annotations_creators:
- machine-generated
- expert-generated
language_creators:
- machine-generated
languages:
- en
licenses:
- other
multilinguality:
- monolingual
size_categories:
- 100K<n<1M
source_datasets:
- original
task_categories:
- other
task_ids:
- other-other-object-detection
- other-other-image-classification
paperswithcode_id: svhn
pretty_name: Street View House Numbers
Dataset Card for Street View House Numbers
Table of Contents
- Table of Contents
- Dataset Description
- Dataset Structure
- Dataset Creation
- Considerations for Using the Data
- Additional Information
Dataset Description
- Homepage: http://ufldl.stanford.edu/housenumbers
- Repository:
- Paper: Reading Digits in Natural Images with Unsupervised Feature Learning
- Leaderboard: https://paperswithcode.com/sota/image-classification-on-svhn
- Point of Contact: streetviewhousenumbers@gmail.com
Dataset Summary
SVHN is a real-world image dataset for developing machine learning and object recognition algorithms with minimal requirement on data preprocessing and formatting. It can be seen as similar in flavor to MNIST (e.g., the images are of small cropped digits), but incorporates an order of magnitude more labeled data (over 600,000 digit images) and comes from a significantly harder, unsolved, real world problem (recognizing digits and numbers in natural scene images). SVHN is obtained from house numbers in Google Street View images. The dataset comes in two formats:
- Original images with character level bounding boxes.
- MNIST-like 32-by-32 images centered around a single character (many of the images do contain some distractors at the sides).
Supported Tasks and Leaderboards
object-classification
: The dataset can be used to train a model for digit detection.image-classification
: The dataset can be used to train a model for Image Classification where the task is to predict a correct digit on the image. The leaderboard for this task is available at: https://paperswithcode.com/sota/image-classification-on-svhn
Languages
English
Dataset Structure
Data Instances
full_numbers
The original, variable-resolution, color house-number images with character level bounding boxes.
{
'image': <PIL.PngImagePlugin.PngImageFile image mode=RGB size=98x48 at 0x259E3F01780>,
'digits': {
'bbox': [
[36, 7, 13, 32],
[50, 7, 12, 32]
],
'label': [6, 9]
}
}
cropped_digits
Character level ground truth in an MNIST-like format. All digits have been resized to a fixed resolution of 32-by-32 pixels. The original character bounding boxes are extended in the appropriate dimension to become square windows, so that resizing them to 32-by-32 pixels does not introduce aspect ratio distortions. Nevertheless this preprocessing introduces some distracting digits to the sides of the digit of interest.
{
'image': <PIL.PngImagePlugin.PngImageFile image mode=RGB size=32x32 at 0x25A89494780>,
'label': 1
}
Data Fields
full_numbers
image
: APIL.Image.Image
object containing the image. Note that when accessing the image column:dataset[0]["image"]
the image file is automatically decoded. Decoding of a large number of image files might take a significant amount of time. Thus it is important to first query the sample index before the"image"
column, i.e.dataset[0]["image"]
should always be preferred overdataset["image"][0]
digits
: a dictionary containing digits' bounding boxes and labelsbbox
: a list of bounding boxes (in the coco format) corresponding to the digits present on the imagelabel
: a list of integers between 0 and 9 representing the digit.
cropped_digits
image
: APIL.Image.Image
object containing the image. Note that when accessing the image column:dataset[0]["image"]
the image file is automatically decoded. Decoding of a large number of image files might take a significant amount of time. Thus it is important to first query the sample index before the"image"
column, i.e.dataset[0]["image"]
should always be preferred overdataset["image"][0]
digit
: an integer between 0 and 9 representing the digit.
Data Splits
full_numbers
The data is split into training, test and extra set. The training set contains 33402 images, test set 13068 and the extra set 202353 images.
cropped_digits
The data is split into training, test and extra set. The training set contains 73257 images, test set 26032 and the extra set 531131 images.
The extra set can be used as extra training data. The extra set was obtained in a similar manner to the training and test set, but with the increased detection threshold in order to generate this large amount of labeled data. The SVHN extra subset is thus somewhat biased toward less difficult detections, and is thus easier than SVHN train/SVHN test.
Dataset Creation
Curation Rationale
From the paper:
As mentioned above, the venerable MNIST dataset has been a valuable goal post for researchers seeking to build better learning systems whose benchmark performance could be expected to translate into improved performance on realistic applications. However, computers have now reached essentially human levels of performance on this problem—a testament to progress in machine learning and computer vision. The Street View House Numbers (SVHN) digit database that we provide can be seen as similar in flavor to MNIST (e.g., the images are of small cropped characters), but the SVHN dataset incorporates an order of magnitude more labeled data and comes from a significantly harder, unsolved, real world problem. Here the gap between human performance and state of the art feature representations is significant. Going forward, we expect that this dataset may fulfill a similar role for modern feature learning algorithms: it provides a new and difficult benchmark where increased performance can be expected to translate into tangible gains on a realistic application.
Source Data
Initial Data Collection and Normalization
From the paper:
The SVHN dataset was obtained from a large number of Street View images using a combination of automated algorithms and the Amazon Mechanical Turk (AMT) framework, which was used to localize and transcribe the single digits. We downloaded a very large set of images from urban areas in various countries.
Who are the source language producers?
[More Information Needed]
Annotations
Annotation process
From the paper:
From these randomly selected images, the house-number patches were extracted using a dedicated sliding window house-numbers detector using a low threshold on the detector’s confidence score in order to get a varied, unbiased dataset of house-number signs. These low precision detections were screened and transcribed by AMT workers.
Who are the annotators?
The AMT workers.
Personal and Sensitive Information
[More Information Needed]
Considerations for Using the Data
Social Impact of Dataset
[More Information Needed]
Discussion of Biases
[More Information Needed]
Other Known Limitations
[More Information Needed]
Additional Information
Dataset Curators
Yuval Netzer, Tao Wang, Adam Coates, Alessandro Bissacco, Bo Wu and Andrew Y. Ng
Licensing Information
Non-commerical use only.
Citation Information
@article{netzer2011reading,
title={Reading digits in natural images with unsupervised feature learning},
author={Netzer, Yuval and Wang, Tao and Coates, Adam and Bissacco, Alessandro and Wu, Bo and Ng, Andrew Y},
year={2011}
}
Contributions
Thanks to @mariosasko for adding this dataset.