Aligning Human and Machine Attention for Enhanced Supervised Learning
This research addresses the challenge of leveraging human cognition to augment machine learning in real-world applications, though it appears incremental as it builds on existing methods with human-annotated data.
The paper tackled the problem of improving machine learning performance by aligning machine attention with human attention mechanisms, and found that the best Human-Machine Attention Learning strategy significantly enhanced task performance for transformer models, especially under imbalanced or sparse data conditions.
Attention, or prioritization of certain information items over others, is a critical element of any learning process, for both humans and machines. Given that humans continue to outperform machines in certain learning tasks, it seems plausible that machine performance could be enriched by aligning machine attention with human attention mechanisms -- yet research on this topic is sparse and has achieved only limited success. This paper proposes a new approach to address this gap, called Human-Machine Attention Learning (HuMAL). This approach involves reliance on data annotated by humans to reflect their self-perceived attention during specific tasks. We evaluate several alternative strategies for integrating such human attention data into machine learning (ML) algorithms, using a sentiment analysis task (review data from Yelp) and a personality-type classification task (data from myPersonality). The best-performing HuMAL strategy significantly enhances the task performance of fine-tuned transformer models (BERT, as well as GPT-2 and XLNET), and the benefit is particularly pronounced under challenging conditions of imbalanced or sparse labeled data. This research contributes to a deeper understanding of strategies for integrating human attention into ML models and highlights the potential of leveraging human cognition to augment ML in real-world applications.