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Expansion quantization network: A micro-emotion detection and annotation framework.

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This study introduces the Emotion Quantization Network (EQN) for improved emotion detection. EQN offers automatic micro-emotion annotation with energy scores, enhancing artificial intelligence reasoning.

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Area of Science:

  • Natural Language Processing
  • Artificial Intelligence
  • Computational Linguistics

Background:

  • Current emotion detection datasets suffer from high costs, subjectivity, and label imbalance.
  • Inadequate annotation of micro-emotions and lack of emotional intensity hinder AI's emotional reasoning.
  • Existing methods fail to capture the full spectrum of emotions in text, impacting downstream tasks.

Purpose of the Study:

  • To develop a novel framework for automatic micro-emotion detection and annotation.
  • To address the limitations of manual annotation in emotion detection datasets.
  • To introduce a method for representing emotional intensity and uncovering multiple emotions within text samples.

Main Methods:

  • Proposed an all-labels and training-set label regression method to map label values to energy intensity levels.
  • Developed the Emotion Quantization Network (EQN) framework for micro-emotion detection and annotation.
  • Leveraged machine learning capabilities and interdependencies among labels to uncover multiple emotions.

Main Results:

  • Validated the broad applicability of the EQN framework across five common sentiment datasets and various NLP models.
  • Demonstrated high capability for automatic detection and annotation of micro-emotions on the GoEmotions dataset.
  • Achieved the first automatic micro-emotion annotation with energy-level scores.

Conclusions:

  • The EQN framework significantly improves micro-emotion detection and annotation accuracy.
  • EQN provides strong support for further emotion detection analysis and quantitative emotion computing research.
  • This approach enhances AI's ability to understand and reason about complex emotions in text.