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Research on the dynamic evolution mechanism of disruptive technology based on the BERTopic model and Hidden Markov Model: A case study of industrial Internet technology

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Опубликовано в::PLoS One vol. 20, no. 4 (Apr 2025), p. e0319924
Главный автор: Yang, Heng
Другие авторы: Chen, Sheng, Yang, Xin
Опубликовано:
Public Library of Science
Предметы:
France
United States > US
Germany
China
Japan
Internet
Data processing
Markov chains
Control systems
Trends
Patent applications
Data mining
Information services
Remote control
Image processing
Manufacturing
Documents
Technology
Innovations
Bibliometrics
Edge computing
Semantic analysis
Industrial Internet of Things
Information processing
Control methods
Industry 4.0
Semantics
Economic
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Краткий обзор:ObjectiveThe development of key technologies for the Industrial Internet is a major concern for countries worldwide. This paper aims to comprehensively understand the technology of the Industrial Internet by analyzing its current application status and trends. It will dynamically examine the key technologies and development trends of the Industrial Internet, providing a valuable reference for technological advancements in this field.MethodsThis paper analyzed global patent data in the field of the Industrial Internet from 1965 to 2023. The paper applied the BERTopic model and the all-MiniLM-L6-v2 model to extract and vectorize topics related to industrial internet technology from patent texts. Based on the theory of Internet governance, the paper categorizes the topics into four categories. The paper then established the Hidden Markov Model (HMM) to investigate the evolutionary mechanism of technological topics. The paper utilized the newly divided topics as hidden states and the number of patent applications as observed states in the Hidden Markov Model (HMM).ResultsIndustrial internet technology encompasses five research directions. The physical layer focuses on interconnection platforms for equipment, as well as devices for the storage and monitoring of liquids and gases. The logical layer involves remote control systems for industrial equipment, while the data layer focuses on data processing and information services. The interaction layer included modular image processing and control methods. Among these types of technologies, the data layer technologies were the most developed and also contributed to the advancement of interaction layer technologies. The physical layer technologies were relatively more developed, while the logical and interaction layer technologies were relatively less developed.
ISSN:1932-6203
DOI:10.1371/journal.pone.0319924
Источник:Health & Medical Collection