摘要
随着城市机动车保有量的飞速增长,油气资源的短缺问题日益严重,如何采取有效措施减少能源消耗是一个值得深入研究的问题.用双层规划思想建立先进出行者信息系统和油耗的最优速度确定的优化模型.在此模型中,上层规划是通过系统总出行时间和油耗总量确定最优速度的问题,下层问题是在一定速度条件下考虑先进出行者信息系统影响的出行道路选择行为,构造了弹性需求条件下的随机用户平衡配流模型,并给出了一个平衡迭代算法进行求解.最后用一个简单算例,对模型的求解算法进行了验证.研究结果显示,随着出行者对道路实际情况认识程度的降低,可以通过提高装备ATIS设备的出行者比率,使得出行者能够合理地进行路径选择,从而降低系统总费用.
With the rapid growth of automobile volume, the shortge of oil and gas resources is becoming increasingly serious, h is worthy to search effective measures to reduce the energy consumption. A bi-level programming model is proposed to describe the optimization programming problem for tile optimal velocity with advanced traveler information systems (ATIS) and fuel consumption. The upper level programming is to determine optimal vehicle velocity by minimizing the system travel cost and total gas consumption, while the lower one is an equilibrium problem by integrating the elastic demand and stochastic user equilibrium. An e- quilibrium iterative solution algorithm is also presented. Finally, a simple numerical example is given to il- lustrate the applications of the model. The results show that, with the decrease of awareness, the number of the drivers equipped with ATIS is increased, while the total cost of the system can he reduced.
出处
《交通运输系统工程与信息》
EI
CSCD
2009年第5期34-39,共6页
Journal of Transportation Systems Engineering and Information Technology
基金
973大城市交通拥堵瓶颈的基础科学问题研究项目(2006CB705500)
教育部高等学校优秀博士学位论文资助项目(200763)
国家自然科学基金重点项目(70631001)
国家自然科学基金项目(70871009)
关键词
先进出行者信息系统(ATIS)
双层规划
最优速度
用户平衡
随机用户平衡
advanced traveler information systems(ATIS)
bi-level programming
optimal velocity
user equilibrium
stochastic user equilibrium