RoWeeder: Unsupervised Weed Mapping through Crop-Row Detection
Precision agriculture relies heavily on effective weed management to ensure robust crop yields. This study presents RoWeeder, an innovative framework for unsupervised weed mapping that combines crop-row detection with a noise-resilient deep learning model. By leveraging crop-row information to creat...
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| creator | De Marinis, Pasquale Vessio, Gennaro Castellano, Giovanna |
| description | Precision agriculture relies heavily on effective weed management to ensure
robust crop yields. This study presents RoWeeder, an innovative framework for
unsupervised weed mapping that combines crop-row detection with a
noise-resilient deep learning model. By leveraging crop-row information to
create a pseudo-ground truth, our method trains a lightweight deep learning
model capable of distinguishing between crops and weeds, even in the presence
of noisy data. Evaluated on the WeedMap dataset, RoWeeder achieves an F1 score
of 75.3, outperforming several baselines. Comprehensive ablation studies
further validated the model's performance. By integrating RoWeeder with drone
technology, farmers can conduct real-time aerial surveys, enabling precise weed
management across large fields. The code is available at:
\url{https://github.com/pasqualedem/RoWeeder}. |
| doi_str_mv | 10.48550/arxiv.2410.04983 |
| format | Article |
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robust crop yields. This study presents RoWeeder, an innovative framework for
unsupervised weed mapping that combines crop-row detection with a
noise-resilient deep learning model. By leveraging crop-row information to
create a pseudo-ground truth, our method trains a lightweight deep learning
model capable of distinguishing between crops and weeds, even in the presence
of noisy data. Evaluated on the WeedMap dataset, RoWeeder achieves an F1 score
of 75.3, outperforming several baselines. Comprehensive ablation studies
further validated the model's performance. By integrating RoWeeder with drone
technology, farmers can conduct real-time aerial surveys, enabling precise weed
management across large fields. The code is available at:
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robust crop yields. This study presents RoWeeder, an innovative framework for
unsupervised weed mapping that combines crop-row detection with a
noise-resilient deep learning model. By leveraging crop-row information to
create a pseudo-ground truth, our method trains a lightweight deep learning
model capable of distinguishing between crops and weeds, even in the presence
of noisy data. Evaluated on the WeedMap dataset, RoWeeder achieves an F1 score
of 75.3, outperforming several baselines. Comprehensive ablation studies
further validated the model's performance. By integrating RoWeeder with drone
technology, farmers can conduct real-time aerial surveys, enabling precise weed
management across large fields. The code is available at:
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robust crop yields. This study presents RoWeeder, an innovative framework for
unsupervised weed mapping that combines crop-row detection with a
noise-resilient deep learning model. By leveraging crop-row information to
create a pseudo-ground truth, our method trains a lightweight deep learning
model capable of distinguishing between crops and weeds, even in the presence
of noisy data. Evaluated on the WeedMap dataset, RoWeeder achieves an F1 score
of 75.3, outperforming several baselines. Comprehensive ablation studies
further validated the model's performance. By integrating RoWeeder with drone
technology, farmers can conduct real-time aerial surveys, enabling precise weed
management across large fields. The code is available at:
\url{https://github.com/pasqualedem/RoWeeder}.</abstract><doi>10.48550/arxiv.2410.04983</doi><oa>free_for_read</oa></addata></record> |
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| title | RoWeeder: Unsupervised Weed Mapping through Crop-Row Detection |
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