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Airbone Hyperspectral Imaging
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Product Code: ATHL9010
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application

    ATHL9010 series is the 3rd generation hyperspectral imager integrated LiDAR system. This new series feature compact and light.

    It consists of eight main parts of six-rotor UAV, high-stable cloud platform, hyperspectral imager, LiDAR, big memory storage, GPS navigation system, ground receiver station, and ground control system.

    It depends on linear LiDAR to get surface elevation, images ortho-rectification, and 3D object attitude, whose LiDAR data and spectral data are being combined to analysis open up new research way.

    ATHL9010 integrated high-precision hyperspectral imager and high-resolution LiDAR, which generates field true color point cloud, one fly can get as fast as >2 km2 point cloud data.

   From real-time measure spetral data collection to spectral images analysis, and final physicochemical properties calculation. They've widely applied to plants classification and growth assessment.


Detector
Type CMOS
Effective pixels 1920 × 1200
Range 350~1100 nm
Dynamic range 60 dB
Bit Depth 12 bit
Mode Software Binning or hardware binning(software setup)
PC I7,16G ,512GB,Max 2TB
Optosky Optical Parameters
Spectral Range 400~1000 nm (customization option )
Spectral Resolution <1.5 nm
FOV 15.2°
Smile <1/3 pixel
Keystone <1/3 pixel
Lens FL 35mm
Slit size 30μm
NA 0.19(F/2.6)
Optical bench PG imaging spectrometer
Frame Rate 270 Hz
Image Resolution 1920 × 1200
Imaging mode Push broom
Resolution Before Binning 1920(spatial-axis) × 1200(spectral-axis)
Resolution After Binning 480(spatial-axis)×300(spectral-axis)
Optosky Electrical Parameters
Power supply 12V,3W
Storage Temp. -20 ~ 65℃
Operating Temp. -10 ~ 45℃
Working humidity ≤85% RH
Interface USB3.0
Load PC Intel I7 CPU 16G
PC Hard drive 512 GB SSD,Max 2T
Optosky Visible camera
Resolution 2-mega pixels
Frame Rate 20 FPS
UAV System
Drone Luxury Six Rotor Drone customized with load hour > 45 minutes
Cloud Platform High stable Cloud platform driven by 3-Phase BLDC Motor
Rotor No. Six Rotors
Lift Take off and land vertically
Wheelbase 1500 mm
Max base 6 Kg
Max altitude 5000 m
Drone size 1650 X 1410 X 500 mm
GPS accuracy 1.5 m
Flight duration >45 minutes
Ground control distance 5 Km
Remote change imaging parameter (Y/N) No
LiDAR
Principle The LIDAR system uses the time of flight(TOF) to measure the distance
Laser 1550nm Eye-safe
Speed 500,00 points per second, max 1,000,000 points per second depends on the distance
Scan Line 1750 lines
FOV Horizontal 15°
Angular resolution Horizontal 0.009°
Scan rate 500 Hz
Elevation 1~300 m,Max 600 m
Laser return mode Multiple returns
Altitude deviation <20 mm
Weight 1.5 Kg
Software
Basic Functions Flexible to set exposure time, gain, speed, dynamic real-time images and curves
Focus adjust Dynamic real-time image obtained through precision focus adjustment can avoid human visual focusing error
Software Functions Data acquire software can real-time shows images and curves Transmission and reflectance measure mode set exposure time, speed in flexible Standard in-built Library and self-built library Others like images cut and identify spectrum

lRange: 400~1000nm

lSpectral Resolution:1.5 nm

lFOV: 23.5°@f=35mm (Lens changeable)

lIFOV0.9 mrad@f=35mm (Lens changeable)

lFlight height: 50~1000 m, recommend height 100m

lSolid state LiDAR with high reliability

lLiDAR measure range: 1~200m

lLiDAR measure height error: 20 mm

lPC Intel Core i7 with max. 2T memory reach up to 100 hours images data

l1.5m multi-wing drone with heavy-load or extendable

lLong flight time about 45 minutes, large cruise area

  • Monitor Agriculture: plant diseases and insect pest, disaster, categories ID etc
  • Forestry: Tree categories identification, Phytomass, nutrient elements, forest health etc
  • Water Environment: Water quality parameters, water waste spatial distribution and migration analysis
  • Soil pollution: heavy metal waste
  • Minerals: Mineral mapping, ingredients explore, metallogenic prognosis etc
  • City geological substances classification and identification
  • And educational research, smart agriculture, target recognition, military anti-camouflage

What is Hyperspectral Imaging Camera?

Hyperspectral imaging Camera, or imaging spectroscopy, combines the functions of imaging camera and spectroscopy. A hyperspectral camera acquires the spectrum for each pixel in an image of the scenes.

 

What does Hyperspectral Imaging Camera used for?

Hyperspectral Imaging Camera are used for applications in astronomy, agriculture, molecular biology, biomedical imaging, geosciences, physics, environment,and monitoring. Hyperspectral imaging camera takes pictures of objects spectrum with unique 'fingerprints', it enable identification of the materials. Like spectral fingerprint of oil helps geologists locate new oil fields.

 

What does Hyperspectral Imaging Camera tell you?

The hyperspectral imaging provides much more color information in details than a normal camera,which leads to differentiate from objects in the scene. Hyperspectral imaging is used to find objects, identify materials, or detect processes.  

 

How much does Hyperspectral Imaging Camera cost?

OPTOSKY manufactures hyperspectral imaging camera 400-1000nm prices range USD45,000~49,800.

 

How to choose a Hyperspectral Imaging Camera?

Compare FOV,spatial dimensions, weight,optical performance,size, and cost etc.

 

Where to buy Hyperspectral Imaging Camera?

Buy from local distributor of OPTOSKY,online shopping or inquire us.

 

Why Chosse Optosky Hyperspectral Imaging Camera?

1.Optosky F2.4, FOV is larger than that of competitors

2.Spatial dimension 14mm

3.Lightweight 1500 g, 950g, 650g

4.High optical performance

5.Compact size:300x70 x70mm;300x60x60mm;270x50x50mm

6.Low cost

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