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Nematode Detection Dataset
- Citation Author(s):
- Submitted by:
- Zhipeng Yuan
- Last updated:
- Mon, 11/04/2024 - 14:34
- DOI:
- 10.21227/rjbq-4a58
- License:
- Categories:
- Keywords:
Abstract
The Nematode Detection Dataset is a comprehensive collection of 1,368 high-quality microscope images specifically curated for the advancement of agricultural pest management through machine learning. This dataset has been meticulously assembled to aid in the detection, identification, and analysis of four key types of nematodes that are critical to global agriculture: Meloidogyne (Root-knot nematodes), Globodera pallida (Potato cyst nematodes), Pratylenchus (Root-lesion nematodes), and Ditylenchus (Stem nematodes). Furthermore, it encompasses two significant life stages of nematodes: the Cyst stage and the Juvenile 2 (J2) stage, providing a diverse range of data for model training and testing.
Dataset Composition:
Total Images: 1,368 microscope images.
Nematode Types:
Meloidogyne
Globodera pallida
Pratylenchus
Ditylenchus
Life Stages:
Cyst
J2 (Juvenile 2)
Annotation Details:
Each image in the dataset comes with object detection annotations that include the following:
Bounding Boxes: Coordinates defining the precise location of each nematode or life stage within the images. These annotations are critical for training object detection models to identify and localize nematode instances accurately.
Class Labels: A label indicating the type of nematode (Meloidogyne, Globodera pallida, Pratylenchus, Ditylenchus) and the life stage (Cyst, J2) for each bounding box. This classification enables the model to not only detect but also differentiate between the various nematode types and their life stages.
Dataset Objectives:
The primary goal of constructing this dataset is to:
Enhance Detection Accuracy: Provide a rich source of labeled data to train deep learning models, improving their accuracy in detecting and classifying nematode pests in agricultural settings.
Support Agricultural Research: Aid researchers and agronomists in studying nematode infestations, their impact on crops, and developing effective management strategies.
Promote Precision Agriculture: Facilitate the development of AI-driven tools for precision agriculture, enabling farmers to take targeted actions against nematode threats, thereby optimizing crop health and yield.
Applications:
Model Training and Testing: Ideal for developing and evaluating machine learning models focused on pest detection in agriculture.
Agricultural Research: Provides a valuable resource for studies in nematology, pest management, and the effects of nematodes on crop health.
Precision Farming Solutions: Supports the creation of AI-based applications for smart farming, offering real-time detection and analysis of nematode pests.
This dataset is formated as Yolo Dataset.
Dataset Composition:
Total Images: 1,368 microscope images.
Nematode Types:
Meloidogyne
Globodera pallida
Pratylenchus
Ditylenchus
Life Stages:
Cyst
J2 (Juvenile 2)
Annotation Details:
Each image in the dataset comes with object detection annotations that include the following:
Bounding Boxes: Coordinates defining the precise location of each nematode or life stage within the images. These annotations are critical for training object detection models to identify and localize nematode instances accurately.
Class Labels: A label indicating the type of nematode (Meloidogyne, Globodera pallida, Pratylenchus, Ditylenchus) and the life stage (Cyst, J2) for each bounding box. This classification enables the model to not only detect but also differentiate between the various nematode types and their life stages.