Journal of Jilin University(Engineering and Technology Edition) ›› 2019, Vol. 49 ›› Issue (5): 1492-1499.doi: 10.13229/j.cnki.jdxbgxb20180451

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Optimizing vehicles allocation of multimodal coordinated freight transport based on transshipment delay risks

Hai-bo LONG1(),Jia-qi YANG1,Xue-yu ZHAO2()   

  1. 1. School of Transportation, Wuhan University of Technology, Wuhan 430063, China
    2. School of Management, Hubei University of Education, Wuhan 430205, China
  • Received:2018-05-08 Online:2019-09-01 Published:2019-09-11
  • Contact: Xue-yu ZHAO E-mail:longhaibo2012@163.com;591949181@qq.com

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Abstract:

From the perspective of the transshipment delay risks of multimodal coordinated freight transport in nodes, this paper analyzes the coordination and optimization of multimodal coordinated freight vehicle allocation from the perspective of transshipment delay risks in transport node. With the comprehensive analysis of the risk factors of transshipment in multimodal coordinated freight transport node, the entropy weight method is used to evaluate the transshipment delay risks. The optimization model of multimodal coordinated freight transport vehicle allocation is built on the basis of considering the transshipment delay risks, and the NSGA-II algorithm is proposed to solve the optimization model. Finally, a computation example is given to analyze the effect of the allocation optimization of multimodal coordinated freight transport based on the transshipment delay risks.

Key words: engineering of communications and transportation system, multimodal coordinated freight transport, optimum allocation, transshipment delay risks, vehicles

CLC Number: 

  • U12

Table 1

Transit risk level table of multi-modal"

一级指标二级指标三级指标
转运计划风险载运工具配置风险载运工具数量不足
载运工具吨位不足
载运工具容积不足
转运路径规划风险路径规划错误
路径规划迂回、重复
路径可达性效果不佳
转运时刻编制风险发车频率
转运时间
发车延迟
转运作业计划风险货运分配不合理
货运效率不匹配
转运作业风险人员操作风险技术经验
生理状况
心理素质
转运设备故障风险设备技术状况差
零件损坏
转运环境风险恶劣自然环境
恶劣交通环境
恶劣装卸环境
转运管理风险规章制度
组织结构
培训制度
转运商务风险单证流转风险单证缺失
单证错误
单证不规范
口岸报关风险信息资料不全
税费漏缴
报关耗时过长
查验风险查验不合格
查验时间过长
审核风险许可证不合格
审验时间过长

Table 2

Multi-modal cooperative freight node transfer risk indicator correspondence table"

一级指标二级指标三级指标
转运计划风险载运工具配置风险载运工具周转量
转运路径规划风险路径规划下运行时间
转运时刻编制风险转运站停留时间
转运作业计划风险货运分配效率
转运作业风险人员操作风险人员综合效率
转运设备故障风险设备损坏几率
转运环境风险恶劣环境评价(由之前3个指标加权整合)
转运管理风险管理效率(由之前3个指标加权整合)
转运商务风险单证流转风险单证不可解读效率
口岸报关风险规定时间内报关通过率
查验风险额定时间内查验合格率
审核风险额定时间内许可证审核合格率

Table 3

Multi-modal collaborative freight risk"

风险评价指标区段1区段2区段3区段4

载运工具配置

转运路径规划

转运时刻编制

转运作业计划

人员操作

转运设备故障

转运环境

转运管理

单证流转

口岸报关

查验

审核

80

65

40

60

80

10

70

70

25

60

90

10

90

80

80

90

10

80

80

90

50

90

16

80

70

55

80

80

20

60

60

60

50

80

27

60

70

75

40

80

50

50

60

80

25

80

54

50

Table 4

Allocation example parameter value for multi-mode collaborative freight carrier"

参数取值区段1区段2区段3区段4
Ci16012030
Ri0.050.010.030.01
Di20202020
Gi1501005
tti0.28122
Ti4682
tir3572

Fig.1

Final iteration results of NSGA-II algorithms"

Table 5

Allocation scheme for multi-mode"

指标节点分配数量
各区段运力资源配置量n1120
n23
n32
n410
优化目标运力总规模840
转运延误风险6.19
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