交通运输系统工程与信息
交通運輸繫統工程與信息
교통운수계통공정여신식
JOURNAL OF COMMUNICATION AND TRANSPORTATION SYSTEMS ENGINEERING AND INFORMATION
2014年
4期
85-92
,共8页
岳园圆%于雷%朱琳%宋国华%陈旭梅
嶽園圓%于雷%硃琳%宋國華%陳旭梅
악완원%우뢰%주림%송국화%진욱매
城市交通%宏观交通状态指数%宏观基本图%快速路%车辆运行速度累积里程分布
城市交通%宏觀交通狀態指數%宏觀基本圖%快速路%車輛運行速度纍積裏程分佈
성시교통%굉관교통상태지수%굉관기본도%쾌속로%차량운행속도루적리정분포
urban traffic%macroscopic traffic conditions index%macroscopic fundamental diagram%ex-pressway%cumulative distribution of travel speeds
随着城市规模的不断扩大,快速路已成为支撑城市道路交通系统运行的重要部分。准确的快速路宏观交通状态评价是快速路交通管理的关键。本文以北京市西三环为例,引入交通流宏观基本图模型,设计了基于速度里程分布的快速路宏观交通状态指数(MTCI)。首先,利用RTMS数据,建立了宏观基本图模型。在此基础上,将快速路宏观交通状态划分为畅通、基本畅通、轻度拥堵、中度拥堵和阻塞五个等级。然后,利用浮动车数据建立了快速路车辆运行速度累积里程分布模型。通过关联宏观交通流状态与车辆运行速度累积里程分布,构造了基于速度里程分布的MTCI评价方法,并通过实例验证了该模型的适用性。
隨著城市規模的不斷擴大,快速路已成為支撐城市道路交通繫統運行的重要部分。準確的快速路宏觀交通狀態評價是快速路交通管理的關鍵。本文以北京市西三環為例,引入交通流宏觀基本圖模型,設計瞭基于速度裏程分佈的快速路宏觀交通狀態指數(MTCI)。首先,利用RTMS數據,建立瞭宏觀基本圖模型。在此基礎上,將快速路宏觀交通狀態劃分為暢通、基本暢通、輕度擁堵、中度擁堵和阻塞五箇等級。然後,利用浮動車數據建立瞭快速路車輛運行速度纍積裏程分佈模型。通過關聯宏觀交通流狀態與車輛運行速度纍積裏程分佈,構造瞭基于速度裏程分佈的MTCI評價方法,併通過實例驗證瞭該模型的適用性。
수착성시규모적불단확대,쾌속로이성위지탱성시도로교통계통운행적중요부분。준학적쾌속로굉관교통상태평개시쾌속로교통관리적관건。본문이북경시서삼배위례,인입교통류굉관기본도모형,설계료기우속도리정분포적쾌속로굉관교통상태지수(MTCI)。수선,이용RTMS수거,건립료굉관기본도모형。재차기출상,장쾌속로굉관교통상태화분위창통、기본창통、경도옹도、중도옹도화조새오개등급。연후,이용부동차수거건립료쾌속로차량운행속도루적리정분포모형。통과관련굉관교통류상태여차량운행속도루적리정분포,구조료기우속도리정분포적MTCI평개방법,병통과실례험증료해모형적괄용성。
With the continuous expansion of urban land, expressways have become key factors that support the entire urban road traffic operation. Accurate evaluation of traffic condition is the key of traffic manage-ment. This paper introduces the macroscopic fundamental diagram model and develops macroscopic traffic condition index (MTCI) based on speed-specific vehicle kilometers traveled (VKT) distributions by taking western 3rd ring-road expressway as an example. First, a macroscopic fundamental diagram model is estab-lished based on the RTMS data. Macroscopic traffic conditions on the expressway are classified into five lev-els (free-flow, near-free-flow, light congestion, moderate congestion, and severe congestion) based on the macroscopic fundamental diagram model. Subsequently, the speed spatial distribution model is designed us-ing the floating car data. Furthermore, associating macroscopic traffic conditions with the cumulative distri-bution of travel speeds on the expressway, this study develops the MTCI evaluation method based on speed-specific VKT distributions. Finally, the proposed model is tested and verified using the western 3rd ring-road expressways.
