Nested local adiabatic evolution for quantum-neuron-based adaptive support vector regression and its forecasting applications
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摘要
Instead of traditionally (globally) adiabatic evolution algorithm for unstructured search proposed by Farhi or Van Dam, the high efficiency search using nested local adiabatic evolution algorithm for structured search is herein introduced to the quantum-like neurons in Hopfield-neural-net for performing several local adiabatic quantum searches and then nesting them together so that the optimal or near-optimal solutions can be founded efficiently. Particularly, this approach is applied to optimally training support vector regression (SVR) in such a way that tuning three free parameters of SVR toward an optimal regression is fast obtained, just like a kind of adaptive support vector regression (ASVR). Hence, we focus on the structured adiabatic quantum search by nesting a partial search over a reduced set of variables into a global search for solving an optimization problem on SVR, yielding an average complexity of order Nα, with α < 1, compared with a quadratic speedup of order N over a naive Grover’s search. Finally, the application of regularizing the designated hybrid prediction model, consisting of BPNN-weighted Grey-C3LSP model and nonlinear autoregressive conditional heteroscedasticity, through this technique is realized to experiment the non-periodic short-term forecasts on international stock price indices and typhoon moving paths.
论文关键词:Nested local adiabatic evolution algorithm,Support vector regression,Hopfield-neural-net,Structured adiabatic quantum search,BPNN-weighted Grey-C3LSP model,Nonlinear autoregressive conditional heteroscedasticity
论文评审过程:Available online 29 February 2008.
论文官网地址:https://doi.org/10.1016/j.eswa.2008.02.011