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Main Authors: Zhang, Chenwei, Lu, Wenran, Ni, Chunhe, Wang, Hongbo, Wu, Jiang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.00806
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author Zhang, Chenwei
Lu, Wenran
Ni, Chunhe
Wang, Hongbo
Wu, Jiang
author_facet Zhang, Chenwei
Lu, Wenran
Ni, Chunhe
Wang, Hongbo
Wu, Jiang
contents With the large language model showing human-like logical reasoning and understanding ability, whether agents based on the large language model can simulate the interaction behavior of real users, so as to build a reliable virtual recommendation A/B test scene to help the application of recommendation research is an urgent, important and economic value problem. The combination of interaction design and machine learning can provide a more efficient and personalized user experience for products and services. This personalized service can meet the specific needs of users and improve user satisfaction and loyalty. Second, the interactive system can understand the user's views and needs for the product by providing a good user interface and interactive experience, and then use machine learning algorithms to improve and optimize the product. This iterative optimization process can continuously improve the quality and performance of the product to meet the changing needs of users. At the same time, designers need to consider how these algorithms and tools can be combined with interactive systems to provide a good user experience. This paper explores the potential applications of large language models, machine learning and interaction design for user interaction in recommendation systems and operating systems. By integrating these technologies, more intelligent and personalized services can be provided to meet user needs and promote continuous improvement and optimization of products. This is of great value for both recommendation research and user experience applications.
format Preprint
id arxiv_https___arxiv_org_abs_2403_00806
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Enhanced User Interaction in Operating Systems through Machine Learning Language Models
Zhang, Chenwei
Lu, Wenran
Ni, Chunhe
Wang, Hongbo
Wu, Jiang
Information Retrieval
Computational Engineering, Finance, and Science
Computation and Language
Computer Vision and Pattern Recognition
With the large language model showing human-like logical reasoning and understanding ability, whether agents based on the large language model can simulate the interaction behavior of real users, so as to build a reliable virtual recommendation A/B test scene to help the application of recommendation research is an urgent, important and economic value problem. The combination of interaction design and machine learning can provide a more efficient and personalized user experience for products and services. This personalized service can meet the specific needs of users and improve user satisfaction and loyalty. Second, the interactive system can understand the user's views and needs for the product by providing a good user interface and interactive experience, and then use machine learning algorithms to improve and optimize the product. This iterative optimization process can continuously improve the quality and performance of the product to meet the changing needs of users. At the same time, designers need to consider how these algorithms and tools can be combined with interactive systems to provide a good user experience. This paper explores the potential applications of large language models, machine learning and interaction design for user interaction in recommendation systems and operating systems. By integrating these technologies, more intelligent and personalized services can be provided to meet user needs and promote continuous improvement and optimization of products. This is of great value for both recommendation research and user experience applications.
title Enhanced User Interaction in Operating Systems through Machine Learning Language Models
topic Information Retrieval
Computational Engineering, Finance, and Science
Computation and Language
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2403.00806