Optimization of a feeder-bus route design by using a multiobjective programming approach |
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Authors: | Jen-Jia Lin Huei-In Wong |
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Institution: | 1. Department of Geography, National Taiwan University, No. 1, Sec. 4, Roosevelt Road, Taipei 10617, Taiwanjenjia@ntu.edu.tw;3. Graduate Institute of Urban Planning, National Taipei University, 151, Daxue Road, Sanxia Township, Taipei 23741, Taiwan |
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Abstract: | This paper presents a feeder-bus route design model, capable of minimizing route length, minimizing maximum route travel time of planned routes, and maximizing service coverage for trip generation. The proposed model considers constraints of route connectivity, subtour prevention, travel time upper bound of a route, relationships between route layout and service coverage, and value ranges of decision variables. Parameter uncertainties are dealt with using fuzzy numbers, and the model is developed as a multiobjective programming problem. A case study of a metro station in Taichung City, Taiwan is then conducted. Next, the programming problem in the case study is solved, based on the technique for order preference by similarity to ideal solution approach to obtain the compromise route design. Results of the case study confirm that the routes of the proposed model perform better than existing routes in terms of network length and service coverage. Additionally, increasing the number of feeder-bus routes decreases maximum route travel time, increases service coverage, and increases network length. To our knowledge, the proposed model is the first bus route design model in the literature to consider simultaneously various stakeholder needs and support for bus route planners in developing alternatives for further evaluation efficiently and systematically. |
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Keywords: | feeder-bus route design link covering problem optimization mathematical programming TOPSIS Taiwan |
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