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Diversity of quantum optimizations for training adaptive support vector regression and its prediction applications |
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| Authors: | Bao Rong Chang Hsiu Fen Tsai Chung-Ping Young |
| Affiliation: | aDepartment of Computer Science and Information Engineering, National Taitung University, Taiwan, 684 Chunghua Road, Sec. 1, Taitung 950, Taiwan bDepartment of International Business Shu-Te University, 59, Hun Shang Road, Yen Chao, Kaohsiung County 824, Taiwan cDepartment of Computer Science and Information Engineering, National Cheng Kung University, Taiwan1, University Road, Tainan 701, Taiwan |
| Abstract: | Three kinds of quantum optimizations are introduced in this paper as follows: quantum minimization (QM), neuromorphic quantum-based optimization (NQO), and logarithmic search with quantum existence testing (LSQET). In order to compare their optimization ability for training adaptive support vector regression, the performance evaluation is accomplished in the basis of forecasting the complex time series through two real world experiments. The model used for this complex time series prediction comprises both BPNN-Weighted Grey-C3LSP (BWGC) and nonlinear generalized autoregressive conditional heteroscedasticity (NGARCH) that is tuned perfectly by quantum-optimized adaptive support vector regression. Finally, according to the predictive accuracy of time series forecast and the cost of the computational complexity, the concluding remark will be made to illustrate and discuss these quantum optimizations. |
| Keywords: | Quantum minimization Neuromorphic quantum-based optimization Logarithmic search with quantum existence testing Adaptive support vector regression Nonlinear generalized autoregressive conditional heteroscedasticity |
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