At last, this paper tests intersection signal control system.
最后,实现了交叉口信号控制系统测试。
In this paper, an intersection signal control method using fuzzy logic is given.
该文给出了一种采用模糊逻辑进行路口信号灯控制的方法。
This paper presents single intersection signal control method based on multi-sensor information fusion technique.
本文介绍了基于多传感器信息融合技术的单交叉口信号控制方法。
Then, the calculation method of the basic elements of intersection signal control is proposed which included amber time and inter green time.
研究了有轨电车运行条件下的交叉口信号控制基本参数确定方法。包括黄灯时间、绿灯间隔时间。
The phase design of intersection signal control is the first problem to solve in intersection automation design, directly affecting the control project.
相位设计是信号控制交叉口进行配时设计时需要首先解决的问题,直接决定着控制方案的效果。
A novel general multi-phase signal control method was presented based on the idea of object - (oriented) design to increase the efficiency of intersection signal control.
为提高城市道路交叉路口信号控制的效率,采用面向对象的设计思想,提出了一种新的通用多相位信号控制策略。
The research is focused on the calculation of intersection signal control elements, isolated independent signal priority control of streetcar, coordinated signal priority control of streetcar.
论文研究的重点为有轨电车交叉口信号控制参数确定方法、交叉口单点在线优先控制方法、离线协调优先控制方法。
In order to study adaptive traffic signal control method, intersection delay should be carefully analyzed and calculated.
为了研究交通信号的自适应控制方法,需要对交叉口延误进行定量的分析与计算。
According to the characteristics, one kind of system was described that used real-time fuzzy and the timed control to carry out the dynamic control of the multiphase signal of isolated intersection.
针对这一特点,介绍了一种采用实时模糊和定时控制对单交叉口多相位信号进行动态控制的系统,并提出了一种改进的单交叉口多相位信号实时配时模型。
In order to optimize the coordinate signal control paraments, intersection delay should be carefully analyzed and calculated.
为了对干线交叉口信号协调控制参数进行优化,需要对交叉口延误进行定量分析。
Therefore, According to the fact, we exploitured the traffic signal control system of the grade intersection which is based on intelligent control technology to satisfy the current traffic demand.
所以结合实际,开发基于智能控制技术的平面交叉口的交通信号控制系统以满足当前的交通需要。
Prediction of traffic queues at signalized intersection provides important information for traffic signal control and management.
预测信号交叉口的排队长度可以为交通信号控制和管理提供非常重要的信息。
The signal control of the isolated intersection has two basic parameters: the cycle length and the green split.
单交叉口的信号控制的基本参数有两个:周期时长和绿信比。
When designing the signal control intersection, people often overlooked the influence of right-turn traffic.
在进行信号控制道路交叉口设计时,人们往往忽略了右转交通流的影响。
Next, the paper introduces the classifications and methods of traffic signal control, and stresses the main parameters and the estimation indexes of the signal control of isolated intersection.
紧接着介绍了交通信号控制的分类、方法,并着重讨论了单交叉路口信号控制的主要参数和评价指标。
This paper gives a bi system control method for the intersection traffic signal.
针对平面交叉路口的交通信号控制,提出了一种双系统控制策略。
The system can realize traffic signal control to signalized intersection with difference signal phase and coordinated control of traffic signals.
该系统能对不同相位的信号交叉口的信号进行控制,同时具有信号的协调控制功能。
Methods Using the fuzzy control rule of accurate estimated intersection delay to control intersection signal lamp will reduce the time vehicle delay on intersection effectively.
方法通过对车辆在交叉口延误时间的估算,制订模糊控制规则来控制交叉口的信号灯,能有效地减少车辆在交叉口的延误时间。
The multi-phase design is to organize the complicated traffic, and the fuzzy control strategy can adaptively adjust the signal timing to adapt the traffic change in the complicated intersection.
通过多相位设计对交叉口的复杂交通流进行了规划组织,模糊控制策略可以对绿灯配时进行适当的调整以适应交通状况的实时变化。
A fuzzy logic reasoning method is used to forecast traffic diversion volume and a fuzzy control algorithm is also applied to design the intersection signal setting of the route.
在实现方法上,应用模糊推理技术对分流交通量进行了预测,并设计了路线交叉口信号灯配时方案调整的模糊控制算法,模拟结果验证了模糊逻辑推理技术的有效性。
A fuzzy logic reasoning method is used to forecast traffic diversion volume and a fuzzy control algorithm is also applied to design the intersection signal setting of the route.
在实现方法上,应用模糊推理技术对分流交通量进行了预测,并设计了路线交叉口信号灯配时方案调整的模糊控制算法,模拟结果验证了模糊逻辑推理技术的有效性。
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