Uncovering Pervasive Bias in Text Data Across Multiple Languages
Alapfogalmak
Bias exists in text data across multiple languages, including benchmark datasets on the English GLUE/SuperGLUE leaderboards, as well as datasets in Italian, Dutch, German, and Swedish.
Kivonat
The authors introduce new large labeled datasets on bias in 3 languages (Italian, Dutch, and German) and show in experiments that bias exists in all 10 datasets of 5 languages evaluated, including benchmark datasets on the English GLUE/SuperGLUE leaderboards. The 3 new languages give a total of almost 6 million labeled samples, and the authors benchmark on these datasets using state-of-the-art multilingual pretrained models: mT5 and mBERT.
The authors compare different bias metrics and use bipol, which has explainability in the metric. They also confirm the unverified assumption that bias exists in toxic comments by randomly sampling 200 samples from a toxic dataset population. The findings confirm that many of the datasets have male bias (prejudice against women), besides other types of bias.
The authors publicly release their new datasets, lexica, models, and codes. They discuss the limitations of the work, such as the potential for culture-specific biases not being fully represented in the translated datasets, and the potential for annotator biases in the original dataset.
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Átírás mesterséges intelligenciával
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Egy másik nyelvre
Gondolattérkép létrehozása
a forrásanyagból
Forrás megtekintése
arxiv.org
Data Bias According to Bipol
Statisztikák
The 3 new language datasets (Italian, Dutch, and German) each have almost 2 million labeled samples.
The English, Italian, Dutch, German, and Swedish datasets have a total of almost 6 million labeled samples.
Idézetek
"The challenge of social bias, based on prejudice, is ubiquitous, as recent events with AI and large language models (LLMs) have shown."
"Our findings confirm that many of the datasets have male bias (prejudice against women), besides other types of bias."
Mélyebb kérdések
How can the authors ensure that the translated datasets accurately capture culture-specific biases from the original English dataset?
To ensure that the translated datasets accurately capture culture-specific biases from the original English dataset, the authors can employ several strategies:
Cultural Expertise: Collaborate with experts or native speakers of the target languages who are well-versed in the cultural nuances and biases prevalent in those societies. These experts can provide valuable insights into the specific biases that may exist in the translated datasets.
Validation and Verification: Conduct thorough validation and verification processes to ensure that the translated datasets maintain the integrity of the original biases. This can involve back-translating samples to check for accuracy and cultural relevance.
Contextual Understanding: Consider the context in which biases manifest in different cultures. Certain biases may be implicit or subtle and may require a deep understanding of the cultural context to be accurately translated.
Diverse Sampling: Ensure that the translated datasets include a diverse range of samples that capture the spectrum of cultural biases present in the original English dataset. This can help in representing a comprehensive view of biases across different cultures.
Feedback and Iteration: Seek feedback from individuals familiar with the target cultures to validate the presence and accuracy of culture-specific biases in the translated datasets. Iterate on the translation process based on this feedback to enhance accuracy.
By incorporating these strategies, the authors can enhance the accuracy and authenticity of capturing culture-specific biases in the translated datasets.
How might the authors' findings on pervasive bias in text data influence the development of more inclusive and equitable natural language processing systems?
The authors' findings on pervasive bias in text data can have several implications for the development of more inclusive and equitable natural language processing (NLP) systems:
Bias Mitigation Techniques: The findings can drive the development of advanced bias mitigation techniques in NLP systems. Researchers can focus on creating algorithms that can detect and mitigate biases in real-time to ensure fair and unbiased outcomes.
Ethical Guidelines: The findings can lead to the establishment of ethical guidelines and standards for developing NLP systems. These guidelines can emphasize the importance of fairness, transparency, and accountability in algorithmic decision-making.
Diverse Training Data: To address biases, developers can prioritize the use of diverse and representative training data that encompass a wide range of perspectives and voices. This can help in reducing the impact of biases in NLP systems.
User-Centric Design: The findings can encourage a shift towards user-centric design in NLP systems, where the focus is on creating technologies that cater to the needs and sensitivities of diverse user groups without perpetuating biases.
Education and Awareness: The findings can highlight the importance of educating developers, researchers, and users about the implications of bias in NLP systems. Increased awareness can lead to more informed decision-making and responsible use of technology.
By considering these implications, developers can work towards building NLP systems that are more inclusive, equitable, and aligned with ethical principles.
What are some potential counter-arguments to the authors' approach of using a multi-axes bias metric like bipol?
Some potential counter-arguments to the authors' approach of using a multi-axes bias metric like bipol include:
Complexity and Interpretability: Critics may argue that the multi-axes bias metric adds complexity to the evaluation process, making it challenging to interpret the results accurately. They may suggest that simpler metrics could be more straightforward and easier to understand.
Subjectivity in Lexica Creation: Opponents might raise concerns about the subjectivity involved in creating lexica of sensitive terms for bias detection. They may argue that the selection of terms could be influenced by individual biases, leading to potential inaccuracies in the evaluation.
Overemphasis on Quantitative Metrics: Some critics may argue that relying solely on quantitative metrics like bipol may overlook qualitative aspects of bias in text data. They may advocate for a more holistic approach that considers contextual nuances and real-world implications of bias.
Generalization Across Languages: Skeptics may question the generalizability of the multi-axes bias metric across different languages and cultures. They may argue that biases manifest differently in various linguistic contexts, making it challenging to apply a uniform metric effectively.
Impact on Model Performance: Critics may express concerns about the potential impact of bias evaluation metrics like bipol on the overall performance of NLP models. They may argue that excessive focus on bias detection could compromise the efficiency and accuracy of the models.
By considering these counter-arguments, the authors can address potential limitations and refine their approach to bias evaluation in text data.