The Computing Of The Optimal Power Consumption For Semi-track Air-cushion Vehicle Using Hybrid Generalized Extremal Optimization

Dong Xie; Zhe Luo; Fan Yu

首页> 外文期刊>Applied Mathematical Modelling >The Computing Of The Optimal Power Consumption For Semi-track Air-cushion Vehicle Using Hybrid Generalized Extremal Optimization

【24h】

The Computing Of The Optimal Power Consumption For Semi-track Air-cushion Vehicle Using Hybrid Generalized Extremal Optimization

机译：混合广义极值优化法计算半履带气垫车辆最优功耗。

获取原文

获取原文并翻译 | 示例

开具论文收录证明 >>

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

A new stochastic method named hybrid generalized extremal optimization (HGEO) is proposed in this paper. It combines genetic algorithms (GAs) and generalized extremal optimization (GEO). In order to extend GEO's mutation operator to accelerate convergence speed and be easily incorporated into HGEO, the real coded GEO is first developed to population-base GEO (PGEO), and then incorporated into the HGEO in the paper. Constraints consideration for using the HGEO and the effects of related operators are also investigated. Finally, the performance of the HGEO is fully investigated compared with other related algorithms to find the optimal power consumption for the semi-track air-cushion vehicle (STACV). The results show that the HGEO has better performance than GAs or other related simpler algorithms.

机译：提出了一种新的随机方法，称为混合广义极值优化（HGEO）。它结合了遗传算法（GA）和广义极值优化（GEO）。为了扩展GEO的变异算子以加快收敛速度并轻松地将其合并到HGEO中，真正的编码GEO被首先开发为基于人口的GEO（PGEO），然后将其合并到HGEO中。还研究了使用HGEO的约束因素以及相关运营商的影响。最后，与其他相关算法相比，对HGEO的性能进行了充分研究，以找到半履带式气垫车辆（STACV）的最佳功耗。结果表明，HGEO比GA或其他相关的更简单算法具有更好的性能。

著录项

来源
《Applied Mathematical Modelling》 |2009年第6期|2831-2844|共14页
作者
Dong Xie; Zhe Luo; Fan Yu;
展开▼
作者单位

展开▼
收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
semi-track air-cushion vehicle; extremal optimization; optimal design; genetic algorithm;

机译：半履带式气垫车;极值优化;优化设计;遗传算法;

相似文献

外文文献
中文文献
专利

1. Optimal design and control of solar/electric/reduced fuel consumption (IC Engine) hybrid powered vehicle (SEFHPV) technology [J] . Balamurugan. T., Manoharan. S. International Journal of Sustainable and Green Energy . 2013,第3期

机译：太阳能/电动/降低油耗（IC引擎）混合动力汽车（SEFHPV）技术的优化设计和控制
2. Cloud computing-based real-time global optimization of battery aging and energy consumption for plug-in hybrid electric vehicles [J] . Zhang Yi, Liu Heping, Zhang Zhigang, Journal of power sources . 2020,第Deca15期

机译：基于云计算的实时全球优化电池老化和电能消耗的插件混合动力电动车辆
3. Optimal operation of an energy hub considering the uncertainty associated with the power consumption of plug-in hybrid electric vehicles using information gap decision theory [J] . Moghaddas-Tafreshi Seyed Masoud, Jafari Morteza, Mohseni Soheil, International Journal of Electrical Power & Energy Systems . 2019,第NOVa期

机译：基于信息间隙决策理论的插电式混合动力汽车功耗不确定性的能源枢纽优化运营
4. Pitch Control for a Semi-track Air-cushion Vehicle Based on Optimal Power Consumption [C] . Dong Xie, Cong Ma, Zhe Luo, SAE World Congress . 2009

机译：基于最优功耗的半轨道空腹车辆的俯仰控制
5. Design and Optimization of a Plug-In Hybrid Electric Vehicle Powertrain for Reduced Energy Consumption [D] . Oakley, Jared Tyler. 2017

机译：用于降低能耗的插件混合电动汽车动力系的设计与优化
6. Optimal power flow using hybrid firefly and particle swarm optimization algorithm [O] . Abdullah Khan, Hashim Hizam, Noor Izzri bin Abdul Wahab, 2020

机译：使用混合萤火虫和粒子群优化算法的最佳功率流量
7. Analysis of the Optimal Battery Sizing for Plug-in Hybrid and Battery Electric Vehicles on the Power Consumption and V2G Availability [O] . Van Roy Juan, De Breucker Sven, Driesen Johan 2011

机译：插电式混合动力汽车和电池电动汽车的最佳电池尺寸分析，基于功耗和V2G可用性
8. Intelligent Hybrid Vehicle Power Control - Part 1: Machine Learning of Optimal Vehicle Power. [R] . Murphey, Y. L., Park, J., Chen, Z., 2012

机译：智能混合动力汽车动力控制第1部分：最佳车辆动力的机器学习。

The Computing Of The Optimal Power Consumption For Semi-track Air-cushion Vehicle Using Hybrid Generalized Extremal Optimization

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅