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    Platooning-based trajectory planning of connected and autonomous vehicles at superstreets

    New search for: Liu, Shaojie
    New search for: Fan, Wei (David)

    Alternative intersection designs are popular existing strategies that can be used for handling heavy traffic in the U.S., and research on the performance of CAVs in the alternative intersection design can complement our knowledge of the impact of CAVs. Hence, this research attempts to mitigate this research gap through a simulation-based study on a superstreet, one of the popular alternative intersection designs. A real-world superstreet is selected for the simulation-based study with collected traffic volumes and average speeds. HDVs are modeled using Wiedemann 99 with calibrated parameters while CAVs are modeled using the intelligent driver model (IDM). Platooning and trajectory planning capabilities of CAVs are modeled in the designed simulation. The simulation results show that the proposed framework for CAVs can successfully reduce fuel consumption in different market penetration rates and traffic scales.

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    Platooning-based trajectory planning of connected and autonomous vehicles at superstreets

    New search for: Liu, Shaojie
    New search for: Fan, Wei (David)

    Alternative intersection designs are popular existing strategies that can be used for handling heavy traffic in the U.S., and research on the performance of CAVs in the alternative intersection design can complement our knowledge of the impact of CAVs. Hence, this research attempts to mitigate this research gap through a simulation-based study on a superstreet, one of the popular alternative intersection designs. A real-world superstreet is selected for the simulation-based study with collected traffic volumes and average speeds. HDVs are modeled using Wiedemann 99 with calibrated parameters while CAVs are modeled using the intelligent driver model (IDM). Platooning and trajectory planning capabilities of CAVs are modeled in the designed simulation. The simulation results show that the proposed framework for CAVs can successfully reduce fuel consumption in different market penetration rates and traffic scales.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Platooning-based trajectory planning of connected and autonomous vehicles at superstreets

    New search for: Liu, Shaojie
    New search for: Fan, Wei (David)

    Alternative intersection designs are popular existing strategies that can be used for handling heavy traffic in the U.S., and research on the performance of CAVs in the alternative intersection design can complement our knowledge of the impact of CAVs. Hence, this research attempts to mitigate this research gap through a simulation-based study on a superstreet, one of the popular alternative intersection designs. A real-world superstreet is selected for the simulation-based study with collected traffic volumes and average speeds. HDVs are modeled using Wiedemann 99 with calibrated parameters while CAVs are modeled using the intelligent driver model (IDM). Platooning and trajectory planning capabilities of CAVs are modeled in the designed simulation. The simulation results show that the proposed framework for CAVs can successfully reduce fuel consumption in different market penetration rates and traffic scales.

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    Title:

    Platooning-based trajectory planning of connected and autonomous vehicles at superstreets

    Contributors:

    Liu, Shaojie (author) / Fan, Wei (David) (author)

    Published in:

    Transportation Planning and Technology ; 45 ; 251-267

    Publication date:

    2022-04-03

    Size:

    17 pages

    ISSN:

    0308-1060 , 1029-0354

    DOI:

    https://doi.org/10.1080/03081060.2022.2093874

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    CAVs , superstreet , platooning , trajectory planning , market penetration rates , fuel consumption , operational performance

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