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重庆市主城区交通信号控制对策研究
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作者 陈双 邓捷 刘权富 《交通标准化》 2012年第7期155-158,共4页
随着城市化建设的不断加快,交通拥堵现象越来越突出。以重庆市主城区道路交通为例,分析主城区的交通现状和交通信号控制存在的不足,提出改善交通信号控制的策略,并给出交通信号控制未来的发展方向,为山地城市解决交通拥堵问题提供一定... 随着城市化建设的不断加快,交通拥堵现象越来越突出。以重庆市主城区道路交通为例,分析主城区的交通现状和交通信号控制存在的不足,提出改善交通信号控制的策略,并给出交通信号控制未来的发展方向,为山地城市解决交通拥堵问题提供一定的参考。 展开更多
关键词 交通拥堵 交通信号控制策略 智能交通
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基于Paramics的城市道路复杂交叉口信号控制策略优化研究
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作者 杜健航 龚骏峰 黄忠洲 《科学技术与工程》 2011年第36期9099-9102,共4页
基于微观交通仿真平台Paramics,提出了一种针对城市交通路网中复杂交叉口信号控制策略效率评价系统的理论框架与实现方法。作为应用实例,以广州市海珠区的某复杂交叉口为研究对象,通过建立其几何精确的CAD模型,进行现场交通调查获取真... 基于微观交通仿真平台Paramics,提出了一种针对城市交通路网中复杂交叉口信号控制策略效率评价系统的理论框架与实现方法。作为应用实例,以广州市海珠区的某复杂交叉口为研究对象,通过建立其几何精确的CAD模型,进行现场交通调查获取真实OD的数据,进而建立其微观交通仿真模型。最后,通过加载不同的信号控制方案(包括现行的方案),并仿真分析各方案的运行效率,从理论上寻求最优的方案。实际应用结果表明,所建立的基于微观仿真的城市交叉口信号控制优化方法,能方便、有效、低成本地应用于实际交通工程中,为此类城市交通复杂问题的解决提供有益的理论参考。 展开更多
关键词 交叉口 微观交通仿真 PARAMICS 交通信号控制策略
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Impacts of Coordinated Traffic Signal Control Strategies and Bus Priority
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《Journal of Civil Engineering and Architecture》 2012年第1期81-92,共12页
Delay in signalized intersections may constitute a significant part of bus journey times in urban environment. Providing priority for buses at traffic signals can be an effective measure to reduce this delay. Bus prio... Delay in signalized intersections may constitute a significant part of bus journey times in urban environment. Providing priority for buses at traffic signals can be an effective measure to reduce this delay. Bus priority in Swedish urban traffic signal systems are normally coordinated with fixed time plan selection. Within this framework local traffic actuated signal timing adjustments are applied based on detector inputs aimed to reduce the number of vehicles in the dilemma zone. Active bus priority is also achieved with the aim to display green signal at the arrival of the bus to the stop line. Due to lack of knowledge of traffic performance impacts of these techniques a major research study was undertaken funded by the Swedish Road Administration. The aim was to evaluate the following control strategies using Stockholm as case study: (1) Fixed time coordination (FTC); (2) Fixed time coordination with local signal timing adjustment (FTC-LTA); (3) FTC-LTA with active bus priority (PRIBUSS); (4) Self-optimizing control (SPOT) with active bus priority. The methodologies for the study included field data collection using mobile and stationary techniques, offiine signal timing calculations with TRANSYT, microscopic simulation modeling using the HUTSIM model. The study obtained the following results: (1) Local traffic adjustment with the manual FTC reduced total delay by 1%. (2) Signal timings determined using TRANSYT reduced the average intersection delay by 9% compared to manual signal settings. (3) Local traffic adjustment reduced total delay by a further 5%. (4) Bus travel time was reduced by 11% using PRIBUSS, and 28% using SPOT. (5) Travel time for all vehicles did not increase using PRIBUSS, and was reduced by 6.5% with SPOT. Results of comparing PRIBUSS and SPOT to FTC-LTA were shown to be statistically significant. 展开更多
关键词 Bus priority traffic signals PRIBUSS SPOT FTC-LTA.
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