RA-ISF: Enhancing Retrieval Augmentation for Question Answering

RA-ISF proposes a framework that iteratively decomposes tasks to enhance model performance in question answering, addressing challenges in retrieval augmentation and knowledge incorporation.

RA-ISF introduces an innovative approach to improve retrieval-augmented generation for question answering. The framework iteratively processes questions through three sub-modules, achieving superior performance compared to existing methods. Experimental results demonstrate the effectiveness of RA-ISF in enhancing model capabilities and reducing hallucinations. Large language models (LLMs) excel in various tasks but struggle with up-to-date knowledge incorporation. RA-ISF addresses this by iteratively decomposing questions and integrating external knowledge, outperforming benchmarks like GPT3.5 and Llama2. The framework enhances factual reasoning and reduces hallucinations. RA-ISF's iterative self-feedback approach effectively combines external knowledge with inherent model knowledge, improving problem-solving capabilities. Experiments on various LLMs show superior performance in handling complex questions compared to existing methods.

Experiments show that RA-ISF outperforms existing benchmarks like GPT3.5 and Llama2. RA-ISF significantly enhances factual reasoning capabilities and reduces hallucinations. The model can answer questions it couldn’t previously by retrieving relevant knowledge. RA-ISF utilizes task decomposition to mitigate the impact of irrelevant texts on the model's performance.

"RA-ISF's iterative self-feedback approach more effectively unleashes the potential of the model." "Experiments demonstrate RA-ISF's superior performance in handling complex questions." "Our proposed framework significantly enhances knowledge retrieval performance."