混合自行车交通流下的自行车道通行能力估计

doi:10.13229/j.cnki.jdxbgxb201601010

Abstract

Abstract: The capacity is a key parameter in bicycle path planning, design and management. With the rapid development of electric bicycles (E-bikes) in China, the E-bikes and the bicycles share the conventional bicycle path, which leads to certain safety and efficiency issues. Five classic speed-density relationship models were introduced to build the speed-density relationship of mixed bicycle traffic flow. The bicycle path capacity was estimated using the flow-density relationship. Field data were collected from three bicycle paths in Hangzhou, China for calibration and validation. With 61% of E-bikes, the mean capacity of per meter width of the three paths is 2000 bicycles/h. Finally, the effects of riders' gender, age and E-bike proportion were analyzed. Results show that riders' gender and age have no significant influence on the path capacity, while there is significant linear correlation between E-bike proportion and bicycle path capacity.

Key words: transportation system engineering, electric bicycle, conventional bicycle, traffic capacity, speed-density relationship model

CLC Number:

U491

XU Cheng, QU Zhao-wei, TAO Peng-fei. Estimation of bicycle path capacity under mixed bicycle traffic flow[J].吉林大学学报(工学版), 2016, 46(1): 63-69.

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