1) Human-Machine system of the naval ships
舰船人机系统
1.
Based on the structural characteristics of naval ships,the authors construct the hierarchy of factors dominating the integrated performance,and by applying AHP method the authors give a safety assessment of the Human-Machine system of the naval ships.
根据海军舰船的结构特点,构造了综合性能影响因素的层次结构,并采用AHP方法对舰船人机系统进行了安全评价,建立了舰船人机行为的综合评价模型,在此基础之上实现了舰船人机系统的模糊综合评判,具有一定的实用性。
2) ship system
舰船系统
1.
The home-made PDP display devices used in ship system are described.
结合国产PDP产品在舰船系统中的应用情况,介绍了PDP显示器的特点,舰船系统对显示器的要求以及接口电路、通讯协议、电磁兼容等方面的设计考虑。
3) warship power system
舰船电力系统
1.
Numerical analysis of chaos movement of warship power system;
舰船电力系统混沌运动的数值分析
2.
Based on robust H_∞control theory, the calculation model of warship power system in three-generator case has been proposed and built.
基于鲁棒H∞控制的方法,提出并建立了3台发电机并联运行工况下舰船电力系统的数学模型。
4) shipboard power system
舰船电力系统
1.
Network reconfiguration of shipboard power system based on objective function of minimum switch times
开关动作次数最少目标函数的舰船电力系统重构
2.
Shipboard power system fault restoration tests show that better service restoration can be provided by this method.
针对舰船电力系统的网络重构,建立了故障恢复的离散模型。
3.
To deal with problems of shipboard power system service restoration,the paper presents a new chaos genetic algorithmaccording to the service restoration’s request of speediness.
为了解决舰船电力系统故障恢复的问题,根据故障恢复快速性的要求提出了一种新的混沌遗传算法,尝试改进遗传算法,采用遗传算法代替混沌优化算法中的"细搜索";同时用混沌优化算法中的"粗搜索"来初始化遗传算法的种群,以保证初始种群含有较丰富的模式,从而增加搜索快速收敛于全局最优解的可能。
5) ship power system
舰船电力系统
1.
Mathematical modeling of ship power system based on nodal equations;
基于节点方程的舰船电力系统数学建模
2.
Reliability and safety of ship power system are vitally important, which can largely the affect the survivability of ships.
舰船电力系统关系着舰船的生命力,而随着舰船电力系统容量的增加和可靠性要求的提高,使用限流保护技术已成为舰船电力系统保护的必然趋势。
3.
Taking the generator subsystem as an example of the general ship power systems,comprehensive fuzzy analysis and fuzzy evaluation for its operational state are carried on.
为评价舰船电力系统发电机组运行状态,对舰船电力系统发电机组进行多层目标模糊分解;利用突变理论描述发电机组的运行状态,从而对其运行状态进行模糊综合分析和评价。
6) warship electric power system
舰船电力系统
1.
The brittle analysis of the warship electric power system based on the FAHP;
基于FAHP的舰船电力系统脆性分析
2.
In order to analyze brittleness and improve reliability of complicated warship electric power system,the brittleness entropies,including self-changing entropy,brittleness relative entropy and negative entropy,are defined based on entropy theory.
为了分析复杂舰船电力系统的脆性,提高系统的可靠性,以及评价系统的脆性程度,基于熵理论,给出了包括系统自身熵变、脆性联系熵、负熵的舰船电力系统脆性熵的定义,以及舰船电力系统的脆性概率熵、脆性综合概率熵、脆性风险熵和脆性综合风险熵的定义。
补充资料:计算机输入/输出控制系统(见计算机输入/输出系统)
计算机输入/输出控制系统(见计算机输入/输出系统)
computer input/output control system
iisuanii shuru/shuehu kongzhi xitong计算机输入/输出控制系统(com-puter inPut/ou中ut eontrol system)见计算机输入/输出系统。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条