Retrieval-Augmented Generation with Estimation of Source Reliability
Retrieval-augmented generation (RAG) addresses key limitations of large language models (LLMs), such as hallucinations and outdated knowledge, by incorporating external databases. These databases typically consult multiple sources to encompass up-to-date and various information. However, standard RA...
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| creator | Hwang, Jeongyeon Park, Junyoung Park, Hyejin Park, Sangdon Ok, Jungseul |
| description | Retrieval-augmented generation (RAG) addresses key limitations of large
language models (LLMs), such as hallucinations and outdated knowledge, by
incorporating external databases. These databases typically consult multiple
sources to encompass up-to-date and various information. However, standard RAG
methods often overlook the heterogeneous source reliability in the multi-source
database and retrieve documents solely based on relevance, making them prone to
propagating misinformation. To address this, we propose Reliability-Aware RAG
(RA-RAG) which estimates the reliability of multiple sources and incorporates
this information into both retrieval and aggregation processes. Specifically,
it iteratively estimates source reliability and true answers for a set of
queries with no labelling. Then, it selectively retrieves relevant documents
from a few of reliable sources and aggregates them using weighted majority
voting, where the selective retrieval ensures scalability while not
compromising the performance. We also introduce a benchmark designed to reflect
real-world scenarios with heterogeneous source reliability and demonstrate the
effectiveness of RA-RAG compared to a set of baselines. |
| doi_str_mv | 10.48550/arxiv.2410.22954 |
| format | Article |
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language models (LLMs), such as hallucinations and outdated knowledge, by
incorporating external databases. These databases typically consult multiple
sources to encompass up-to-date and various information. However, standard RAG
methods often overlook the heterogeneous source reliability in the multi-source
database and retrieve documents solely based on relevance, making them prone to
propagating misinformation. To address this, we propose Reliability-Aware RAG
(RA-RAG) which estimates the reliability of multiple sources and incorporates
this information into both retrieval and aggregation processes. Specifically,
it iteratively estimates source reliability and true answers for a set of
queries with no labelling. Then, it selectively retrieves relevant documents
from a few of reliable sources and aggregates them using weighted majority
voting, where the selective retrieval ensures scalability while not
compromising the performance. We also introduce a benchmark designed to reflect
real-world scenarios with heterogeneous source reliability and demonstrate the
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language models (LLMs), such as hallucinations and outdated knowledge, by
incorporating external databases. These databases typically consult multiple
sources to encompass up-to-date and various information. However, standard RAG
methods often overlook the heterogeneous source reliability in the multi-source
database and retrieve documents solely based on relevance, making them prone to
propagating misinformation. To address this, we propose Reliability-Aware RAG
(RA-RAG) which estimates the reliability of multiple sources and incorporates
this information into both retrieval and aggregation processes. Specifically,
it iteratively estimates source reliability and true answers for a set of
queries with no labelling. Then, it selectively retrieves relevant documents
from a few of reliable sources and aggregates them using weighted majority
voting, where the selective retrieval ensures scalability while not
compromising the performance. We also introduce a benchmark designed to reflect
real-world scenarios with heterogeneous source reliability and demonstrate the
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language models (LLMs), such as hallucinations and outdated knowledge, by
incorporating external databases. These databases typically consult multiple
sources to encompass up-to-date and various information. However, standard RAG
methods often overlook the heterogeneous source reliability in the multi-source
database and retrieve documents solely based on relevance, making them prone to
propagating misinformation. To address this, we propose Reliability-Aware RAG
(RA-RAG) which estimates the reliability of multiple sources and incorporates
this information into both retrieval and aggregation processes. Specifically,
it iteratively estimates source reliability and true answers for a set of
queries with no labelling. Then, it selectively retrieves relevant documents
from a few of reliable sources and aggregates them using weighted majority
voting, where the selective retrieval ensures scalability while not
compromising the performance. We also introduce a benchmark designed to reflect
real-world scenarios with heterogeneous source reliability and demonstrate the
effectiveness of RA-RAG compared to a set of baselines.</abstract><doi>10.48550/arxiv.2410.22954</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Learning |
| title | Retrieval-Augmented Generation with Estimation of Source Reliability |
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