Related papers: Narrative Analysis of True Crime Podcasts With Knowledge Graph-Augmented Large Language Models

Narrative Analysis of True Crime Podcasts With Knowledge Graph-Augmented Large Language Models

URL: http://arxiv.org/abs/2411.02435v1
Date: Fri, 01 Nov 2024 21:49:00 GMT
Title: Narrative Analysis of True Crime Podcasts With Knowledge Graph-Augmented Large Language Models
Authors: Xinyi Leng, Jason Liang, Jack Mauro, Xu Wang, Andrea L. Bertozzi, James Chapman, Junyuan Lin, Bohan Chen, Chenchen Ye, Temple Daniel, P. Jeffrey Brantingham,
Abstract summary: Large language models (LLMs) still struggle with complex narrative arcs as well as narratives containing conflicting information. Recent work indicates LLMs augmented with external knowledge bases can improve the accuracy and interpretability of the resulting models. In this work, we analyze the effectiveness of applying knowledge graphs (KGs) in understanding true-crime podcast data.
Score: 8.78598447041169
License:
Abstract: Narrative data spans all disciplines and provides a coherent model of the world to the reader or viewer. Recent advancement in machine learning and Large Language Models (LLMs) have enable great strides in analyzing natural language. However, Large language models (LLMs) still struggle with complex narrative arcs as well as narratives containing conflicting information. Recent work indicates LLMs augmented with external knowledge bases can improve the accuracy and interpretability of the resulting models. In this work, we analyze the effectiveness of applying knowledge graphs (KGs) in understanding true-crime podcast data from both classical Natural Language Processing (NLP) and LLM approaches. We directly compare KG-augmented LLMs (KGLLMs) with classical methods for KG construction, topic modeling, and sentiment analysis. Additionally, the KGLLM allows us to query the knowledge base in natural language and test its ability to factually answer questions. We examine the robustness of the model to adversarial prompting in order to test the model's ability to deal with conflicting information. Finally, we apply classical methods to understand more subtle aspects of the text such as the use of hearsay and sentiment in narrative construction and propose future directions. Our results indicate that KGLLMs outperform LLMs on a variety of metrics, are more robust to adversarial prompts, and are more capable of summarizing the text into topics.

Related papers

Ontology Population using LLMs [0.9894420655516563]
Knowledge graphs (KGs) are increasingly utilized for data integration, representation, and visualization. LLMs offer promising capabilities for such tasks, excelling in natural language understanding and content generation. This study investigates LLM effectiveness for the KG population, focusing on the Enslaved.org Hub Ontology.
arXiv Detail & Related papers (2024-11-03T15:39:20Z)
Research Trends for the Interplay between Large Language Models and Knowledge Graphs [5.364370360239422]
This survey investigates the synergistic relationship between Large Language Models (LLMs) and Knowledge Graphs (KGs) It aims to address gaps in current research by exploring areas such as KG Question Answering, ontology generation, KG validation, and the enhancement of KG accuracy and consistency through LLMs.
arXiv Detail & Related papers (2024-06-12T13:52:38Z)
LLMs' Reading Comprehension Is Affected by Parametric Knowledge and Struggles with Hypothetical Statements [59.71218039095155]
Task of reading comprehension (RC) provides a primary means to assess language models' natural language understanding (NLU) capabilities. If the context aligns with the models' internal knowledge, it is hard to discern whether the models' answers stem from context comprehension or from internal information. To address this issue, we suggest to use RC on imaginary data, based on fictitious facts and entities.
arXiv Detail & Related papers (2024-04-09T13:08:56Z)
Knowledge Graph Large Language Model (KG-LLM) for Link Prediction [43.55117421485917]
We introduce the Knowledge Graph Large Language Model (KG-LLM), a novel framework that leverages large language models (LLMs) for knowledge graph tasks. We first convert structured knowledge graph data into natural language and then use these natural language prompts to fine-tune LLMs. To show the efficacy of the KG-LLM Framework, we fine-tune three leading LLMs within this framework, including Flan-T5, LLaMa2 and Gemma.
arXiv Detail & Related papers (2024-03-12T04:47:29Z)
Large Language Models Can Better Understand Knowledge Graphs Than We Thought [13.336418752729987]
knowledge graph (KG) embeddings with model parameters become increasingly costly. Current prompting methods often rely on a trial-and-error approach. We show that unordered linearized triples are more effective for LLMs' understanding of KGs compared to fluent NL text.
arXiv Detail & Related papers (2024-02-18T10:44:03Z)
Supervised Knowledge Makes Large Language Models Better In-context Learners [94.89301696512776]
Large Language Models (LLMs) exhibit emerging in-context learning abilities through prompt engineering. The challenge of improving the generalizability and factuality of LLMs in natural language understanding and question answering remains under-explored. We propose a framework that enhances the reliability of LLMs as it: 1) generalizes out-of-distribution data, 2) elucidates how LLMs benefit from discriminative models, and 3) minimizes hallucinations in generative tasks.
arXiv Detail & Related papers (2023-12-26T07:24:46Z)
Give Us the Facts: Enhancing Large Language Models with Knowledge Graphs for Fact-aware Language Modeling [34.59678835272862]
ChatGPT, a representative large language model (LLM), has gained considerable attention due to its powerful emergent abilities. This paper proposes to enhance LLMs with knowledge graph-enhanced large language models (KGLLMs) KGLLM provides a solution to enhance LLMs' factual reasoning ability, opening up new avenues for LLM research.
arXiv Detail & Related papers (2023-06-20T12:21:06Z)
Large Language Models Are Latent Variable Models: Explaining and Finding Good Demonstrations for In-Context Learning [104.58874584354787]
In recent years, pre-trained large language models (LLMs) have demonstrated remarkable efficiency in achieving an inference-time few-shot learning capability known as in-context learning. This study aims to examine the in-context learning phenomenon through a Bayesian lens, viewing real-world LLMs as latent variable models.
arXiv Detail & Related papers (2023-01-27T18:59:01Z)
Empowering Language Models with Knowledge Graph Reasoning for Question Answering [117.79170629640525]
We propose knOwledge REasOning empowered Language Model (OREO-LM) OREO-LM consists of a novel Knowledge Interaction Layer that can be flexibly plugged into existing Transformer-based LMs. We show significant performance gain, achieving state-of-art results in the Closed-Book setting.
arXiv Detail & Related papers (2022-11-15T18:26:26Z)
Large Language Models with Controllable Working Memory [64.71038763708161]
Large language models (LLMs) have led to a series of breakthroughs in natural language processing (NLP) What further sets these models apart is the massive amounts of world knowledge they internalize during pretraining. How the model's world knowledge interacts with the factual information presented in the context remains under explored.
arXiv Detail & Related papers (2022-11-09T18:58:29Z)
GreaseLM: Graph REASoning Enhanced Language Models for Question Answering [159.9645181522436]
GreaseLM is a new model that fuses encoded representations from pretrained LMs and graph neural networks over multiple layers of modality interaction operations. We show that GreaseLM can more reliably answer questions that require reasoning over both situational constraints and structured knowledge, even outperforming models 8x larger.
arXiv Detail & Related papers (2022-01-21T19:00:05Z)

This list is automatically generated from the titles and abstracts of the papers in this site.