本文研究的目的是为了修改某轿车设计参数和优化操纵稳定性能。
The purpose of this study is to modify the parameters of a kind of car and optimize the Handling and Stability.
主要工作如下:第一,研究了复杂线路条件下基于再生制动的单车优化操纵问题。
The main work is as follows:Firstly, based on regenerative braking, the optimization operation theory for single train running in the complicated line is researched.
试验结果表明,该系统的安全监控环节工作可靠,优化操纵环节可以提高列车运行的正点率,并且节省燃油消耗。
The result of it shows the function of the supervisory control for safety is reliable, the economy of fuel consumption is obvious and the rate of on-time running of trains may be assured.
分析采用优化操纵策略对功能敏捷性的三种评估尺度(战斗周期时间、动态速率转弯图和相对能量状态)的影响。
Three functional agility metrics such as combat cycle time, dynamic speed turn plots and relative energy state are analyzed.
设计了一种基于RBF网络和遗传优化的船舶操纵模糊控制器。
A fuzzy controller for ship steering based on RBF networks and genetic algorithms is designed.
这样,把受控变量、操纵变量在同一个矩阵中描述出来,利于应用最优控制原理求解出优化的操作路径。
In this way, the controlled variables and operating variables can be described in the same matrix, using the optimal operating path solved by the principle of optimal control.
对于解决主动悬架的控制问题,最难以处理的是平顺性与操纵稳定性的多目标优化。
As to the controlling matter of the active suspension, the most difficult part is to achieve a multi-goal optimization of smoothness and operation stability.
提出了现代飞行控制系统的优化设计需考虑驾驶员的操纵行为和生理限制,才能进行人-机组合优化设计。
This paper proposes that it is necessary to concern the pilot's control behavior and human limits during the optimal design of modern flight controlling system.
仿真计算和道路试验均表明经过集成控制和集成优化设计后,汽车的行驶平顺性和操纵稳定性等综合动力学特性得到了改善。
The effectiveness of the proposed simultaneous optimization method to improve ride comfort and handling stability of vehicles is proved by theory analysis, simulation and test.
简述了基于近似模型的车辆操纵稳定性及平顺性的优化设计方法。
The optimized design method of vehicle's handling stability and ride comfort was introduced based on approximate model in this paper.
根据稳定状态船舶操纵运动非线性数学模型,通过优化计算求出操纵性特征曲线,以此作为船舶操纵性初步衡准依据。
This paper calculates the diagram of steering by using optimal method according to the nonlinear mathematical model of ship maneuverability.
右上方是调出专门为手指操纵优化过的主菜单的按钮。
Near the top of the right side we find the knob that launches the thumb-optimized Main menu.
右上方是调出专门为手指操纵优化过的主菜单的按钮。
Near the top of the right side we find the knob that launches the thumb-optimized Main menu.
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