yelp_polarity / README.md
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metadata
language:
  - en
task_categories:
  - text-classification
task_ids:
  - sentiment-classification
paperswithcode_id: yelp-review-polarity
pretty_name: YelpPolarity
dataset_info:
  config_name: plain_text
  features:
    - name: text
      dtype: string
    - name: label
      dtype:
        class_label:
          names:
            '0': '1'
            '1': '2'
  splits:
    - name: train
      num_bytes: 413558837
      num_examples: 560000
    - name: test
      num_bytes: 27962097
      num_examples: 38000
  download_size: 273803261
  dataset_size: 441520934
configs:
  - config_name: plain_text
    data_files:
      - split: train
        path: plain_text/train-*
      - split: test
        path: plain_text/test-*
    default: true
train-eval-index:
  - config: plain_text
    task: text-classification
    task_id: binary_classification
    splits:
      train_split: train
      eval_split: test
    col_mapping:
      text: text
      label: target
    metrics:
      - type: accuracy
        name: Accuracy
      - type: f1
        name: F1 binary
        args:
          average: binary
      - type: precision
        name: Precision macro
        args:
          average: macro
      - type: precision
        name: Precision micro
        args:
          average: micro
      - type: precision
        name: Precision weighted
        args:
          average: weighted
      - type: recall
        name: Recall macro
        args:
          average: macro
      - type: recall
        name: Recall micro
        args:
          average: micro
      - type: recall
        name: Recall weighted
        args:
          average: weighted

Dataset Card for "yelp_polarity"

Table of Contents

Dataset Description

Dataset Summary

Large Yelp Review Dataset. This is a dataset for binary sentiment classification. We provide a set of 560,000 highly polar yelp reviews for training, and 38,000 for testing. ORIGIN The Yelp reviews dataset consists of reviews from Yelp. It is extracted from the Yelp Dataset Challenge 2015 data. For more information, please refer to http://www.yelp.com/dataset_challenge

The Yelp reviews polarity dataset is constructed by Xiang Zhang ([email protected]) from the above dataset. It is first used as a text classification benchmark in the following paper: Xiang Zhang, Junbo Zhao, Yann LeCun. Character-level Convolutional Networks for Text Classification. Advances in Neural Information Processing Systems 28 (NIPS 2015).

DESCRIPTION

The Yelp reviews polarity dataset is constructed by considering stars 1 and 2 negative, and 3 and 4 positive. For each polarity 280,000 training samples and 19,000 testing samples are take randomly. In total there are 560,000 trainig samples and 38,000 testing samples. Negative polarity is class 1, and positive class 2.

The files train.csv and test.csv contain all the training samples as comma-sparated values. There are 2 columns in them, corresponding to class index (1 and 2) and review text. The review texts are escaped using double quotes ("), and any internal double quote is escaped by 2 double quotes (""). New lines are escaped by a backslash followed with an "n" character, that is " ".

Supported Tasks and Leaderboards

More Information Needed

Languages

More Information Needed

Dataset Structure

Data Instances

plain_text

  • Size of downloaded dataset files: 166.38 MB
  • Size of the generated dataset: 441.74 MB
  • Total amount of disk used: 608.12 MB

An example of 'train' looks as follows.

This example was too long and was cropped:

{
    "label": 0,
    "text": "\"Unfortunately, the frustration of being Dr. Goldberg's patient is a repeat of the experience I've had with so many other doctor..."
}

Data Fields

The data fields are the same among all splits.

plain_text

  • text: a string feature.
  • label: a classification label, with possible values including 1 (0), 2 (1).

Data Splits

name train test
plain_text 560000 38000

Dataset Creation

Curation Rationale

More Information Needed

Source Data

Initial Data Collection and Normalization

More Information Needed

Who are the source language producers?

More Information Needed

Annotations

Annotation process

More Information Needed

Who are the annotators?

More Information Needed

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

More Information Needed

Licensing Information

More Information Needed

Citation Information

@article{zhangCharacterlevelConvolutionalNetworks2015,
  archivePrefix = {arXiv},
  eprinttype = {arxiv},
  eprint = {1509.01626},
  primaryClass = {cs},
  title = {Character-Level {{Convolutional Networks}} for {{Text Classification}}},
  abstract = {This article offers an empirical exploration on the use of character-level convolutional networks (ConvNets) for text classification. We constructed several large-scale datasets to show that character-level convolutional networks could achieve state-of-the-art or competitive results. Comparisons are offered against traditional models such as bag of words, n-grams and their TFIDF variants, and deep learning models such as word-based ConvNets and recurrent neural networks.},
  journal = {arXiv:1509.01626 [cs]},
  author = {Zhang, Xiang and Zhao, Junbo and LeCun, Yann},
  month = sep,
  year = {2015},
}

Contributions

Thanks to @patrickvonplaten, @lewtun, @mariamabarham, @thomwolf, @julien-c for adding this dataset.