A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system
As an emerging digital servitization paradigm, smart product-service system (Smart PSS) leverages smart, connected products and their generated services to work as a solution bundle to improve individual user satisfaction. As a complex solution bundle at both system and product level, its iterative...
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sg-ntu-dr.10356-1619542022-09-27T05:55:51Z A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system Cong, Jingchen Zheng, Pai Bian, Yuan Chen, Chun-Hsien Li, Jianmin Li, Xinyu School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Smart Product-Service System User Satisfaction As an emerging digital servitization paradigm, smart product-service system (Smart PSS) leverages smart, connected products and their generated services to work as a solution bundle to improve individual user satisfaction. As a complex solution bundle at both system and product level, its iterative design differs from the existing ones mainly in two aspects. Firstly, massive in-context data during the usage stage can be leveraged to calculate the satisfaction degree of individual users intelligently. Secondly, Smart PSS, consisting of both digitalized service and physical components, can be changed in a more flexible way in a data-driven manner. An iterative design method for fast positioning and replacing the unsatisfied modules can improve the user experience and extend the Smart PSS usage life. Nevertheless, some studies made attempts, and it is still missing an iterative design method with automatic real-time user satisfaction prediction. Aiming to fill this gap, this work proposes a machine learning-based iterative design approach to automate user satisfaction prediction in the Smart PSS environment. Furthermore, an illustrative case study of a surgical robot for flexible ureteroscopy is demonstrated along with this proposed methodological framework, which overcomes the challenges of subjectivity and tedious assessment of the experts in the conventional approaches. This research can offer some valuable guidelines to today's industrial companies in Smart PSS development. This research work was partially supported by the grant from the National Natural Science Foundation of China (No. 52005424), National Natural Science Foundation of China (No. 52122501) and National Natural Science Foundation of China (No. 52075277). 2022-09-27T05:55:51Z 2022-09-27T05:55:51Z 2022 Journal Article Cong, J., Zheng, P., Bian, Y., Chen, C., Li, J. & Li, X. (2022). A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system. Computers and Industrial Engineering, 165, 107939-. https://dx.doi.org/10.1016/j.cie.2022.107939 0360-8352 https://hdl.handle.net/10356/161954 10.1016/j.cie.2022.107939 2-s2.0-85122972027 165 107939 en Computers and Industrial Engineering © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Smart Product-Service System User Satisfaction Cong, Jingchen Zheng, Pai Bian, Yuan Chen, Chun-Hsien Li, Jianmin Li, Xinyu A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| description |
As an emerging digital servitization paradigm, smart product-service system (Smart PSS) leverages smart, connected products and their generated services to work as a solution bundle to improve individual user satisfaction. As a complex solution bundle at both system and product level, its iterative design differs from the existing ones mainly in two aspects. Firstly, massive in-context data during the usage stage can be leveraged to calculate the satisfaction degree of individual users intelligently. Secondly, Smart PSS, consisting of both digitalized service and physical components, can be changed in a more flexible way in a data-driven manner. An iterative design method for fast positioning and replacing the unsatisfied modules can improve the user experience and extend the Smart PSS usage life. Nevertheless, some studies made attempts, and it is still missing an iterative design method with automatic real-time user satisfaction prediction. Aiming to fill this gap, this work proposes a machine learning-based iterative design approach to automate user satisfaction prediction in the Smart PSS environment. Furthermore, an illustrative case study of a surgical robot for flexible ureteroscopy is demonstrated along with this proposed methodological framework, which overcomes the challenges of subjectivity and tedious assessment of the experts in the conventional approaches. This research can offer some valuable guidelines to today's industrial companies in Smart PSS development. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Cong, Jingchen Zheng, Pai Bian, Yuan Chen, Chun-Hsien Li, Jianmin Li, Xinyu |
| format |
Article |
| author |
Cong, Jingchen Zheng, Pai Bian, Yuan Chen, Chun-Hsien Li, Jianmin Li, Xinyu |
| author_sort |
Cong, Jingchen |
| title |
A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| title_short |
A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| title_full |
A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| title_fullStr |
A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| title_full_unstemmed |
A machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| title_sort |
machine learning-based iterative design approach to automate user satisfaction degree prediction in smart product-service system |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161954 |
| _version_ |
1745574656464650240 |