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Conspiracy Theory Detection Using Emotion-Based Large Language Model


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The author proposes ConspEmoLLM, an emotion-based LLM for detecting conspiracy theories, outperforming other models by leveraging affective features.
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The content discusses the development of ConspEmoLLM, an open-source LLM that integrates affective information to detect conspiracy theories. It outperforms other models and emphasizes the importance of emotions in misinformation detection.
The internet's role in spreading misinformation, including conspiracy theories, is highlighted. Affective features like sentiment and emotions are crucial in detecting such content. The emergence of large language models (LLMs) has improved misinformation detection.
ConspEmoLLM is fine-tuned using the ConDID dataset for various tasks related to conspiracy theories. It surpasses other LLMs and ChatGPT in performance across different tasks. The study aims to deepen understanding and detection of conspiracy theories through affective analysis.
Pre-trained language models like BERT and RoBERTa have been effective in classification tasks but lack parameters for diverse tasks. LLMs with more parameters show promise in addressing misinformation issues. However, existing LLM studies focus on binary classification without utilizing affective features.
To bridge this gap, ConDID dataset is introduced for instruction tuning and evaluation of LLMs. Tasks include judgment, topic detection, and intention detection related to conspiracy theories. ConspEmoLLM stands out as a specialized model for diverse conspiracy theory detection tasks by incorporating affective information.

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Statisztikák
During the COVID-19 pandemic, there was a claim that 5G networks activated the virus causing significant negative impact on society. Emotion-oriented LLMs like EmoLLMs demonstrate strong generalization ability surpassing ChatGPT in emotion analysis tasks. Affective analysis reveals that tweets related to conspiracy theories convey predominantly negative sentiments like anger, fear, and disgust. Tasks based on COCO dataset involve classifying text into categories like Unrelated, Related (but not supporting), or Conspiracy (related and supporting). Instruction-tuning datasets are constructed using annotated datasets like COCO and LOCOAnnotations for various conspiracy theory detection tasks.
Idézetek
"No existing LLM-based studies have attempted to leverage important affective features characteristic of misinformation." "ConspEmoLLM largely outperforms several open-source general domain LLMs and ChatGPT." "Affective information plays a crucial role in detecting various types of information relating to conspiracy theories."

Főbb Kivonatok

by Zhiwei Liu,B... : arxiv.org 03-12-2024

https://arxiv.org/pdf/2403.06765.pdf
ConspEmoLLM

Mélyebb kérdések

How can emotional cues be effectively leveraged without distracting models from their primary task?

Emotional cues can be effectively leveraged by incorporating them implicitly into the model's training data and prompts. Instead of explicitly providing emotional information in the prompts, the model can learn to extract and utilize emotional features from the text itself during training. This way, the model can naturally integrate emotional cues into its decision-making process without being explicitly directed towards them. Additionally, pre-processing techniques such as sentiment analysis or emotion detection can be used to provide a subtle hint about the emotional content of the text without overwhelming the model with explicit emotional prompts. By subtly guiding the model towards recognizing emotions in text, it can learn to incorporate these cues into its understanding of conspiracy theories without losing focus on its main task.

What are the implications of incorporating larger or different model architectures on performance in conspiracy theory detection?

Incorporating larger or different model architectures in conspiracy theory detection tasks could have several implications on performance: Increased Model Capacity: Larger models with more parameters may have a higher capacity to capture complex patterns and nuances present in conspiracy theory texts. This could potentially lead to improved performance in detecting subtle signals related to misinformation. Enhanced Generalization: Different architectures may excel at capturing specific types of information better than others. For example, transformer-based models like BERT might perform well at understanding context dependencies while LSTM-based models might excel at capturing sequential patterns. Computational Resources: Larger models require more computational resources for training and inference, which could impact scalability and efficiency if not managed properly. Interpretability vs Performance Trade-off: More complex architectures might sacrifice interpretability for performance gains, making it challenging to understand how decisions are made within the model. Overall, careful consideration should be given when selecting architecture based on factors like dataset size, complexity of tasks involved, interpretability requirements, and available computational resources.

How can we ensure ethical soundness when collecting data from public social media platforms for research purposes?

Ensuring ethical soundness when collecting data from public social media platforms involves adhering to strict guidelines and principles: User Consent: Obtain informed consent from users whose data is being collected whenever possible. Anonymity & Privacy Protection: Ensure that personal information is anonymized before use and take measures to protect user privacy throughout all stages of data collection and analysis. Data Security Measures: Implement robust security protocols to safeguard collected data against unauthorized access or breaches. Transparency & Accountability: Be transparent about data collection methods, purposes, and potential risks involved while ensuring accountability for handling sensitive information responsibly. 5Compliance with Regulations: Adhere strictly to relevant laws (e.g., GDPR) governing data collection practices on social media platforms 6Ethical Review: Seek approval from institutional review boards or ethics committees before conducting research involving human subjects' data By following these guidelines rigorously researchers can conduct studies ethically while respecting user rights privacy concerns surrounding social media platform usage
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