西南交通大学学报
西南交通大學學報
서남교통대학학보
JOURNAL OF SOUTHWEST JIAOTONG UNIVERSITY
2015年
2期
354-360
,共7页
杨庆芳%马明辉%梁士栋%李志林
楊慶芳%馬明輝%樑士棟%李誌林
양경방%마명휘%량사동%리지림
高速公路%瓶颈区域%可变限速控制%元胞传输模型%优化控制模型
高速公路%瓶頸區域%可變限速控製%元胞傳輸模型%優化控製模型
고속공로%병경구역%가변한속공제%원포전수모형%우화공제모형
freeway%bottleneck area%variable speed limits control%cell transmission model%optimal control model
针对高流量条件下高速公路主线瓶颈路段交通流运行态势恶劣导致通行效率降低的问题,从高速公路瓶颈路段交通流时空特性出发,对元胞传输模型进行扩展,使其能够对瓶颈路段和可变限速条件下交通流运行情况进行描述;在此基础上,构建可变限速控制模型,并采用阶梯限速控制方法对主线交通流进行控制,防止限速路段车辆排队上溯影响上游匝道车辆的正常通行.算例仿真结果表明:本文提出的瓶颈区域可变限速阶梯控制方法能够有效缩短车辆行程时间,在可变限速条件下,与无控制和仅单路段主线控制相比,车均延误分别减少了13.78%和1.60%.
針對高流量條件下高速公路主線瓶頸路段交通流運行態勢噁劣導緻通行效率降低的問題,從高速公路瓶頸路段交通流時空特性齣髮,對元胞傳輸模型進行擴展,使其能夠對瓶頸路段和可變限速條件下交通流運行情況進行描述;在此基礎上,構建可變限速控製模型,併採用階梯限速控製方法對主線交通流進行控製,防止限速路段車輛排隊上溯影響上遊匝道車輛的正常通行.算例倣真結果錶明:本文提齣的瓶頸區域可變限速階梯控製方法能夠有效縮短車輛行程時間,在可變限速條件下,與無控製和僅單路段主線控製相比,車均延誤分彆減少瞭13.78%和1.60%.
침대고류량조건하고속공로주선병경로단교통류운행태세악렬도치통행효솔강저적문제,종고속공로병경로단교통류시공특성출발,대원포전수모형진행확전,사기능구대병경로단화가변한속조건하교통류운행정황진행묘술;재차기출상,구건가변한속공제모형,병채용계제한속공제방법대주선교통류진행공제,방지한속로단차량배대상소영향상유잡도차량적정상통행.산례방진결과표명:본문제출적병경구역가변한속계제공제방법능구유효축단차량행정시간,재가변한속조건하,여무공제화부단로단주선공제상비,차균연오분별감소료13.78%화1.60%.
The traffic flow operation at bottleneck sections on freeway mainlines is usually deteriorated by heavy traffic load,resulting in an increase in travel time and a decrease in traffic efficiency. By analyzing the space-time characteristics of the traffic flow at bottleneck sections on freeway mainlines, the cell transmission model was expanded to describe the traffic flow in the bottleneck area under variable speed limit (VSL)control. On this basis,a VSL control model for bottleneck region was established,and stair-like strategies were proposed to prevent the long queue from interrupting the vehicles operation at upstream on- and off-ramps. The proposed methods were tested through a case study,and the results demonstrate that the proposed stair-like strategies for VSLs can effectively reduce the travel time and decrease the average delay. Compared with no control and the strategy of using mainline control on single sections,the proposed strategies can reduce the average delay by about 13. 78% and 1. 60%,respectively.