Evaluation of Single Lane Parallel-Type Entrance Ramp Terminal Using Vehicle Dynamics Model for Freeways

IF 0.5 Q4 ENGINEERING, CIVIL

Architecture Civil Engineering Environment Pub Date : 2023-03-01 DOI:10.2478/acee-2023-0006

Niousha Saremi, A. A. Kordani, M. Zarei, A. Kohansal

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Abstract

Abstract Providing an appropriate length of highway entrance ramps is an important feature that should be considered in freeway design. The recommended minimum acceleration lane length in the Green Book of the American Association of State Highway and Transportation Officials (AASHTO) is currently used for designing entrance ramp terminals. However, in some cases, traffic congestion and crashes are observed when heavy trucks enter freeways, which indicates they could not accelerate enough and did not reach the merge speed at the end of the acceleration lane. Therefore, several scenarios were simulated using a dynamic simulation model (TruckSim) for heavy vehicles with weight to power ratios of 61, 67, 86, and 108 (kg/kW) and grades of zero, ±3, and ±5%. Subsequently, a linear regression model was presented to calculate acceleration lane lengths. The results showed that the acceleration rate of heavy vehicles is not adequate, especially in upgrades. For example, at +5% upgrades, heavy trucks cannot accelerate to the merge speed mentioned in the AASHTO. Conversely, the acceleration rate of heavy vehicles increased in downgrades; therefore, some heavy vehicles were able to achieve merge speed along the proposed length of AASHTO.

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基于车辆动力学模型的高速公路单车道平行式入口匝道终端评价

提供适当长度的高速公路入口坡道是高速公路设计中应考虑的一个重要特点。美国国家公路和交通官员协会(AASHTO)绿皮书中推荐的最小加速车道长度目前用于设计入口匝道终端。然而，在某些情况下，当重型卡车进入高速公路时，会出现交通拥堵和撞车事故，这表明它们加速不够，没有达到加速车道尽头的合并速度。因此，使用动态仿真模型(TruckSim)对重功率比分别为61、67、86和108 (kg/kW)，等级为0、±3和±5%的重型车辆进行了几种场景模拟。在此基础上，建立了加速车道长度的线性回归模型。结果表明，重型车辆的加速速度不足，特别是在升级过程中。例如，在+5%升级时，重型卡车无法加速到AASHTO中提到的合并速度。相反，重型车辆的加速速率在降级中增加;因此，一些重型车辆能够沿着建议的AASHTO长度达到合并速度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Architecture Civil Engineering Environment ENGINEERING, CIVIL-

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