Multi-classifier information fusion in risk analysis
This paper develops a novel multi-classifier information fusion approach that integrates the probabilistic support vector machine (SVM) and the improved Dempster-Shafer (D-S) evidence theory to support risk analysis under uncertainty. Safety levels for various risk factors can be classified separate...
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sg-ntu-dr.10356-1552752022-03-17T02:14:39Z Multi-classifier information fusion in risk analysis Pan, Yue Zhang, Limao Wu, Xianguo Skibniewski, Miroslaw J. School of Civil and Environmental Engineering Engineering::Civil engineering Structural Health Monitoring Risk Analysis This paper develops a novel multi-classifier information fusion approach that integrates the probabilistic support vector machine (SVM) and the improved Dempster-Shafer (D-S) evidence theory to support risk analysis under uncertainty. Safety levels for various risk factors can be classified separately using the probabilistic SVM. Then, these multiple classification results will be fused at the decision level to achieve an overall risk evaluation by an improved D-S evidence theory with the integration of the Dempster’ rule and the weighted average rule. The Monte Carlo simulation approach is employed to model the randomness and uncertainty underlying limited observations. A global sensitivity analysis is performed to identify the most significant factors contributing to the risk event. A realistic operational tunnel case in China is used to demonstrate the feasibility and effectiveness of the developed approach, aiming to assess the magnitude of the structural health risk. Results indicate the developed SVM-DS approach is capable of (1) Fusing multi-classifier information effectively from different SVM models with a high classification accuracy of 97.14%; (2) Performing a strong robustness to bias, which can achieve acceptable classification accuracy even under a 20% bias; and (3) Exhibiting a more outstanding classification performance (87.99% accuracy) than the single SVM model (63.84% accuracy) under a high bias (20%). Since the proposed reliable risk analysis method can efficiently fuse multi-sensory information with ubiquitous uncertainties, conflicts, and bias, it provides in-depth analysis for structural health status together with the most critical risk factors, and then proper remedial actions can be taken at an early stage. Ministry of Education (MOE) Nanyang Technological University Submitted/Accepted version The National Key Research Projects of China (Grant No. 2016YFC0800208), the Start-Up Grant at Nanyang Technological University, Singapore (No. M4082160.030), the Ministry of Education Tier 1 Grant, Singapore (No. M4011971.030), and the National Natural Science Foundation of China (Grant Nos. 51578260 and 71571078) are acknowledged for their financial support of this research. 2022-03-17T02:14:39Z 2022-03-17T02:14:39Z 2020 Journal Article Pan, Y., Zhang, L., Wu, X. & Skibniewski, M. J. (2020). Multi-classifier information fusion in risk analysis. Information Fusion, 60, 121-136. https://dx.doi.org/10.1016/j.inffus.2020.02.003 1566-2535 https://hdl.handle.net/10356/155275 10.1016/j.inffus.2020.02.003 2-s2.0-85081156314 60 121 136 en M4082160.030 M4011971.030 Information Fusion © 2020 Elsevier B.V. All rights reserved. |
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Engineering::Civil engineering Structural Health Monitoring Risk Analysis |
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Engineering::Civil engineering Structural Health Monitoring Risk Analysis Pan, Yue Zhang, Limao Wu, Xianguo Skibniewski, Miroslaw J. Multi-classifier information fusion in risk analysis |
| description |
This paper develops a novel multi-classifier information fusion approach that integrates the probabilistic support vector machine (SVM) and the improved Dempster-Shafer (D-S) evidence theory to support risk analysis under uncertainty. Safety levels for various risk factors can be classified separately using the probabilistic SVM. Then, these multiple classification results will be fused at the decision level to achieve an overall risk evaluation by an improved D-S evidence theory with the integration of the Dempster’ rule and the weighted average rule. The Monte Carlo simulation approach is employed to model the randomness and uncertainty underlying limited observations. A global sensitivity analysis is performed to identify the most significant factors contributing to the risk event. A realistic operational tunnel case in China is used to demonstrate the feasibility and effectiveness of the developed approach, aiming to assess the magnitude of the structural health risk. Results indicate the developed SVM-DS approach is capable of (1) Fusing multi-classifier information effectively from different SVM models with a high classification accuracy of 97.14%; (2) Performing a strong robustness to bias, which can achieve acceptable classification accuracy even under a 20% bias; and (3) Exhibiting a more outstanding classification performance (87.99% accuracy) than the single SVM model (63.84% accuracy) under a high bias (20%). Since the proposed reliable risk analysis method can efficiently fuse multi-sensory information with ubiquitous uncertainties, conflicts, and bias, it provides in-depth analysis for structural health status together with the most critical risk factors, and then proper remedial actions can be taken at an early stage. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Pan, Yue Zhang, Limao Wu, Xianguo Skibniewski, Miroslaw J. |
| format |
Article |
| author |
Pan, Yue Zhang, Limao Wu, Xianguo Skibniewski, Miroslaw J. |
| author_sort |
Pan, Yue |
| title |
Multi-classifier information fusion in risk analysis |
| title_short |
Multi-classifier information fusion in risk analysis |
| title_full |
Multi-classifier information fusion in risk analysis |
| title_fullStr |
Multi-classifier information fusion in risk analysis |
| title_full_unstemmed |
Multi-classifier information fusion in risk analysis |
| title_sort |
multi-classifier information fusion in risk analysis |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155275 |
| _version_ |
1728433380874256384 |