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³¤°²´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2018Äê04ÆÚ

Page:

71-79

Research Field:

½»Í¨¹¤³Ì

Publishing date:

Info

Title:

Operating speed model of passenger car at singleª²laneª¤entrance of interchange

Author(s):

ZHANG Chi;  GONG Quanª²li;  MA Xiangª²nan;  ZHANG Min;  QI Chen

(1. Key Laboratory for Special Area Highway Engineering of Ministry of Education, Chang¬ðan University,ª¤Xi¬ðan 710064, Shaanxi, China; 2. CCCC First Highway Consultants Co., Ltd., Xi¬ðan 710075, Shaanxi, China;ª¤3. Central and Southern China Municipal Engineering Design Institute Limited, Wuhan 430010, Hubei, China;ª¤4. School of Highway, Chang¬ðan University, Xi¬ðan 710064, Shaanxi, China)¡¼£Ê£Ú£©¡½¡¼HJ4mm¡½ª¤

Keywords:

traffic engineering;  operating speed model;  SPSS regression analysis;  ramp entrance;  triangle segment;  accelerate change lane segment

PACS:

-

DOI:

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Abstract:

The aim of this study was to determine the characteristics of a car¬ðs operating speed at a singleª²lane entrance of an interchange, and to calculate a running speed model of cars at the entrance of a freeway interchange£¬to ensure coordination of operating speed in the convergence section for improved vehicle safety. Based on the analysis of the measured data of passenger cars at the entrance of a single lane at an expressway interchange, the law of operation of a passenger car at the entrance was obtained. The speed of the passenger car at the entrance was collected in real time. The chain Kepler radar velocimeter was used to collect vehicle speed at entrance in real time. The feature points (including the starting point of the tapered section, diversion point, and the small nose point) of eight ramps were selected as the analysis sample for vehicle speed in the freeª²flow state. The Kª²S test was used to test the normal distribution of the samples. When the Kª²S test requirement was met, the speed and acceleration characteristics in the tapered section and deceleration section were analyzed£¬and the parameters of the independent variables were determined. Finally, SPSS software was used to perform the regression, and the operation speed prediction model of the passenger cars at the diversion point and the small nose points was developed. Then, the model was verified using data from four ramps. The results show that the running speed at the junction point is positively correlated with the velocity of the converging nose and the length of the triangle section, but negatively correlated with the reciprocal of the horizontal curve radius. The running speed at the end of the acceleration lane is positively correlated with the velocity of the converging nose and the length of the acceleration lane, but negatively correlated with the reciprocal of the horizontal curve radius. In addition, the predicted model was successfully tested using a regression equation, regression parameters, and average relative error checking. The relative error in the predicted value and measured value is less than 10%. The established regression model met the precision requirements. The results of the study are a good supplementary explanation of the relevant regulations of running speed of the standards in ª«Guidelines for Safety Audit of Highwayª« (JTG B05-2015). This study provides theoretical support and references for expressway safety evaluation and design. 9 tabs, 4 figs, ª©23 refsªª.

References:

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Memo

Memo:

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Common functions

Last Update: 2018-08-03