Journal of Jilin University(Engineering and Technology Edition) ›› 2022, Vol. 52 ›› Issue (3): 550-556.doi: 10.13229/j.cnki.jdxbgxb20210258

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Two-phase signal intersection delay based on three crossing modes

Tian-jun FENG1,2(),Xue-lu SUN1,Jia-sheng HUANG1,Xiu-juan TIAN1,2(),Xian-min SONG3   

  1. 1.School of Transportation Science and Engineering,Jilin Jianzhu University,Changchun 130118,China
    2.Engineering Research Center of Traffic Disaster Prevention and Control in Cold Region,Jilin Jianzhu University,Changchun 130118,China
    3.College of Transportation,Jilin University,Changchun 130022,China
  • Received:2021-03-29 Online:2022-03-01 Published:2022-03-08
  • Contact: Xiu-juan TIAN E-mail:68202791@qq.com;1178643296@qq.com

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Abstract:

To find the way of crossing intersections efficiently with the least delay per capita at two-phase intersection, three delay models of non-motor vehicle such as traditional crossing, second crossing and motor vehicle parking line moving backward are established by arrival-departure curve and Webster motor vehicle delay model. The relationship between per capita delay of three kinds of non-motor vehicle crossing the street and the traffic flow is described by taking the per capita delay the discriminant criteria. By contrasting average delay of three kinds of motor vehicles crossing street and taking the minimum delay as the optimum crossing way, the critical value of the traffic flow is obtained, which can provide the reference for choosing valuable way of non-motor vehicles crossing the intersection.

Key words: engineering of communication and transportation system, non-motor vehicles, crossing intersection, delay analysis, delay model

CLC Number: 

  • U491

Fig.1

Schematic diagram of traditional street crossing"

Fig.2

Schematic diagram of backward shiftof motor vehicle parking line"

Fig.3

Schematic diagram of crossing street twice"

Fig.4

Arrival and release curve of non-motor vehicles after moving down the parking line"

Fig.5

Arrival and release of non-motor vehiclesunder the mode of two crossings"

Table 1

Delay analysis table(qc=500 pcu/h)"

非机动车到达率qb/(bike?h-1传统过街停车线后移二次过街
d1/sLd/md2/sd3/s
13008.57--10.54
16009.32--11.59
190010.30--12.93
220011.61--14.67
250013.402.4010.4517.01
280015.953.3912.1520.30
310019.784.8714.8125.20
340026.137.3219.3233.23
370038.2712.1028.0048.48

Table 2

Delay analysis table(qc=700 pcu/h)"

非机动车到达率qb/(bike?h-1传统过街停车线后移二次过街
d1/sLd/md2/sd3/s
13008.92--11.02
16009.61--11.96
190010.53--13.18
220011.78--14.80
250013.502.4012.8417.01
280015.953.3914.7120.12
310019.664.8717.7224.81
340025.827.3222.7832.52
370037.6212.1032.5547.20

Table 3

Delay analysis table(qc=900 pcu/h)"

非机动车到达率qb/(bike?h-1传统过街停车线后移二次过街
d1/sLd/md2/sd3/s
13009.42--11.94
160010.07--12.77
190010.95--13.88
220012.15--15.38
250013.822.4015.5917.46
280016.213.3917.7220.45
310019.864.8721.0724.97
340025.917.3226.7632.46
370037.5212.1037.7846.76

Table 4

Delay analysis table(qc=1100 pcu/h)"

非机动车到达率qb/(bike?h-1传统过街停车线后移二次过街
d1/sLd/md2/sd3/s
130010.08--13.41
160010.69--14.13
190011.54--15.12
220012.72--16.50
250014.362.4018.9618.46
280016.743.3921.3421.33
310020.354.8725.1125.74
340026.377.3231.5533.10
370037.9412.1044.0247.20

Table 5

Traffic flow at intersection"

入口

方向

高峰时段流量平峰时段流量低峰时段流量
qc/(veh?h-1qb/(bike?h-1qc/(veh?h-1qb/(bike?h-1qc/(veh?h-1qb/(bike?h-1
东进口962283355622573571086
西进口957272460721172961127
南进口106829186832209328968
北进口1035295462719034031035

Table 6

Per capita delay at intersections in each periods"

时段传统过街d1停车线后移d2二次过街d3
高峰17.920.221.6
平峰11.910.115.0
低峰8.06.69.8
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