简而言之,奔驰的E级轿车可以很好的诠释智能汽车这一定义:可以进行良好的自我控制,可以调整车体以适应路面,和其他车辆良好沟通,并且可以预见驾驶者和行人的各种行为并作出反应。
In short, the E-Class embodies what it means to be a smart car: to communicate well with itself, the road and other cars, plus anticipating and responding to the needs of the driver and passengers.
这些数据输入到人工智能软件中,从而操控导航这些已经有过14万英里驾驶里程(其中只掺杂着偶尔的人工控制)的自动驾驶车辆。
These are then fed into the artificial-intelligence software that guides the autonomous vehicles, which have clocked up some 140, 000 miles with only occasional human control.
提出了一种智能车辆的路径跟踪横向控制系统。
A lateral control system for the path tracking of intelligent vehicles is proposed.
针对智能车辆油门控制系统,提出了一种单神经元模型参考自适应控制算法。
Focusing on the throttle control system of intelligent vehicle, a model reference adaptive SN-PID controller is presented.
多智能车辆协作的体系结构是实现协作的基础,也是集成协作中的决策与控制的框架。
The coordination architecture is not only the basis of the coordination of multiple intelligent vehicles, but also the framework for integrating control and decision-making of the coordination.
司机可通过模式开关选择希望的驾驶模式,实现对车辆的智能控制。
The driver can select expected drive mode by switch to realize the intelligent control of automobile.
提出了一种智能车辆转向控制模型。
A steering control algorithm for intelligent vehicle is presented in this paper.
自动变速控制是现代汽车的一项重要技术,也是智能车辆的基本功能。
The automatic shift control is not only an important technique used in modern vehicles, but also one of the basic functions in coming intelligent vehicles.
进一步阐述了智能交通系统中的先进车辆控制技术。
The advanced automotive automatic control technologies in ITS are further expounded.
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.
在此分析的基础上,本文借助多智能体技术,给出了多应急车辆信号优先控制系统结构。
On the basis of previous analysis, this paper using multi-agent technology establishes mutiple emergency vehicles signal priority control system structure.
仿真结果表明,将仿人智能模糊控制方法应用于工程车辆智能变速系统具有可行性。
Simulation results show the feasibility of the application of human simulating intelligent fuzzy control method on intelligent gear shift system of construction vehicles.
该控制策略通过模拟交通指挥者实际进行交通控制的特点,使控制系统能够实时根据各相位车辆的多少进行信号的智能控制。
Through imitating the ways of traffic police managing the traffic, this signal control strategy has the ability of intelligent phase controlling in the light of the real traffic flow.
仿真研究表明:该控制算法能够大大减少车辆延误时间,是进行城市智能交通控制的一种实用且行之有效的方法。
The simulation result indicates that the control algorithm can greatly reduce vehicle delay, it is a practicable and useful method for urban intelligent traffic control.
通过对机动车辆防盗报警装置使用可靠性的研究,设计了一种基于单片机控制的新型智能防盗报警器。
Through studying on the dependability of warning device of motor vehicle, a new-type burglar alarm controlled by one-chip computer has been developed.
介绍了模糊控制理论与智能分析技术在阜阳车辆段研制的列车制动充风过程中以及在制动机故障分析中的应用情况。
Described are the application of the fuzzy control theory and intellectual analysis technology in the train brake charging process and in the analysis of the brake troubles in Fuyang Depot.
智能车辆纵向控制是避免车辆碰撞,减少交通事故发生的有效措施。
Study on Intelligent Vehicle longitudinal control is an effective method on avoid crash and reduce traffic accident.
移动机器人的智能控制技术是基于机器视觉的移动机器人与智能车辆自主导航的关键技术之一。
Intelligent control method is a key technique for machine vision based mobile robot and autonomous land vehicle navigation.
介绍了机器视觉在辅助导航系统、自适应巡航控制系统等智能车辆中的应用。
Then some applications of computer vision are discussed in the orientation assistance navigation system, the self-adapted cruise control system, etc.
综合概括区域智能交通车辆研究中涉及的关键技术,重点介绍了导航控制技术、传感器信息融合技术及通信技术。
The development and key technologies of CyberCars System are presented, putting emphases on the technologies of navigation and control, sensor information fusion and communications.
这将是一个智能保险杠,能伸展,触碰前面的车辆,是信息交换系统的中心,及时对车辆进行控制。
This would be an intelligent bumper that would extend to touch the car in front, should the main communication system break down.
智能车作为一项综合性学科的产物,涉及人工智能、计算机视觉、机械设计、控制科学和车辆工程等。
As a product of comprehensive discipline, iv involve AI, computer vision, mechanical design, control science and vehicle engineering, etc.
目前对车辆智能减振控制的研究基本上是通过建立其数学模型,然后利用MATLAB软件仿真,得到设计的控制器的最终减振效果。
Up to now, the study of intelligent absorbed-shock control of vehicle is almost based on math-model, and then get the effects of the designed shock-absorber by MATLAB software.
仿真结果表明蚁群算法与模糊控制相结合的智能控制技术,更有效地降低通行车辆在交叉口的平均延误时间,更能适应复杂多变的交通环境。
The results indicates the algorithm can effectively reduce the average delay time of vehicles in the intersection, Correspondingly enhance the passing capacity of the intersection.
本文利用M-矩阵理论,应用微分不等式以及拓扑学等有关知识,通过构建向量李雅普诺夫函数,研究了三类时间滞后大系统的指数稳定性以及智能交通系统中车辆纵向跟随控制问题。
The global exponential stability of a class of linear interconnected large scale systems with time delays was analyzed based on M matrix theory and by constructing a vector Lyapunov function.
本文利用M-矩阵理论,应用微分不等式以及拓扑学等有关知识,通过构建向量李雅普诺夫函数,研究了三类时间滞后大系统的指数稳定性以及智能交通系统中车辆纵向跟随控制问题。
The global exponential stability of a class of linear interconnected large scale systems with time delays was analyzed based on M matrix theory and by constructing a vector Lyapunov function.
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