Soil compaction
Effects of different land use systems on soil physical and biological functions as well as development and advancement of a sensor system for decision support in practice
UAV based spatial analysis
Spatial recording and quantification of the effects of field traffic-related soil compaction on plant development, plant growth, and biomass production using a UAV with a multispectral sensor system
Adaptive semantic assistance system
Adaptive semantic assistance system for field use with several cooperative machines and integration of a geometric 3D environment representation
Acceptance and implemetation
Evaluation of the profitability of different management options and proposed measures as well as estimation and increase of their acceptance
Sustainable soil management
Development of innovative approaches and strategies for sustainable agricultural land management and the measure "greened headlands" as a new headland management strategy
Combination of different modeling approaches for the calculation and analysis of soil compaction on different spatial and temporal scales
Optimization of management strategies
The decision matrix trafficability helps in the medium to long-term planning of soil conservation measures and investments
Transdisciplinary evaluation
Transdisciplinary evaluation of soil compaction by the socio-economic and natural science oriented project partners
On-board assistance system
Collaborative further development of the on-board assistance system for practical application as a result of a consolidation of all project results
Fotos: Maike Siekmann - Thünen-Institut, Fritjof Busche - CAU, Thomas Wiemann - UOS, Edgars Sermulis -, Marco Lorenz - Thünen-Institut, Michael Kuhwald - CAU, Nele Gnutzmann - Thünen-Institut, Santiago Focke-Matínez - DFKI