2021
DOI: 10.1007/978-3-030-67667-4_17
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A Route-Affecting Region Based Approach for Feature Extraction in Transportation Route Planning

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Cited by 5 publications
(7 citation statements)
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“…Traditionally, methods that focus on designing new routes rely on origin-destination matrices to evaluate their expected efficacy [32,72]. In addition, various approaches such as transfer learning or other machine learning methods also have been introduced to deal with similar tasks [40,71,74]; among them, a state-of-the-art deep-neural-network-based PF inference module [51,53] that relies on data engineering with a route-affecting region (RAR) is proposed. The work [51,53] proposes a PF estimation model that emphasizes integrating the feature information of the route's influential region and combining the city's heterogeneous data, including but not limited to the point of interests, human mobility, and competitive and transferable relationship with existing routes.…”
Section: Passenger Volume Inferencementioning
confidence: 99%
See 4 more Smart Citations
“…Traditionally, methods that focus on designing new routes rely on origin-destination matrices to evaluate their expected efficacy [32,72]. In addition, various approaches such as transfer learning or other machine learning methods also have been introduced to deal with similar tasks [40,71,74]; among them, a state-of-the-art deep-neural-network-based PF inference module [51,53] that relies on data engineering with a route-affecting region (RAR) is proposed. The work [51,53] proposes a PF estimation model that emphasizes integrating the feature information of the route's influential region and combining the city's heterogeneous data, including but not limited to the point of interests, human mobility, and competitive and transferable relationship with existing routes.…”
Section: Passenger Volume Inferencementioning
confidence: 99%
“…In addition, various approaches such as transfer learning or other machine learning methods also have been introduced to deal with similar tasks [40,71,74]; among them, a state-of-the-art deep-neural-network-based PF inference module [51,53] that relies on data engineering with a route-affecting region (RAR) is proposed. The work [51,53] proposes a PF estimation model that emphasizes integrating the feature information of the route's influential region and combining the city's heterogeneous data, including but not limited to the point of interests, human mobility, and competitive and transferable relationship with existing routes. Thereafter, this neural-network-based inference module, with a grid-like graph that stores urban features and road network connectivity, is modified and adopted for evaluating the expected performance (PF) of arbitrary circular routes and constructing the graph needed in subsequent route planning.…”
Section: Passenger Volume Inferencementioning
confidence: 99%
See 3 more Smart Citations