考虑到所有这些安全运用自动化交通运输系统的经验,开发由自动控制操纵的公路车辆算不上什么大的飞跃。
Given all of this experience in implementing safe automated transportation systems, it is not such a large leap to develop road vehicles that can operate under automatic control.
当越来越多的汽车具有在危险状况下辅助司机驾驶,甚至自动控制驾驶的新特性之后,也许我们应该重新考虑现行的交通规则了。
As more cars acquire features that can assist a driver in a dangerous situation, or even take control, the rules of the road may need rethinking.
目前我们想把这种方法用在自动汽车(自动控制的交通工具)的定位系统上,是一种用来进行结构测试的设备。
We are currently looking to apply these methods to the positioning of robotic vehicles, which are used for structural testing.
目前,在医疗诊断、工业自动检测与控制、智能机器人、交通、通讯、地质等领域,计算机图像处理技术己经得到了广泛应用。
Presently, this technology has been widely applied to many fields, such as medical diagnoses, industrial automatic measuring and control, intelligent robot, transportation, communication and geology.
如今,自动控制技术已经广泛应用于工业、农业、交通、航空和航天等众多产业部门,极大提高了社会劳动生产率,改善了人们的劳动条件。
Now automatic control technologies have been widely used in industry, agriculture, traffic, aviation, aerospace and so on, which have raised working efficiency and improved labor condition.
百度人工智能部的曹海涛(音译)在接受新华社采访时称,百度也正在开发能够分析交通流量、自动控制驱动的无人驾驶车。
Baidu is also developing driverless cars, which can analyze traffic flow and control their *maneuvers automatically, Cao Haitao of Baidu's artificial intelligence unit told Xinhua.
介绍了应用PLC实现交通信号灯的自动控制。
In this paper, the traffic light automatic control system with PLC is introduced.
该体系由自动收费交通控制管理网络和银行清算辅助网络组成;
The system consists of Traffic Management Control Network and Bank Account Network .
该系统包括车辆自动导航和控制、交通管理自动化以及事故处理自动化。
The system includes vehicle automatic navigation and control, traffic management automation and traffic accident treatment automation.
本文通过实际的考察和参考真实的控制要求,利用可编程控制器来实现交通灯的自动控制。
This article first through the actual inspection and the reference real control request, USES the programmable controller to realize traffic light's automatic control.
对基于元胞自动机的交通流动力学模型和动态交通控制模型进行了综述。
Secondly, the paper summarized the traffic flow dynamics model and dynamic traffic control model based on Cellular Automata.
交通灯控制系统通常要实现自动控制和手动控制其红绿灯的变化,基于FPGA设计的交通灯控制系统电路简单、可靠性好。
The traffic light control system usually must realize the automatic control and the hand control. The traffic light control system based on FPGA is simple and reliable.
针对酒后驾车导致交通事故频繁发生的现象,设计了一种能够防止酒后驾驶的自动控制系统。
Aimed at the increasing accidents caused by drunk driving, a anti drunk-driving control system is designed.
采用元胞自动机模型研究了具有信号灯控制的主道为双车道的入匝道系统交通流特性。
The traffic signal is setup at the merging part between the main road and the on-ramp so that it can control the vehicles of both roads.
本文介绍了一种基于电子工作台(ewb)软件设计交通信号灯自动定时控制系统的方法,说明了计算机仿真软件在电子实验中的效用。它改变了传统的设计方法。
The paper presents a method of simulation on auto-timing system of traffic lights based on EWB, which has changed the traditional design method, and illustrates the method of design and simulation.
洛杉矶早在筹备1984年奥运会期间,便安装了最早的动态交通信号系统,现在该系统被称为“自动交通监控和控制系统”。
Los Angeles installed one of the earliest such systems, now known as the Automated Traffic Surveillance and Control system, in preparation for hosting the 1984 Olympics.
在交通控制系统管理中,交通事件的自动检测是目前最具代表性的智能化管理手段。
In the traffic control system management, traffic incident automatic detection is the most representative intelligent management means.
公司的业务主要集中于6大领域:信息和通讯、自动化和控制、电力、交通、医疗系统和照明。
The company's business focuses on six major areas: information and communications, automation and control, power, transportation, medical systems and lighting.
本文提出了城轨交通列车运行自动控制(atc)仿真系统的设计方案,阐述了AT C仿真软件的结构设计、功能设计和模块设计,并给出了一种系统实现方案。
This article provides a whole design project of ATC simulating system, and presents the framework, the function and the module of ATC simulating software.
介绍一种技术性能比较先进的交通信号控制机,这种信号机不仅能够自动地进行多时段控制,还可以接入网络实现在线控制;电路设计采用模块式的电路结构,可根据用户的功能需要增减模块电路。
This paper introduces an advanced traffic signal controller, which can not only implement multi-time block control, but also can be connected with network in order to realize on-line control.
车辆自动控制技术是交通自动化的一项重要组成部分和难点,它主要包括汽车的纵向控制、横向控制、自动驾驶和车列控制。
One important aspect of ITS is the advanced automotive automatic control technologies including longitudinal control, lateral control, automatic driving and platoon control.
车辆自动控制技术是交通自动化的一项重要组成部分和难点,它主要包括汽车的纵向控制、横向控制、自动驾驶和车列控制。
One important aspect of ITS is the advanced automotive automatic control technologies including longitudinal control, lateral control, automatic driving and platoon control.
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