Node location of bi-level urban metro-based ground-underground logistics distribution

Haiyan Zhang , Jian Zhang , Changjiang Zheng , Bo Wang , Juan Chen
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Abstract

Metro-based underground logistics (M-ULS) can relieve the pressure of urban traffic and avert the road congestion through coordinating with ground logistics system. A bi-level node location model is proposed based on the ground-underground logistics distribution mode. The cost of delivery and pickup from the perspective of service companies and customers are minimized as the upper and lower objectives. Since the model is belonged to NP-hard problem, the simulated annealing algorithm (SA algorithm) whose new solution generation part was improved according to the characteristics of the model is used to solve the problem. In the case analysis part, the distribution nodes and customer points close to Nanjing Metro Line 3 were selected to verify the validity of the model and algorithm. The result shows that the improved SA algorithm outperformed in taking less iteration times and obtaining better solutions. The total transportation cost of the system can be reduced by 21.7 % with the optimized node location plan, and 63.6 % of the ground transportation distance can be replaced by the underground transportation, such results are also obtained when the cargo demand increases by 1.5 times and 2 times, which verifies the advantages of M-ULS node location in reducing truck emission and total delivery cost.

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基于双层城市地铁的地面-地下物流配送节点定位
基于地铁的地下物流(M-ULS)可通过与地面物流系统的协调,缓解城市交通压力,避免道路拥堵。本文提出了一种基于地面-地下物流配送模式的双层节点定位模型。从服务公司和客户的角度出发,将送货和取货的成本最小化作为上层目标和下层目标。由于该模型属于 NP 难问题,因此采用了模拟退火算法(SA 算法)来解决该问题,该算法的新解生成部分根据模型的特点进行了改进。在案例分析部分,选取了南京地铁三号线附近的配电节点和用户点来验证模型和算法的有效性。结果表明,改进后的 SA 算法在减少迭代次数和获得更好解方面表现优异。优化后的节点选址方案可使系统总运输成本降低 21.7%,63.6% 的地面运输距离可由地下运输替代,当货物需求量增加 1.5 倍和 2 倍时也能得到这样的结果,验证了 M-ULS 节点选址方案在减少卡车排放和总运输成本方面的优势。
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