换档控制是汽车自动变速技术中的重要部分。
Shift control is an important component of the automatic gearshift technique on vehicle.
为实现基于人-车-路闭环系统的智能换档控制创造前提。
It creates the premise for intelligent shift control which based on human-vehicle-road closed-loop system.
该系统可有效地分析自动变速箱换档过程的动态特性,并用于换档控制器的开发。
The simulation system can be used to analyze the dynamic characteristic of automatic transmission during gear shifting, and can be used for shift controller development.
客车轻便换档控制系统由两个机构组成:靠近司机的操纵机构和靠近车尾变速器的执行机构。
The control machine close to the driver and the execution machine close to the transmission on the back of bus.
干扰换档是自动换档控制中的一种常见现象,它是因油门开度信号急剧扰动所引起的一种有害换档。
Disturbed shift is a common phenomenon in the automatic shift, which is harmful to the transmission and is mainly caused by the disturbed signal of the accelerator-pedal position.
依据包含一双离分器变速箱的汽车动力传动系统的详细动力模型开发了一个集成的动力传动系的换档控制。
Based on a detailed dynamic model of an automotive powertrain containing a twin-clutch transmission, an integrated powertrain control for gearshifts is developed.
总之,本文对基于人-车-路闭环系统的AMT换档控制系统进行了深入的研究和设计开发,得到了许多认识和结论。
In a word, this paper has a deep research on the AMT shift control system which based on human-vehicle-road closed loop system, and lots of knowledge and conclusions have been obtained.
燃料电池车的整车控制策略包括能量分配策略,制动回馈策略和换档控制策略。这三者对整车燃料经济性的影响至关重要。
The vehicle's control strategies consist of power distribution between different energy sources, regenerative braking and gear shifting control, which have great effect on vehicle's fuel economy.
运用模糊控制理论,建立了由基本模糊换档策略和模糊修正模块组成的车辆模糊智能换档控制系统,以提高履带车辆的动力性和越野机动性。
An intelligent fuzzy shift control system composed of a basic fuzzy shift strategy and a fuzzy modification module was developed to improve dynamic conditions and cross-country maneuverability.
通过大家熟知的换档拨片可以实现半自动化换档,在这之后各种控制操作都被集中布置到离驾驶员手指尽量近的区域。
The introduction of semi-automatic gearchanges via the now familiar 'paddles' marked the beginning of the move to concentrate controls as close to the driver's fingers as possible.
本文介绍了遥控驾驶靶车牵引车速度控制系统的组成和工作过程,阐述了车辆自动换档和发动机转速调节的控制方法。
Structure and the working process of a remote control vehicle for target towing were presented. Methods of control in automatic gear shifting and engine speed modulation were described.
气候控制后续下来,就在短期扔坚持转变与主球换档把手。
Climate controls follow down, just ahead of the short throw stick shift with cue ball shift knob.
依据驾驶机器人的功能及技术指标,对离合、油门、制动机械腿及换档机械手进行了机械部分及控制部分原理设计。
Based on the robot driver technique index, the principle of machine movement and control parts of clutch, accelerator, brake leg, and clutch leg and gear shift arm has been designed.
实验结果表明,通过扭矩反馈闭环控制方法,可以减小变速箱换档的冲击。
It can be concluded that by way of torque feedback closed loop control, transmission shift shock can be reduced.
发动机空载工况的辨识在车辆动力传动系统仿真和车辆的起步、换档自动控制中起着重要的作用。
Important function is played by identification of engine no-load mode in simulation of power transmission system, starting and automatic shifting control of motor vehicle.
与传统控制方法相比,基于扭矩观测器的闭环控制系统能够明显降低换档过程中变速箱输出轴扭矩。
In contrast to traditional control method, the closed loop control system based on torque observer can obviously reduce the transmission output shaft torque during gear shift.
它能根据汽车状态判断当前的最佳档位并自动控制完成换档过程。
According to the state of the automobile, it can calculate the best gear and control the shifting pro - cess automatically.
推荐采用CVT换档速度控制的一种算法来改进金属推块无级变速器车辆的燃油经济性。
An algorithm to improve the fuel economy of a metal belt continuously variable transmission (CVT) vehicle by CVT shift speed control is suggested in the paper.
AMT在传统手动变速器的基础上融合了现在计算机技术和各种控制理论,基于驾驶员意图实现自动换档的自动变速系统。
Based on the traditional MT, AMT is an auto shift gears system just for the driver's purpose, which integrates modern computer and all kinds of control technology.
提出了车辆起步、换档过程中发动机转速控制目标,采用电子节气门进行发动机转速控制,实现了起步、换档时对发动机转速的自动控制。
The authors also put forward control aim of engine speed in the process of vehicle start and shifting, and automatic control to engine speed is realized by adopting electronic throttle.
最后,通过动力分析,确定了在换档过程中,系统各总成应采取的控制策略。
Finally, some control strategy for each assembly in the system including engine and transmission during shifting are discussed.
本文包括客车轻便换档执行控制系统硬件电路的设计、软件程序的设计,无线通讯的设计等。
This thesis is composed of the design of the execution machine control system's hardware circuit, the system's software and the wireless communication.
机械式自动变速器控制系统是由微处理机、换档规律、控制规律、机械式变速器、传感器、作动器和液压源等组成。
The mechanically automatic transmission control system mainly consists of microprocessor, shift pattern, control pattern, mechanical transmission, sensors, actuators and hydraulic power.
同时,对低负荷发电工况、换档过程发动机转速调整工况下混合动力汽车发动机转速控制策略进行了研究。
The control strategy of engine speed in low load electricity generating process and the shifting process was studied.
电子离合器压力控制使换档过程更平稳。
Electronic Clutch Pressure Contol makes shifting process much smoother.
电子选发器采用数码信号控制换档和电子开关选通,从而克服了机械选发器的弊端。
It adopts the digital code signal to control the gear changing and the states of the electric switch.
应用程序则实现了换档执行、离合器控制、自动选档以及面板显示等功能。
And the control application is characterized by shift operation, clutch control, auto level choice and panel display, etc.
木材和皮革装饰的三辐方向盘-具有音频和多信息显示控制-是由匹配换档把手补充。
The wood and leather-trimmed three-spoke steering wheel - featuring audio and multi-information display controls - is complemented by a matching shift knob.
该系统利用PWM信号控制直流电机,实现选换档过程的自动化。
This system used PWM signal to control the DC motors, realizing automation of gear selecting and shifting.
该系统利用PWM信号控制直流电机,实现选换档过程的自动化。
This system used PWM signal to control the DC motors, realizing automation of gear selecting and shifting.
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