This project will advance the development of a camera prototype suitable for drones or Uncrewed Aerial Vehicles (UAV) to measure solar-induced chlorophyll fluorescence (SIF). SIF is energy emitted by plants that can be quantitatively detected using remote sensing methods. The signal is a direct indicator of the current state of photosynthesis in plants. The measured signal has exciting potential for use in agriculture and forestry, for example, to improve detection of stress, biomass accumulation, and yield prediction. The project objectives are: i) to optimize data acquisition parameters, including flight altitude and signal-to-noise ratio, for vegetation types of with different canopy structure e.g. leaf angle, ii) to generate an efficient data processing chain with emphasis on speed and automation, and iii) to quantify the measurement uncertainty of the system, especially with respect to its use on a UAV e.g. influences of atmospheric composition on the SIF signal. To implement the objectives, UAV flights over various vegetation types and standardized calibration surfaces will provide test data for the above objectives. The results will be summarized as standardised operating procedures, and specific steps for further technical development of the camera prototype will be discussed.

DFG Programme Priority Programmes

Subproject of SPP 2433:  Metrology on flying platforms

International Connection Switzerland

Co-Investigators Professor Dr. Zbynek Malenovsky; Dr. Omar Regaieg

Cooperation Partner Dr. Andreas Hueni