Need to model fine details, texture and all sides of a structure, building, city block or neighborhood in 3D?
mdMapper3000DµoG 3D aaS is a fully integrated drone mapping system that can be used for high wall mapping and 3D modeling.
It fills a niche where traditional manned aircraft 3D mapping can’t get close enough to the subject to get the exacting detail that you demand.
You will capture all angles and surfaces of your subject with an array of five cameras, seamlessly working together, and integrated into the processing workflow, all backed with the power of dual IMU direct georeferencing.
This system gives you everything you need to Plan, Fly, Process and Visualize your architecture, remodeling, maintenance, mining and construction projects. The power and efficiency of the Microdrones md4-3000 aircraft is perfectly integrated with dual IMUS, direct georeferencing an incredibly powerful array of five cameras, as well as mdInfinity data processing modules, workflow, training and support.
Why Choose mdMapper3000DμoG 3D aaS?
Five sensors capture data from multiple angles, to ensure high quality artifact-free imaging.
From the real world to your laptop, you’ll see 3D models showing all angles, roofs and sides of buildings, as well as the detailed texture of all surfaces.
Your job will be quicker and easier when post processing data from five sensors.
You will capture all angles and surfaces of your subject with an integrated array of five cameras, seamlessly working together, and integrated into the processing workflow, all backed with the power of dual IMU direct georeferencing.
You will collect a massive amount of photogrammetry data and the software does the hard work for you.
As you can imagine, with five cameras collecting thousands of images during each flight, post processing could be a challenge. But with the fully integrated, smart workflow of mdInfinity, the job of producing a complete data set that is georeferenced, geotagged and ready for importation into popular photogrammetry software is easy.
Ready To Upgrade When You Are.
When you are ready to upgrade to VHR or LiDAR, This system is ready to grow with you, and become a mdMapper3000 VHR aaS or a mdLiDAR3000 aaS system by purchasing the payload(s) and related firmware and software selections.
Fly in harsh weather conditions and stay on schedule.
Strong winds, rain, and snow won’t stop the md4-3000.
Quickly Aquire Highly Dense And Accurate Data.
mdMapper3000DµoG 3D aaS features five integrated high resolution cameras and dual IMUs.
THE mdMAPPER3000DµoG 3D aaS PACKAGE INCLUDES:
SURVEY EQUIPMENT
PLATFORM
COMMUNICATIONS
PAYLOAD
SURVEY EQUIPMENT SOFTWARE
Data Processing Modules
mdInfinity is a powerful ecosystem that will enable you to quickly and efficiently process geospatial data, with convenient payment options.
mdInfinity is available in online and desktop versions.
***IMPORTANT NOTE TO CUSTOMERS WITH LEGACY SYSTEMS***
Microdrones is committed to constant, customer focused improvement. As such we are developing cutting edge, integrated technology that evolves rapidly.
For those of you with an older system, we are always eager to help you upgrade your previous Microdrones system to the latest standards so you can take advantage of new features and functionality.
Simply click this button to schedule a meeting with a member of our sales team, and they will assist you in collecting your current system information so they can prepare a price estimate to upgrade.
mdMAPPER3000DµoG 3D aaS technical specs:
SOLUTION COMPONENTS:
Platform
md4-3000
Payload
- Camera: 5 (Sony APS-C Sensor)
- Georeferencing: APX-15 EI UAV
Software
- mdCockpit
- mdInfinity
TECHNICAL SPECIFICATIONS:
Solution Take off Weight (TOW):
12723 grams
System Operation Temperature:
-10° C up to 40 °C
mdMapper3000DμoG 3D aaS | ||
---|---|---|
Flight Parameters | Area Covered (@120 m) (1) | 200 ac (80 ha) |
Camera model (2) | 5 (Sony APS-C Sensor) | |
Imagery format | RAW + JPEG | |
Resolution | 120 MP Combined | |
Field of View | 130° Symetrical | |
G.S.D. cm/pixel (@120 m) | 1.7 | |
G.C.P. | No | |
Overlaps (front/side) | 80% / 40% | |
Post-Processing | Method | Optimized aerial triangulation using GNSS-Inertial solution |
Orientation | High precision Sensor (INS) | |
Position | High precision Sensor (GNSS) | |
Accuracy | 1 – 2 GSD (X,Y) and 2 – 4 GSD (Z) | |
Advantages |
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(1) Note: Actual project completion times may vary based on desired surface coverage, altitude own, drone speed, desired mapping accuracy, and post processing methods.
(2) The current camera models are listed. These may be replaced by equivalent or better cameras depending on availability from the manufacturer.