Measuring Canopy Geometric Structure Using Optical Sensors Mounted on Terrestrial Vehicles: A Case Study in Vineyards

dc.contributor.author Daniel Queirós Silva en
dc.contributor.author André Silva Aguiar en
dc.contributor.author Filipe Neves Santos en
dc.contributor.author Armando Sousa en
dc.contributor.author Rabino,D en
dc.contributor.author Biddoccu,M en
dc.contributor.author Bagagiolo,G en
dc.contributor.author Delmastro,M en
dc.contributor.other 5552 en
dc.contributor.other 7844 en
dc.contributor.other 8276 en
dc.contributor.other 5152 en
dc.date.accessioned 2023-05-04T09:39:21Z
dc.date.available 2023-05-04T09:39:21Z
dc.date.issued 2021 en
dc.description.abstract <jats:p>Smart and precision agriculture concepts require that the farmer measures all relevant variables in a continuous way and processes this information in order to build better prescription maps and to predict crop yield. These maps feed machinery with variable rate technology to apply the correct amount of products in the right time and place, to improve farm profitability. One of the most relevant information to estimate the farm yield is the Leaf Area Index. Traditionally, this index can be obtained from manual measurements or from aerial imagery: the former is time consuming and the latter requires the use of drones or aerial services. This work presents an optical sensing-based hardware module that can be attached to existing autonomous or guided terrestrial vehicles. During the normal operation, the module collects periodic geo-referenced monocular images and laser data. With that data a suggested processing pipeline, based on open-source software and composed by Structure from Motion, Multi-View Stereo and point cloud registration stages, can extract Leaf Area Index and other crop-related features. Additionally, in this work, a benchmark of software tools is made. The hardware module and pipeline were validated considering real data acquired in two vineyards—Portugal and Italy. A dataset with sensory data collected by the module was made publicly available. Results demonstrated that: the system provides reliable and precise data on the surrounding environment and the pipeline is capable of computing volume and occupancy area from the acquired data.</jats:p> en
dc.identifier P-00T-J9Y en
dc.identifier.uri http://dx.doi.org/10.3390/agriculture11030208 en
dc.identifier.uri https://repositorio.inesctec.pt/handle/123456789/13715
dc.language eng en
dc.rights info:eu-repo/semantics/openAccess en
dc.title Measuring Canopy Geometric Structure Using Optical Sensors Mounted on Terrestrial Vehicles: A Case Study in Vineyards en
dc.type en
dc.type Publication en
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