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Hauptverfasser: Seol, Youngjin, Choi, Jaewoong, Lee, Seunghyun, Yoon, Janghyeok
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2411.09184
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author Seol, Youngjin
Choi, Jaewoong
Lee, Seunghyun
Yoon, Janghyeok
author_facet Seol, Youngjin
Choi, Jaewoong
Lee, Seunghyun
Yoon, Janghyeok
contents Machine learning (ML) models are valuable tools for analyzing the impact of technology using patent citation information. However, existing ML-based methods often struggle to account for the dynamic nature of the technology impact over time and the interdependencies of these impacts across different periods. This study proposes a multi-task learning (MTL) approach to enhance the prediction of technology impact across various time frames by leveraging knowledge sharing and simultaneously monitoring the evolution of technology impact. First, we quantify the technology impacts and identify patterns through citation analysis over distinct time periods. Next, we develop MTL models to predict citation counts using multiple patent indicators over time. Finally, we examine the changes in key input indicators and their patterns over different periods using the SHapley Additive exPlanation method. We also offer guidelines for validating and interpreting the results by employing statistical methods and natural language processing techniques. A case study on battery technologies demonstrates that our approach not only deepens the understanding of technology impact, but also improves prediction accuracy, yielding valuable insights for both academia and industry.
format Preprint
id arxiv_https___arxiv_org_abs_2411_09184
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dynamic technology impact analysis: A multi-task learning approach to patent citation prediction
Seol, Youngjin
Choi, Jaewoong
Lee, Seunghyun
Yoon, Janghyeok
Machine Learning
Artificial Intelligence
Machine learning (ML) models are valuable tools for analyzing the impact of technology using patent citation information. However, existing ML-based methods often struggle to account for the dynamic nature of the technology impact over time and the interdependencies of these impacts across different periods. This study proposes a multi-task learning (MTL) approach to enhance the prediction of technology impact across various time frames by leveraging knowledge sharing and simultaneously monitoring the evolution of technology impact. First, we quantify the technology impacts and identify patterns through citation analysis over distinct time periods. Next, we develop MTL models to predict citation counts using multiple patent indicators over time. Finally, we examine the changes in key input indicators and their patterns over different periods using the SHapley Additive exPlanation method. We also offer guidelines for validating and interpreting the results by employing statistical methods and natural language processing techniques. A case study on battery technologies demonstrates that our approach not only deepens the understanding of technology impact, but also improves prediction accuracy, yielding valuable insights for both academia and industry.
title Dynamic technology impact analysis: A multi-task learning approach to patent citation prediction
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2411.09184