期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
麻醉深度监测系统的优化算法研究 被引量:2
1
作者 孙媛 刘子毓 +3 位作者 侯玉文 王铁英 张励 刘东培 《光电技术应用》 2013年第4期41-44,共4页
麻醉深度监测对提高麻醉质量,保障患者的手术期安全与康复具有极为重要的意义。系统地回顾了脑电信号分析算法,主要包括脑电双频指数、麻醉趋势指数、脑状态指数等多种不同参数的算法在麻醉深度监测中的应用研究及进展情况。首先比较了... 麻醉深度监测对提高麻醉质量,保障患者的手术期安全与康复具有极为重要的意义。系统地回顾了脑电信号分析算法,主要包括脑电双频指数、麻醉趋势指数、脑状态指数等多种不同参数的算法在麻醉深度监测中的应用研究及进展情况。首先比较了这些参数的脑电分析算法在临床应用中的优缺点,接着提出了具有优秀去噪能力的排序熵指数算法,并引入反向映射神经网络对脑电双频指数、麻醉趋势和排序熵指数进行校正优化,以便更精确地实现麻醉深度监护。最后展望了今后其应用于麻醉深度监测领域的发展前景。 展开更多
关键词 麻醉深度 脑电 脑电双频指数 麻醉趋势 脑状态指数 多参数优化算法
下载PDF
Multi-objective parameter optimization for a single-shaft series-parallel plug-in hybrid electric bus using genetic algorithm 被引量:4
2
作者 CHEN Zheng ZHOU LiYan +2 位作者 SUN Yong MA ZiLin HAN ZongQi 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2016年第8期1176-1185,共10页
Recently, the single-shaft series-parallel powertrain of Plug-in Hybrid Electric Bus (PHEB) has become one of the most popu- lar powertrains due to its alterable operating modes, excellent fuel economy and strong ad... Recently, the single-shaft series-parallel powertrain of Plug-in Hybrid Electric Bus (PHEB) has become one of the most popu- lar powertrains due to its alterable operating modes, excellent fuel economy and strong adaptability for driving cycles. Never- theless, for configuring the PHEB with single-shaft series-parallel powertrain in the development stage, it still faces greater challenge than other configurations when choosing and matching the main component parameters. Motivated by this issue, a comprehensive multi-objectives optimization strategy based on Genetic Algorithm (GA) is developed for the PHEB with the typical powertrain. First, considering repeatability and regularity of bus route, the methods of off-line data processing and mathematical statistics are adopted, to obtain a representative driving cycle, which could well reflect the general characteristic of the real-world bus route. Then, the economical optimization objective is defined, which is consist of manufacturing costs of the key components and energy consumption, and combined with the dynamical optimization objective, a multi-objective op- timization function is put forward. Meanwhile, GA algorithm is used to optimize the parameters, for the optimal components combination of the novel series-parallel powertrain. Finally, a comparison with the prototype is carried out to verify the per- formance of the optimized powertrain along driving cycles. Simulation results indicate that the parameters of powertrain com- ponents obtained by the proposed comprehensive multi-objectives optimization strategy might get better fuel economy, meanwhile ensure the dynamic performance of PHEB. In contrast to the original, the costs declined by 18%. Hence, the strat- egy would provide a theoretical guidance on parameter selection for PHEB manufacturers. 展开更多
关键词 multi-objective parameter optimization single-shaft series-parallel powertrain plug-in hybrid electric bus (PHEB) genetic algorithm (GA) driving cycle city bus route
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部