期刊文献+

城市轨道交通车厢内拥挤成本的估计方法 被引量:5

Estimation method of crowding cost in urban rail transit carriages
原文传递
导出
摘要 应用离散决策分析法与条件价值法,设计了双边界二分式调研问卷,计算了考虑拥挤度的轨道交通出行总成本;通过延长车厢内乘客出行时间的方式来换取车厢内乘客密度的减少,从而得到车厢内不同拥挤度下的等价出行效能;通过调研得到乘客对两轮投标的选择概率;分别采用双变量Probit估计量和随机效用估计量来推断时间边际负效用的标准化值,得到时间乘数,进而估计乘客的延时意愿和支付意愿;基于2015~2016年北京地铁1号线和5号线具有代表性的15个车站站台调查获得的数据,对轨道交通车厢内6种拥挤度下的时间乘数进行线性回归分析。研究结果表明:车厢内的乘客密度和时间乘数存在线性关系,而改善后的车厢内拥挤度和广义成本呈反比例关系;出行者支付意愿随车厢拥挤度的减少而增加,当车厢拥挤度由5人·m^(-2)改善为4人·m^(-2)时,早、晚高峰时段的支付意愿分别为1.58元和3.02元,当车厢拥挤度由5人·m^(-2)改善为3.5人·m^(-2)时,早、晚高峰时段的支付意愿分别为2.47元和4.99元,因此,晚高峰时段出行者的平均支付意愿达到早高峰时段的2倍左右,不同时段出行者对改善拥挤度的支付意愿存在显著差异。 The discrete choice analysis and contingent valuation method were used to design a double-bounded dichotomous questionnaire to calculate the total generalized cost of rail transit, including the crowding degrees. The passenger densities in the carriage was reduced by extending the travel time of passengers in the carriage, and the equivalent travel efficiencies were obtained under different crowding degrees in the carriage. The passengers' choice probability for two rounds of bidding was obtained from the questionnaire feedback. The bivariate probit estimators and random utility estimators were used to deduce the standardized value of the time marginal disutility, and then the time multiplier was obtained to estimate the passengers' willingness to travel longer and the willingness to pay. Based on the data obtained from the survey of 15 representative platforms of Beijing Metro Lines 1 and 5 in 2015-2016, a linear regression analysis was made for the time multiplier under six crowding degrees in the rail transit carriage. Analysis result shows that there is a linear relationship between the passenger density in the carriage and the time multiplier, but an inverse proportion between the crowding degrees after improvement and the generalized cost in the carriage. Traveler's willingness to pay increases with the reduction of crowding degree in the carriage. When the crowding degree improves from 5 person·m^-2 to 4 person·m^-2, the willingness to pay for peak hours in the morning and evening is RMB 1.58 and 3.02, respectively. When the crowding degree improves from 5 person·m^-2 to 3.5 person·m^-2, the willingness to pay for peak hours in the morning and evening increase to RMB 2.47 and 4.99, respectively.Therefore, traveler's average payment willingness in the evening peak is approximate twice that in the morning peak, and there are significant differences in the payment willingness for the improved crowding degree at different eriods.
作者 房德威 何东坡 王立峰 陈曦 孙祥龙 FANG De-wei;HE Dong-po;WANG Li-feng;CHEN Xi;SUN Xiang-long(School of Civil Engineering, Northeast Forestry University, Harbin 150040, Heilongjiang, China)
出处 《交通运输工程学报》 EI CSCD 北大核心 2018年第6期121-130,共10页 Journal of Traffic and Transportation Engineering
基金 国家重点研发计划项目(2017YFC0803901) 中央高校基本科研业务费专项资金项目(2572018BJ09)
关键词 轨道交通 条件价值法 拥挤度 拥挤成本 时间乘数 出行时间 支付意愿 urban rail transit contingent valuation method crowding degree crowding cost time multiplier travel time payment willingness
  • 相关文献

参考文献9

二级参考文献94

共引文献145

同被引文献50

引证文献5

二级引证文献10

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部