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  1. Scientific Objectives and Experimental Design
  2. Protocols

UAV Protocols

PreviousTemplate ProtocolNextExperimental Design

Last updated 7 years ago

Authors: Rick Ward

Abstract

Materials

Platforms

  • SenseFly eBee fixed-wing drone

  • Hexacopter

Cameras

UAV data are collected using one of three cameras:

  • 5-band

  • 4-band + RGB

  • SenseFly thermal

Cameras are carried singly or in tandem on the SenseFly eBee fixed-wing drone (Sequoia and thermoMap, individually only), or a hexacopter (RedEdge or Sequoia, individually or in tandem).

Procedure

Flight

Calibration

No radiometric calibration was conducted as of Nov 5, 2016.

Analysis

QGIS software was used to confirm geospatial alignment of NDVI geotiffs with shape files containing geolocated positions of the rail foundations. A shape file containing polygons aligning with the middle two rows of each of the 350 experimental units (for sorghum crop Aug-Nov 2016) was kindly generated by Dr. A French of USDA-ARS. Zonal Statistics in QGIS was used to calculate NDVI means for each plot polygon.

References

Standard flight altitude is 44m with 75% image overlap (both sequentially and laterally), and missions are programmed and managed by either or senseFly .

Pix4D software was used to generate gray-scale orthomosaic geotiff files containing NDVI data after georegistration to the WGS84/UTM 12 N coordinate reference system using three to five 2D geo-located ground control points. These are manually matched to 5-40 images each. Ground control points for the Lemnatec Field Scanner are on the concrete pylons and were geolocated using an RTK base station maintained by the USDA-ARS at Maricopa (see section on ).

MicaSense:

SenseFly

QGIS

MicaSense RedEdge
Parrot Sequoia
thermoMap
Mission Planner
eMotion
geospatial information
https://www.micasense.com
https://www.sensefly.com
https://www.qgis.org