Service robotics is recently enhancing precision agriculture enabling many automated processes based on efficient autonomous navigation solutions. However, data generation and infield validation campaigns hinder the progress of large-scale autonomous platforms. Simulated environments and deep visual perception are spreading as successful tools to speed up the development of robust navigation with low-cost RGB-D cameras. In this context, the contribution of this work is twofold: a synthetic dataset to train deep semantic segmentation networks together with a collection of virtual scenarios for a fast evaluation of navigation algorithms. Moreover, an automatic parametric approach is developed to explore different field geometries and features. The simulation framework and the dataset have been evaluated by training a deep segmentation network on different crops and benchmarking the resulting navigation.
56. Enhancing navigation benchmarking and perception data generation for row-based crops in simulation / Martini, M.; Eirale, A.; Tuberga, B.; Ambrosio, M.; Ostuni, A.; Messina, F.; Mazzara, L.; Chiaberge, M.. - ELETTRONICO. - (2023), pp. 451-457. (Intervento presentato al convegno 14th European Conference on Precision Agriculture tenutosi a Bologna, Italy nel 2-6 July 2023) [10.3920/978-90-8686-947-3_56].
56. Enhancing navigation benchmarking and perception data generation for row-based crops in simulation
Martini, M.;Eirale, A.;Tuberga, B.;Ambrosio, M.;Ostuni, A.;Messina, F.;Mazzara, L.;Chiaberge, M.
2023
Abstract
Service robotics is recently enhancing precision agriculture enabling many automated processes based on efficient autonomous navigation solutions. However, data generation and infield validation campaigns hinder the progress of large-scale autonomous platforms. Simulated environments and deep visual perception are spreading as successful tools to speed up the development of robust navigation with low-cost RGB-D cameras. In this context, the contribution of this work is twofold: a synthetic dataset to train deep semantic segmentation networks together with a collection of virtual scenarios for a fast evaluation of navigation algorithms. Moreover, an automatic parametric approach is developed to explore different field geometries and features. The simulation framework and the dataset have been evaluated by training a deep segmentation network on different crops and benchmarking the resulting navigation.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2979901