Cover More Ground In One Flight, Use Fewer People And Less Equipment On Your Projects

Powerful Aircraft, Double The Direct Georeferencing


With mdMapper3000DµoG, you'll acquire highly dense and accurate data in half the time.

Meet the most precise data requirements and cover more ground in one flight. mdMapper3000DµoG will help you deliver unparalleled data quality in less time you’ll achieve the highest level of data accuracy currently possible, cover more ground in one flight, use fewer people and less equipment on jobs – all without using ground control points.

Why Choose mdMapper3000DμoG?

This package is all about resilience, convenience, and all-around performance. The md4-3000 UAV can stand up to intense environmental challenges, from strong winds and magnetic fields to high temperatures and voltage. It also boasts the longest flight times on the market.


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 or a mdLiDAR3000 system by purchasing the payload(s) and related firmware and software subscriptions. 


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 features a fully integrated 42.4 megapixel Sony RX1R II camera to capture the images you need.

What Can You Do with it?

mdMAPPER3000DµoG is a versatile package that can be used for a wide range of applications. 
Some of the most common uses are:

Mapping mission of an agricultural field using a Microdrones md4-1000 UAV
Area Mapping / Surveying
Architect inspecting a construction site with the help of a Microdrones UAV
Construction
Surveyors in the field performing a mapping mission using a md4-1000 UAV
Mining
Orthophoto of a sawdust pile done with a Microdrones mdMapper integrated system, used for volumetric calculations.
Volumetrics
Inspection mission of a gas pipeline using a Microdrones md4-1000 UAV
Inspection
Precision farming perfomed with a mdMapper integrated sytem from Microdrones
Precision Agriculture

THE mdMAPPER3000DµoG PACKAGE INCLUDES:

PLATFORM


icon md4-3000
md4-3000

Robust, powerful, stable and dependable. Build your business on this versatile platform.

LEARN MORE
icon flight battery and charger
Charger & Flight Battery

One md4-1000 flight battery and charger for maximum flight endurance.

icon rugged drone carrying case
Rugged Carrying Case

Bring your Microdrones UAV to tackle missions in the toughest corners of the Earth.

COMMUNICATIONS


icon Microdrones remote control
mdRC

Proven, professional controls and telemetry keep you in control when you need it most.

icon digital data link
Digital Data Link

Conveniently connect your Microdrones UAV to your digital devices.

PAYLOAD


Icon Camera or sensor payload attached to gimbal
Sony RX1R II & Nadir Mount

42.4 megapixel camera paired with a custom, lightweight, vibration-free, nadir mount to capture the images you need.

icon APX processor
Applanix APX-15 UAV DG

Compact single-board module with survey-grade GNSS receiver and a precisely calibrated IMU for mapping.

SOFTWARE


icon POSPAC UAV
POSPac UAV DG

Direct georeferencing post processing software – used to achieve maximum accuracy and efficiency from data collected by APX-15 UAV DG.

icon mdCockpit running on tablet
mdCockpit Tablet Software

Simple swipes of the finger help you plan your survey area and monitor progress in flight on your Android tablet.

LEARN MORE
mdInfinity Software

(Coming Soon)

mdMapper3000DµoG technical specs:

Solution Components:

Platform

md4-3000

Payload

  • Camera: RX1R II
  • Georeferencing: APX-15 EI UAV

Software

  • mdCockpit
  • POSPac UAV DG
Technical Specifications:

Solution Take off Weight (TOW):

12373 g

System Operation Temperature:

-10 °C up to 50 °C

mdMapper3000DμoG
Flight ParametersArea Covered (@120 m) (1)198 ac (80 ha)
Camera model (2)Sony RX1R II
Image formatRAW + JPEG
G.S.D. cm/pixel (@120 m)1.6 cm
G.C.P.No
Overlaps (front/side)80% / 40%
Post-Processing   MethodOptimized aerial triangulation using GNSS-Inertial solution
OrientationHigh precision sensor (INS)
PositionHigh precision sensor (GNSS)
Accuracy1 – 2 GSD (X,Y) and 2 – 4 GSD (Z)
Advantages
  • No GCP needed
  • Efficient flight planning – cover greater areas
  • Efficient post-processing (EO apriori and less images)
  • Enables corridor mapping

(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.