Assessing the Performance of RGB-D Sensors for 3D Fruit Crop Canopy Characterization under Different Operating and Lighting Conditions
Jordi Gené-Mola,
Jordi Llorens,
Joan R. Rosell-Polo,
Eduard Gregorio,
Jaume Arnó,
Francesc Solanelles,
José A. Martínez-Casasnovas,
Alexandre Escolà
Affiliations
Jordi Gené-Mola
Research Group in AgroICT & Precision Agriculture, Department of Agricultural and Forest Engineering, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
Jordi Llorens
Research Group in AgroICT & Precision Agriculture, Department of Agricultural and Forest Engineering, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
Joan R. Rosell-Polo
Research Group in AgroICT & Precision Agriculture, Department of Agricultural and Forest Engineering, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
Eduard Gregorio
Research Group in AgroICT & Precision Agriculture, Department of Agricultural and Forest Engineering, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
Jaume Arnó
Research Group in AgroICT & Precision Agriculture, Department of Agricultural and Forest Engineering, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
Francesc Solanelles
Department of Agriculture, Livestock, Fisheries and Food, Generalitat de Catalunya, Lleida, 25198 Catalunya, Spain
José A. Martínez-Casasnovas
Research Group in AgroICT & Precision Agriculture, Department of Environmental and Soil Sciences, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
Alexandre Escolà
Research Group in AgroICT & Precision Agriculture, Department of Agricultural and Forest Engineering, Universitat de Lleida (UdL)–Agrotecnio Centre, Lleida, 25198 Catalonia, Spain
The use of 3D sensors combined with appropriate data processing and analysis has provided tools to optimise agricultural management through the application of precision agriculture. The recent development of low-cost RGB-Depth cameras has presented an opportunity to introduce 3D sensors into the agricultural community. However, due to the sensitivity of these sensors to highly illuminated environments, it is necessary to know under which conditions RGB-D sensors are capable of operating. This work presents a methodology to evaluate the performance of RGB-D sensors under different lighting and distance conditions, considering both geometrical and spectral (colour and NIR) features. The methodology was applied to evaluate the performance of the Microsoft Kinect v2 sensor in an apple orchard. The results show that sensor resolution and precision decreased significantly under middle to high ambient illuminance (>2000 lx). However, this effect was minimised when measurements were conducted closer to the target. In contrast, illuminance levels below 50 lx affected the quality of colour data and may require the use of artificial lighting. The methodology was useful for characterizing sensor performance throughout the full range of ambient conditions in commercial orchards. Although Kinect v2 was originally developed for indoor conditions, it performed well under a range of outdoor conditions.
