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Qibo: A Large Language Model for Traditional Chinese Medicine


แนวคิดหลัก
Developing Qibo, the first LLM for Traditional Chinese Medicine, to bridge the gap in specialized corpus resources and enhance performance in TCM.
บทคัดย่อ
  • Abstract: Introduces challenges faced by LLMs in TCM and the development of Qibo.
  • Introduction: Discusses advances in LLMs and the need for specialized models in biomedical domains like TCM.
  • Related Works: Highlights existing LLMs and their applications in medicine.
  • Method: Details the construction of Qibo through pre-training, SFT, and data processing.
  • Experiments and Evaluation: Describes training details, baselines, evaluation criteria, and results.
  • Conclusion and Limitations: Summarizes achievements of Qibo while acknowledging limitations.
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สถิติ
"Han et al. (2021) have shown that almost all knowledge is learned during pre-training." "Zhang et al. (2023) created HuatuoGPT with a 25-million dialogue dataset." "Table 1 lists the statistics of the pre-training data."
คำพูด
"LLMs with traditional Chinese medicine knowledge are needed in the field of traditional Chinese medicine." "In this paper, we focus on developing and training the LLM that can understand and apply traditional Chinese medicine knowledge."

ข้อมูลเชิงลึกที่สำคัญจาก

by Heyi Zhang,X... ที่ arxiv.org 03-26-2024

https://arxiv.org/pdf/2403.16056.pdf
Qibo

สอบถามเพิ่มเติม

How can Qibo's success in TCM be translated to other specialized domains?

Qibo's success in Traditional Chinese Medicine (TCM) can serve as a blueprint for developing Large Language Models (LLMs) in other specialized domains. The key lessons learned from Qibo's development include the importance of constructing a professional corpus specific to the domain, endowing the model with expert knowledge characteristic of that field, and implementing a comprehensive training process from pre-training to Supervised Fine-Tuning (SFT). By following a similar approach tailored to different specialized domains, researchers can create LLMs that excel in understanding and responding effectively within those areas. Furthermore, Qibo's emphasis on integrating diverse datasets related to TCM, including modern medical textbooks, ancient texts, prescription data, reading comprehension quizzes, and more, showcases the significance of data diversity and quality. This strategy ensures that the model gains a holistic understanding of the domain it operates in. Applying this methodology to other fields would require curating relevant datasets encompassing various aspects of expertise unique to each domain. Moreover, Qibo's performance evaluation through subjective assessments focusing on professionalism, safety, fluency along with objective evaluations using multiple-choice questions and NLP tasks sets a standard for evaluating LLMs' capabilities across different dimensions. Adapting these evaluation methods while tailoring them to suit specific domain requirements could help gauge the effectiveness of large models accurately.

What are potential drawbacks or biases introduced by relying on large language models like Qibo?

While large language models like Qibo offer significant advancements in user intent understanding and response generation within specialized domains such as Traditional Chinese Medicine (TCM), several potential drawbacks and biases need consideration: Data Bias: Large language models heavily rely on training data which may contain inherent biases present in real-world datasets. Biases related to gender representation, cultural nuances or historical inaccuracies might get perpetuated by these models if not addressed during dataset curation. Lack of Contextual Understanding: Despite their impressive performance in generating text-based responses based on patterns learned during training phases; LLMs like Qibo may lack true contextual understanding or reasoning abilities akin to human cognition. Ethical Concerns: There are ethical concerns surrounding AI-generated content provided by LLMs like misinformation dissemination or unethical advice provision especially when dealing with sensitive topics such as healthcare where accuracy is crucial. Overfitting: Over-reliance on fine-tuning processes without adequate regularization techniques might lead an LLM like Qibo towards overfitting certain types of queries while underperforming on novel inputs outside its trained scope.

How might integrating non-textual information improve Qibo's capabilities beyond text-based medical advice?

Integrating non-textual information into Qibo’s framework can significantly enhance its capabilities beyond providing text-based medical advice: Multi-Modal Learning: By incorporating images or videos alongside textual data related to patient symptoms or diagnostic reports; Qibos’ ability for multi-modal learning improves drastically enabling better diagnosis recommendations. Enhanced Diagnosis Accuracy: Non-textual information such as patient physiological signals captured through wearable devices can provide real-time health metrics aiding accurate diagnosis suggestions based on quantitative data rather than just textual descriptions. Improved Patient Interaction: Integrating voice recognition technology allows patients to interact verbally with AI assistants powered by LLMs like Qibos making consultations more naturalistic enhancing overall patient experience. 4 .Comprehensive Treatment Plans: Including lab results visualizations directly into consultation sessions enables personalized treatment plans considering both textual analysis & numerical insights leading towards holistic healthcare solutions.
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