Creating a Field-Wide Forage Canopy Model Using UAVs and Photogrammetry Processing

Alfalfa canopy structure reveals useful information for managing this forage crop, but manual measurements are impractical at field-scale. Photogrammetry processing with images from Unmanned Aerial Vehicles (UAVs) can create a field-wide three-dimensional model of the crop canopy. The goal of this study was to determine the appropriate flight parameters for the UAV that would enable reliable generation of canopy models at all stages of alfalfa growth. Flights were conducted over two separate fields on four different dates using three different flight parameters. This provided a total of 24 flights. The flight parameters considered were the following: 30 m altitude with 90 degrees camera gimbal angle, 50 m altitude with 90 degrees camera gimbal angle, and 50 m altitude with 75 degrees camera gimbal angle. A total of 32 three-dimensional canopy models were created using photogrammetry. Images from each of the 24 flights were used to create 24 separate models and images from multiple flights were combined to create an additional eight models. The models were analyzed based on Model Ground Sampling Distance (GSD), Model Root Mean Square Error (RMSE), and camera calibration difference. Of the 32 attempted models, 30 or 94% were judged acceptable. The models were then used to estimate alfalfa yield and the best yield estimates occurred with flights at a 50 m altitude with a 75 degrees camera gimbal angle; therefore, these flight parameters are suggested for the most consistent results.

Automated summary

This study explored the appropriate flight parameters for Unmanned Aerial Vehicles (UAVs) to generate reliable canopy models for alfalfa growth stages. Out of 32 attempted models from 24 flights, 30 models were considered acceptable, with yield estimates being most accurate at a 50 m altitude with a 75 degrees camera gimbal angle. By using photogrammetry processing with UAV images, a consistent method for estimating alfalfa yield was identified.