MMS includes an inertial navigation system coupled with a lidar sensor. Raw data from the integrated GPS, IMU and lidar sensors are recorded on the internal data recording device.

They can then be post-processed using Geodetics’ lidar tool software package to directly geo-reference the Lidar point clouds with LAS format output. Geo-MMS is available with a wide range of sensors.

Geo-MMS Specifications

• Flexible mounting for different platforms including UAV, UAS, ground vehicles and robots
• Minimized sensor size and weight to meet payload restrictions (5 lbs minimum payload)
• Available with a many IMU’s to support a wide range of application requirement
• Centimeter level position accuracy (dual-frequency RTK configuration)
• On-board data logging of all raw and navigation solution data
• User interface to fully control individual and collective GPS, IMU, Laser setting
• Full post-processing support with GPS/IMU Geo post-processing
• LAS file output

Geo-MMS Lidar Applications

• Intelligence, Surveillance and Reconnaissance (ISR)
• Situational Awareness
• Sense and avoid
• Asset management
• Coastal surveillance
• Hydrometric mapping
• Critical Oil & Gas infrastructure inspection
• DEM/DSM generation
• Indoor mapping capable (SLAM)