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true Explore the Caltech-256 dataset, featuring 30,000 images across 257 categories, ideal for training and testing object recognition algorithms. Caltech-256 dataset, object classification, image dataset, machine learning, computer vision, deep learning, YOLO, training dataset

Caltech-256 Dataset

The Caltech-256 dataset is an extensive collection of images used for object classification tasks. It contains around 30,000 images divided into 257 categories (256 object categories and 1 background category). The images are carefully curated and annotated to provide a challenging and diverse benchmark for object recognition algorithms.



Watch: How to Train Image Classification Model using Caltech-256 Dataset with Ultralytics HUB

Key Features

  • The Caltech-256 dataset comprises around 30,000 color images divided into 257 categories.
  • Each category contains a minimum of 80 images.
  • The categories encompass a wide variety of real-world objects, including animals, vehicles, household items, and people.
  • Images are of variable sizes and resolutions.
  • Caltech-256 is widely used for training and testing in the field of machine learning, particularly for object recognition tasks.

Dataset Structure

Like Caltech-101, the Caltech-256 dataset does not have a formal split between training and testing sets. Users typically create their own splits according to their specific needs. A common practice is to use a random subset of images for training and the remaining images for testing.

Applications

The Caltech-256 dataset is extensively used for training and evaluating deep learning models in object recognition tasks, such as Convolutional Neural Networks (CNNs), Support Vector Machines (SVMs), and various other machine learning algorithms. Its diverse set of categories and high-quality images make it an invaluable dataset for research and development in the field of machine learning and computer vision.

Usage

To train a YOLO model on the Caltech-256 dataset for 100 epochs, you can use the following code snippets. For a comprehensive list of available arguments, refer to the model Training page.

!!! example "Train Example"

=== "Python"

    ```python
    from ultralytics import YOLO

    # Load a model
    model = YOLO("yolo11n-cls.pt")  # load a pretrained model (recommended for training)

    # Train the model
    results = model.train(data="caltech256", epochs=100, imgsz=416)
    ```

=== "CLI"

    ```bash
    # Start training from a pretrained *.pt model
    yolo classify train data=caltech256 model=yolo11n-cls.pt epochs=100 imgsz=416
    ```

Sample Images and Annotations

The Caltech-256 dataset contains high-quality color images of various objects, providing a comprehensive dataset for object recognition tasks. Here are some examples of images from the dataset (credit):

Dataset sample image

The example showcases the diversity and complexity of the objects in the Caltech-256 dataset, emphasizing the importance of a varied dataset for training robust object recognition models.

Citations and Acknowledgments

If you use the Caltech-256 dataset in your research or development work, please cite the following paper:

!!! quote ""

=== "BibTeX"

    ```bibtex
    @article{griffin2007caltech,
             title={Caltech-256 object category dataset},
             author={Griffin, Gregory and Holub, Alex and Perona, Pietro},
             year={2007}
    }
    ```

We would like to acknowledge Gregory Griffin, Alex Holub, and Pietro Perona for creating and maintaining the Caltech-256 dataset as a valuable resource for the machine learning and computer vision research community. For more information about the

Caltech-256 dataset and its creators, visit the Caltech-256 dataset website.

FAQ

What is the Caltech-256 dataset and why is it important for machine learning?

The Caltech-256 dataset is a large image dataset used primarily for object classification tasks in machine learning and computer vision. It consists of around 30,000 color images divided into 257 categories, covering a wide range of real-world objects. The dataset's diverse and high-quality images make it an excellent benchmark for evaluating object recognition algorithms, which is crucial for developing robust machine learning models.

How can I train a YOLO model on the Caltech-256 dataset using Python or CLI?

To train a YOLO model on the Caltech-256 dataset for 100 epochs, you can use the following code snippets. Refer to the model Training page for additional options.

!!! example "Train Example"

=== "Python"

    ```python
    from ultralytics import YOLO

    # Load a model
    model = YOLO("yolo11n-cls.pt")  # load a pretrained model

    # Train the model
    results = model.train(data="caltech256", epochs=100, imgsz=416)
    ```

=== "CLI"

    ```bash
    # Start training from a pretrained *.pt model
    yolo classify train data=caltech256 model=yolo11n-cls.pt epochs=100 imgsz=416
    ```

What are the most common use cases for the Caltech-256 dataset?

The Caltech-256 dataset is widely used for various object recognition tasks such as:

Its diversity and comprehensive annotations make it ideal for research and development in machine learning and computer vision.

How is the Caltech-256 dataset structured and split for training and testing?

The Caltech-256 dataset does not come with a predefined split for training and testing. Users typically create their own splits according to their specific needs. A common approach is to randomly select a subset of images for training and use the remaining images for testing. This flexibility allows users to tailor the dataset to their specific project requirements and experimental setups.

Why should I use Ultralytics YOLO for training models on the Caltech-256 dataset?

Ultralytics YOLO models offer several advantages for training on the Caltech-256 dataset:

  • High Accuracy: YOLO models are known for their state-of-the-art performance in object detection tasks.
  • Speed: They provide real-time inference capabilities, making them suitable for applications requiring quick predictions.
  • Ease of Use: With Ultralytics HUB, users can train, validate, and deploy models without extensive coding.
  • Pretrained Models: Starting from pretrained models, like yolo11n-cls.pt, can significantly reduce training time and improve model accuracy.

For more details, explore our comprehensive training guide.