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Autori principali: Weyler, Jan, Magistri, Federico, Marks, Elias, Chong, Yue Linn, Sodano, Matteo, Roggiolani, Gianmarco, Chebrolu, Nived, Stachniss, Cyrill, Behley, Jens
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2306.04557
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author Weyler, Jan
Magistri, Federico
Marks, Elias
Chong, Yue Linn
Sodano, Matteo
Roggiolani, Gianmarco
Chebrolu, Nived
Stachniss, Cyrill
Behley, Jens
author_facet Weyler, Jan
Magistri, Federico
Marks, Elias
Chong, Yue Linn
Sodano, Matteo
Roggiolani, Gianmarco
Chebrolu, Nived
Stachniss, Cyrill
Behley, Jens
contents The production of food, feed, fiber, and fuel is a key task of agriculture, which has to cope with many challenges in the upcoming decades, e.g., a higher demand, climate change, lack of workers, and the availability of arable land. Vision systems can support making better and more sustainable field management decisions, but also support the breeding of new crop varieties by allowing temporally dense and reproducible measurements. Recently, agricultural robotics got an increasing interest in the vision and robotics communities since it is a promising avenue for coping with the aforementioned lack of workers and enabling more sustainable production. While large datasets and benchmarks in other domains are readily available and enable significant progress, agricultural datasets and benchmarks are comparably rare. We present an annotated dataset and benchmarks for the semantic interpretation of real agricultural fields. Our dataset recorded with a UAV provides high-quality, pixel-wise annotations of crops and weeds, but also crop leaf instances at the same time. Furthermore, we provide benchmarks for various tasks on a hidden test set comprised of different fields: known fields covered by the training data and a completely unseen field. Our dataset, benchmarks, and code are available at \url{https://www.phenobench.org}.
format Preprint
id arxiv_https___arxiv_org_abs_2306_04557
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle PhenoBench -- A Large Dataset and Benchmarks for Semantic Image Interpretation in the Agricultural Domain
Weyler, Jan
Magistri, Federico
Marks, Elias
Chong, Yue Linn
Sodano, Matteo
Roggiolani, Gianmarco
Chebrolu, Nived
Stachniss, Cyrill
Behley, Jens
Computer Vision and Pattern Recognition
Robotics
The production of food, feed, fiber, and fuel is a key task of agriculture, which has to cope with many challenges in the upcoming decades, e.g., a higher demand, climate change, lack of workers, and the availability of arable land. Vision systems can support making better and more sustainable field management decisions, but also support the breeding of new crop varieties by allowing temporally dense and reproducible measurements. Recently, agricultural robotics got an increasing interest in the vision and robotics communities since it is a promising avenue for coping with the aforementioned lack of workers and enabling more sustainable production. While large datasets and benchmarks in other domains are readily available and enable significant progress, agricultural datasets and benchmarks are comparably rare. We present an annotated dataset and benchmarks for the semantic interpretation of real agricultural fields. Our dataset recorded with a UAV provides high-quality, pixel-wise annotations of crops and weeds, but also crop leaf instances at the same time. Furthermore, we provide benchmarks for various tasks on a hidden test set comprised of different fields: known fields covered by the training data and a completely unseen field. Our dataset, benchmarks, and code are available at \url{https://www.phenobench.org}.
title PhenoBench -- A Large Dataset and Benchmarks for Semantic Image Interpretation in the Agricultural Domain
topic Computer Vision and Pattern Recognition
Robotics
url https://arxiv.org/abs/2306.04557