FieldPlant Computer Vision Project

bleh

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Classes (30)
Cassava_Bacterial_Disease
Cassava_Brown_Leaf_Spot
Cassava_Healthy
Cassava_Mosaic
Cassava_Root_Rot
Corn Healthy
Corn Smut
Corn Streak
Corn_Blight
Corn_Brown_Spots
Corn_Cercosporiose
Corn_Chlorotic_Leaf_Spot
Corn_Healthy
Corn_Insects_Damages
Corn_Mildiou
Corn_Purple_Discoloration
Corn_Rust
Corn_Smut
Corn_Streak
Corn_Stripe
Corn_Violet_Decoloration
Corn_Yellow_Spots
Corn_Yellowing
Manioc_Mosaique
Tomato_Brown_Spots
Tomato_Leaf_Curling
Tomato_Mildiou
Tomato_Mosaic
Tomato_bacterial_wilt
Tomato_healthy
Description

Overview

The Food and Agriculture Organization of the United Nations suggests increasing the food supply by 70% to feed the world population by 2050, although approximately one third of all food is wasted because of plant diseases or disorders. To achieve this goal, researchers have proposed many deep learning models to help farmers detect diseases in their crops as efficiently as possible to avoid yield declines. These models are usually trained on personal or public plant disease datasets such as PlantVillage or PlantDoc. PlantVillage is composed of laboratory images captured under laboratory conditions, with one leaf each and a uniform background. The models trained on this dataset have very low accuracies when running on field images with complex backgrounds and multiple leaves per image. To solve this problem, PlantDoc was built using 2,569 field images downloaded from the Internet and annotated to identify the individual leaves. However, this dataset includes some laboratory images and the absence of plant pathologists during the annotation process may have resulted in misclassification. In this study, FieldPlant is suggested as a dataset that includes 5,170 plant disease images collected directly from plantations. Manual annotation of individual leaves on each image was performed under the supervision of plant pathologists to ensure process quality. This resulted in 8,629 individual annotated leaves across the 27 disease classes. We ran various benchmarks on this dataset to evaluate state-of-the-art classification and object detection models and found that classification tasks on FieldPlant outperformed those on PlantDoc.

Cite this research:

@article{moupojou2023fieldplant, title={FieldPlant: A Dataset of Field Plant Images for Plant Disease Detection and Classification With Deep Learning}, author={Moupojou, Emmanuel and Tagne, Appolinaire and Retraint, Florent and Tadonkemwa, Anicet and Wilfried, Dongmo and Tapamo, Hyppolite and Nkenlifack, Marcellin}, journal={IEEE Access}, volume={11}, pages={35398--35410}, year={2023}, publisher={IEEE} }

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Cite This Project

LICENSE
CC BY 4.0

If you use this dataset in a research paper, please cite it using the following BibTeX:

                        @misc{
                            fieldplant-rdnvq_dataset,
                            title = { FieldPlant Dataset },
                            type = { Open Source Dataset },
                            author = { bleh },
                            howpublished = { \url{ https://universe.roboflow.com/bleh-kssi2/fieldplant-rdnvq } },
                            url = { https://universe.roboflow.com/bleh-kssi2/fieldplant-rdnvq },
                            journal = { Roboflow Universe },
                            publisher = { Roboflow },
                            year = { 2024 },
                            month = { oct },
                            note = { visited on 2024-12-03 },
                            }
                        
                    

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