Multimodal network path optimization based on a two-stage algorithm in the perspective of sustainable transport development

发布时间:2024-09-10 审核:河南省安全苛求系统人机智能交互工程技术研究中心 浏览次数: 20


Abstact:The environmental issues brought on by carbon emissions from transport have  risen to prominence in recent years. More and more academics are using the multi-objective path optimization method to solve the multimodal optimization problem from the standpoint of sustainable development in order to address the  environmental issues brought on by the transport process. The research proposes a two-stage method to handle multi-objective optimization convergence and simplify multimodal transport path optimization. In the first stage, a fuzzy C clustering model is established, and based on the clustering results, the multimodal transport network nodes are identified. In the second stage, a multimodal transport multi-objective path optimization model is established, and the optimal path is solved using a genetic algorithm. The research method was applied in the Bohai Rim region. Results indicated that the fuzzy C-clustering method and the genetic method were able to select the optimal node city, thus solving the actual site selection problem of multimodal transportation networks. Using the FCM model, the 86 city nodes were categorized into four types, leading to the establishment of the most proficient multimodal transportation network  in the Bohai Rim region. Using a genetic algorithm for optimization, a stable state is reached after 25 iterations. In the validation experiment on path  optimization, the cost was reduced by 47.12% compared to the minimum single  objective time, and transportation carbon emissions saw a reduction of 28.23%. Similarly, compared to the lowest target for transportation carbon emissions, the cost was reduced by 39.48% and the time was reduced by 38.12%. Compared to the lowest target for transportation carbon emissions, the time was reduced by 32.02% and the carbon emissions were reduced by 19.23%. Notably, the transportation multi-objective path optimization model showed significant improvement compared to the single-target model. The research method has been proven to be superior, and can offer the most optimal transportation route guidance for participants in multimodal transportation. Furthermore, it can effectively tackle the issue of node selection convergence and multi-objective optimization, while also serving as a valuable source of data to support the the oretical advancement of multimodal transportation network path optimization.


Reference: Qiao C, Niu K, Ma W. Multimodal network path optimization based on a two-stage algorithm in the perspective of sustainable transport development. Advanced Control for Applications: Engineering and Industrial Systems. 2024;e187. doi: 10.1002/adc2.187






Baidu
sogou