suspension stability control 中文意思是什麼
suspension stability control
解釋
懸掛穩定性控制- suspension : n 1 懸吊,懸掛;懸垂;懸架吊架。2 中止,停止;停止支付[宣判,處刑];停職,停學,停權。3 懸置,保...
- stability : n. 1. 穩定,穩定性,穩度。2. (船等的)復原力。3. 鞏固;堅定,持久不變。
- control : n 1 支配,管理,管制,統制,控制;監督。2 抑制(力);壓制,節制,拘束;【農業】防治。3 檢查;核...
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Secondly, the mixed h2 / h control is formulated as a game problem of incomplete information, a suboptimal 2x2 non - zero game model is constructed, where two channels are chose as players and h2 and h control are pure strategies, and an algorithm for mixed h2 / h control, which is based on the nash ' s bargaining theory, is derived to achieve the nash equilibrium point. finally, handling stability, ride comfort and steering handiness are related with vehicle suspension system and electrical power steering
其次,基於對策論把h _ 2 h _混合控制問題抽象為兩個對局者信息不完全情況下的非零和博弈模型,在以次優范數值構造的2x2非零和博弈模型中把兩類通道作為參加博弈的兩方,以h _ 2和h _控制方案作為兩種純策略,基於納什談判解原理設計出求解h _ 2 h _混合控制問題納什均衡點的演算法。 -
Compared with the passive car suspension, the semi - active car suspension system with the intelligent mr damper can control the damping force automatically with the computer control and then enhance the ride comfort and handling stability of the car effectively
與傳統的汽車被動懸架系統相比,裝有磁流變阻尼器的半主動懸架系統,可以根據路面狀況和車輛運行狀態,在計算機的控制下自動調節阻尼力,大大提高了汽車乘坐的舒適性和行駛安全性。 -
At present, semi - active control suspension systems have received a great deal of attention in academe and industrial circles to improve ride comfort and road holding and handling stability
近年來,應用半主動控制懸架系統提高車輛的乘座舒適性和操縱穩定性的研究受到了學術界和工業界的廣泛關注。 -
The maglev train do not contact with guide way, and generally trestles are used as levitation guide way, so the dynamics character of maglev is more complex than that of traditional wheel - rail. the main problems include stability of suspension and guidance control and coupled vibration of vehicle - rail
因為磁懸浮列車與軌道無接觸,而軌道又往往採用高架橋梁,所以其動力學特性比起傳統輪軌列車要復雜得多,主要有懸浮、導向穩定性和車軌耦合振動等問題。 -
The magnetic suspension momentum wheel has better performance than the conventional ball bearing momentum wheel, and one gimbaling magnetic suspension momentum wheel whose rotation axis can be deflected can perform three axes attitude stability and control of spacecraft in high precision
採用磁懸浮軸承支撐的飛輪比傳統滾珠軸承飛輪有著更高的性能,而具有框架功能的單個轉軸可偏置磁懸浮飛輪就可以實現航天器的高精度三軸姿態穩定控制。 -
On the basis of analyzing the result of the test, we have improved the structure of the damper and revised the systematic model. we have experiments on the damper to test its damping performance. comparing with the simulation force - displacement curves, we gave an explanation of why the factual force - displacement have aberrances, which gave warrants to the parameter design and structure ' s improvement. we found the state equation of the semi - active suspension on the semi - active adaptive control strategy and use computer simulations to compare the passive suspension structure and er semi - active suspension. computer simulations indicate that er semi - active suspension have greatly improved driving smoothing and control stability. at the same time semi - active suspension is of simple structure and low cost. so in the long run, the semi - active suspensions may have wider application
在對試驗結構進行分析的基礎上,改進了減振器的結構,修正了系統的模型;對自適應減振器性能進行了大量的測試,通過與模擬結果比較,分析了造成示功曲線局部畸變的原因,為機構及其參數設計以及改進提供了依據;基於振動半主動自適應控制策略,建立了半主動懸架系統的狀態方程,並且進行了模擬,從而得出與被動懸架結構相比,採用電流變流體減振器的半主動懸架在汽車行駛平順性和操縱穩定性上均有較大的改善,性能大為提高。 -
The design of vehicle suspension system must be adapted to the requirement of the ride comfort and the control stability. it ' s difficult for traditional passive suspension to enhance the ride comfort. however, semi - active suspension can meet the ride comfort well because its suspension parameters such as damp coefficient or spring firmness can be adjustable
車輛懸架系統的設計必須適應行駛平順性和操縱穩定性的要求,傳統的被動懸架系統已無法從結構設計上使車輛具有良好的平順性,而半主動懸架由於其懸架參數如阻尼、彈簧剛度等具有可調性,使得它可以很好地滿足車輛行駛過程的需要,同時與主動懸架相比,由於工作中幾乎不消耗發動機的功率,結構簡單,造價較低,因此受到車輛工程界的廣泛重視。 -
Authors put forward the active suspension system ( ass ) to replace the passive suspension system with poor side tumbling stability, and through the roll motion analysis, establish the model of passive suspension system, ass and the control system
摘要針對被動懸架系統側翻穩定性比較差的問題,提出採用主動懸架系統的方法進行改善。 -
Second, based on the characteristic of handling - stability performance and the santana structure. the parameter 3d model of vehicle is success created, which includes suspension, steering, tire etc. according to the mechanism of adams closed - loop control, the closed - loop experiments are designed. dynamic simulation is realized and the simulate data is used to realize virtual experiment
其次,根據車輛的操縱穩定性能以及桑塔納轎車結構的特點,利用adams成功建立了包含懸架系統、轉向系統以及輪胎等結構的參數化三維實體結構整車模型,根據adams的閉環模擬控制原理,對整車模型進行了閉環模擬分析以及可視化處理,為虛擬試驗提供模擬數據。
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