空气悬架系统是以空气弹簧作为弹性元件的悬架总称。
Air suspension system is a generic term for the suspensions which make air spring as its elastic element.
然后运用模糊控制器对汽车空气悬架系统进行了模糊控制;
The suspension was controlled based on fuzzy controller for the vehicle suspension.
空气悬架系统是保证厢式半挂车行驶平顺性的重要组成部分。
Air suspension is an important component for ensuring the ride comfort of a van semi-trailer.
空气悬架系统以空气弹簧为弹性元件,利用气体的可压缩性实现其弹性作用。
The elastic element of air suspension system is air spring. Air spring utilize the compressibility of air to realize its elasticity.
对于悬架系统的检测单元,设计了空气悬架加速度传感器驱动电路。
Drive circuit used for acceleration transducer has been designed for testing unit of suspension system.
基于空气悬架振动控制系统为复杂的非线性系统,本文采用了不依赖于被控对象精确数学模型的模糊控制策略进行空气悬架控制器的设计。
In the paper, with complex nonlinear of vehicle air suspension control system, fuzzy control theory without mathematical precise model was applied to design the air suspension controller.
由于空气弹簧的非线性,所以采用神经网络控制调节空气弹簧的刚度,以期使悬架系统达到理想的减振效果。
Considering nonlinear rigidity of spring element, this dissertation use neural network control strategy to control semi-active suspension.
由于空气弹簧的非线性,所以采用神经网络控制调节空气弹簧的刚度,以期使悬架系统达到理想的减振效果。
Considering nonlinear rigidity of spring element, this dissertation use neural network control strategy to control semi-active suspension.
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